X-Git-Url: http://git.bitcoin.ninja/index.cgi?a=blobdiff_plain;f=lightning%2Fsrc%2Fln%2Ffeatures.rs;h=32ba9de758632036942318c756f64708793e1b1a;hb=22398853c97966f42c709669fff3c63486d82993;hp=4a9526aff5687d3916230c9d0c6e28b7b0a2ce32;hpb=f52b617c121eed193ac9c2d4feee10040b669686;p=rust-lightning diff --git a/lightning/src/ln/features.rs b/lightning/src/ln/features.rs index 4a9526af..32ba9de7 100644 --- a/lightning/src/ln/features.rs +++ b/lightning/src/ln/features.rs @@ -22,13 +22,19 @@ //! [BOLT #9]: https://github.com/lightningnetwork/lightning-rfc/blob/master/09-features.md //! [messages]: crate::ln::msgs -use std::{cmp, fmt}; -use std::marker::PhantomData; - +use {io, io_extras}; +use prelude::*; +use core::{cmp, fmt}; +use core::hash::{Hash, Hasher}; +use core::marker::PhantomData; + +use bitcoin::bech32; +use bitcoin::bech32::{Base32Len, FromBase32, ToBase32, u5, WriteBase32}; use ln::msgs::DecodeError; use util::ser::{Readable, Writeable, Writer}; mod sealed { + use prelude::*; use ln::features::Features; /// The context in which [`Features`] are applicable. Defines which features are required and @@ -51,6 +57,7 @@ mod sealed { required_features: [$( $( $required_feature: ident )|*, )*], optional_features: [$( $( $optional_feature: ident )|*, )*], }) => { + #[derive(Eq, PartialEq)] pub struct $context {} impl Context for $context { @@ -84,6 +91,28 @@ mod sealed { )* ]; } + + impl alloc::fmt::Display for Features<$context> { + fn fmt(&self, fmt: &mut alloc::fmt::Formatter) -> Result<(), alloc::fmt::Error> { + $( + $( + fmt.write_fmt(format_args!("{}: {}, ", stringify!($required_feature), + if <$context as $required_feature>::requires_feature(&self.flags) { "required" } + else if <$context as $required_feature>::supports_feature(&self.flags) { "supported" } + else { "not supported" }))?; + )* + $( + fmt.write_fmt(format_args!("{}: {}, ", stringify!($optional_feature), + if <$context as $optional_feature>::requires_feature(&self.flags) { "required" } + else if <$context as $optional_feature>::supports_feature(&self.flags) { "supported" } + else { "not supported" }))?; + )* + )* + fmt.write_fmt(format_args!("unknown flags: {}", + if self.requires_unknown_bits() { "required" } + else if self.supports_unknown_bits() { "supported" } else { "none" })) + } + } }; } @@ -92,7 +121,7 @@ mod sealed { // Byte 0 , // Byte 1 - StaticRemoteKey, + VariableLengthOnion | StaticRemoteKey | PaymentSecret, // Byte 2 , // Byte 3 @@ -102,7 +131,7 @@ mod sealed { // Byte 0 DataLossProtect | InitialRoutingSync | UpfrontShutdownScript | GossipQueries, // Byte 1 - VariableLengthOnion | PaymentSecret, + , // Byte 2 BasicMPP, // Byte 3 @@ -114,21 +143,33 @@ mod sealed { // Byte 0 , // Byte 1 - StaticRemoteKey, + VariableLengthOnion | StaticRemoteKey | PaymentSecret, // Byte 2 , // Byte 3 , + // Byte 4 + , + // Byte 5 + , + // Byte 6 + , ], optional_features: [ // Byte 0 DataLossProtect | UpfrontShutdownScript | GossipQueries, // Byte 1 - VariableLengthOnion | PaymentSecret, + , // Byte 2 BasicMPP, // Byte 3 ShutdownAnySegwit, + // Byte 4 + , + // Byte 5 + , + // Byte 6 + Keysend, ], }); define_context!(ChannelContext { @@ -136,16 +177,47 @@ mod sealed { optional_features: [], }); define_context!(InvoiceContext { - required_features: [,,,], - optional_features: [ + required_features: [ // Byte 0 , // Byte 1 VariableLengthOnion | PaymentSecret, // Byte 2 + , + ], + optional_features: [ + // Byte 0 + , + // Byte 1 + , + // Byte 2 BasicMPP, ], }); + // This isn't a "real" feature context, and is only used in the channel_type field in an + // `OpenChannel` message. + define_context!(ChannelTypeContext { + required_features: [ + // Byte 0 + , + // Byte 1 + StaticRemoteKey, + // Byte 2 + , + // Byte 3 + , + ], + optional_features: [ + // Byte 0 + , + // Byte 1 + , + // Byte 2 + , + // Byte 3 + , + ], + }); /// Defines a feature with the given bits for the specified [`Context`]s. The generated trait is /// useful for manipulating feature flags. @@ -277,7 +349,7 @@ mod sealed { define_feature!(9, VariableLengthOnion, [InitContext, NodeContext, InvoiceContext], "Feature flags for `var_onion_optin`.", set_variable_length_onion_optional, set_variable_length_onion_required); - define_feature!(13, StaticRemoteKey, [InitContext, NodeContext], + define_feature!(13, StaticRemoteKey, [InitContext, NodeContext, ChannelTypeContext], "Feature flags for `option_static_remotekey`.", set_static_remote_key_optional, set_static_remote_key_required); define_feature!(15, PaymentSecret, [InitContext, NodeContext, InvoiceContext], @@ -287,29 +359,11 @@ mod sealed { define_feature!(27, ShutdownAnySegwit, [InitContext, NodeContext], "Feature flags for `opt_shutdown_anysegwit`.", set_shutdown_any_segwit_optional, set_shutdown_any_segwit_required); + define_feature!(55, Keysend, [NodeContext], + "Feature flags for keysend payments.", set_keysend_optional, set_keysend_required); #[cfg(test)] - define_context!(TestingContext { - required_features: [ - // Byte 0 - , - // Byte 1 - , - // Byte 2 - UnknownFeature, - ], - optional_features: [ - // Byte 0 - , - // Byte 1 - , - // Byte 2 - , - ], - }); - - #[cfg(test)] - define_feature!(23, UnknownFeature, [TestingContext], + define_feature!(123456789, UnknownFeature, [NodeContext, ChannelContext, InvoiceContext], "Feature flags for an unknown feature used in testing.", set_unknown_feature_optional, set_unknown_feature_required); } @@ -318,6 +372,7 @@ mod sealed { /// appears. /// /// (C-not exported) as we map the concrete feature types below directly instead +#[derive(Eq)] pub struct Features { /// Note that, for convenience, flags is LITTLE endian (despite being big-endian on the wire) flags: Vec, @@ -332,6 +387,11 @@ impl Clone for Features { } } } +impl Hash for Features { + fn hash(&self, hasher: &mut H) { + self.flags.hash(hasher); + } +} impl PartialEq for Features { fn eq(&self, o: &Self) -> bool { self.flags.eq(&o.flags) @@ -352,11 +412,22 @@ pub type ChannelFeatures = Features; /// Features used within an invoice. pub type InvoiceFeatures = Features; +/// Features used within the channel_type field in an OpenChannel message. +/// +/// A channel is always of some known "type", describing the transaction formats used and the exact +/// semantics of our interaction with our peer. +/// +/// Note that because a channel is a specific type which is proposed by the opener and accepted by +/// the counterparty, only required features are allowed here. +/// +/// This is serialized differently from other feature types - it is not prefixed by a length, and +/// thus must only appear inside a TLV where its length is known in advance. +pub type ChannelTypeFeatures = Features; + impl InitFeatures { /// Writes all features present up to, and including, 13. - pub(crate) fn write_up_to_13(&self, w: &mut W) -> Result<(), ::std::io::Error> { + pub(crate) fn write_up_to_13(&self, w: &mut W) -> Result<(), io::Error> { let len = cmp::min(2, self.flags.len()); - w.size_hint(len + 2); (len as u16).write(w)?; for i in (0..len).rev() { if i == 0 { @@ -393,6 +464,102 @@ impl InvoiceFeatures { pub(crate) fn to_context(&self) -> Features { self.to_context_internal() } + + /// Getting a route for a keysend payment to a private node requires providing the payee's + /// features (since they were not announced in a node announcement). However, keysend payments + /// don't have an invoice to pull the payee's features from, so this method is provided for use in + /// [`Payee::for_keysend`], thus omitting the need for payers to manually construct an + /// `InvoiceFeatures` for [`find_route`]. + /// + /// [`Payee::for_keysend`]: crate::routing::router::Payee::for_keysend + /// [`find_route`]: crate::routing::router::find_route + pub(crate) fn for_keysend() -> InvoiceFeatures { + InvoiceFeatures::empty().set_variable_length_onion_optional() + } +} + +impl ChannelTypeFeatures { + /// Constructs the implicit channel type based on the common supported types between us and our + /// counterparty + pub(crate) fn from_counterparty_init(counterparty_init: &InitFeatures) -> Self { + let mut ret = counterparty_init.to_context_internal(); + // ChannelTypeFeatures must only contain required bits, so we OR the required forms of all + // optional bits and then AND out the optional ones. + for byte in ret.flags.iter_mut() { + *byte |= (*byte & 0b10_10_10_10) >> 1; + *byte &= 0b01_01_01_01; + } + ret + } + + /// Constructs a ChannelTypeFeatures with only static_remotekey set + pub(crate) fn only_static_remote_key() -> Self { + let mut ret = Self::empty(); + ::set_required_bit(&mut ret.flags); + ret + } +} + +impl ToBase32 for InvoiceFeatures { + fn write_base32(&self, writer: &mut W) -> Result<(), ::Err> { + // Explanation for the "4": the normal way to round up when dividing is to add the divisor + // minus one before dividing + let length_u5s = (self.flags.len() * 8 + 4) / 5 as usize; + let mut res_u5s: Vec = vec![u5::try_from_u8(0).unwrap(); length_u5s]; + for (byte_idx, byte) in self.flags.iter().enumerate() { + let bit_pos_from_left_0_indexed = byte_idx * 8; + let new_u5_idx = length_u5s - (bit_pos_from_left_0_indexed / 5) as usize - 1; + let new_bit_pos = bit_pos_from_left_0_indexed % 5; + let shifted_chunk_u16 = (*byte as u16) << new_bit_pos; + let curr_u5_as_u8 = res_u5s[new_u5_idx].to_u8(); + res_u5s[new_u5_idx] = u5::try_from_u8(curr_u5_as_u8 | ((shifted_chunk_u16 & 0x001f) as u8)).unwrap(); + if new_u5_idx > 0 { + let curr_u5_as_u8 = res_u5s[new_u5_idx - 1].to_u8(); + res_u5s[new_u5_idx - 1] = u5::try_from_u8(curr_u5_as_u8 | (((shifted_chunk_u16 >> 5) & 0x001f) as u8)).unwrap(); + } + if new_u5_idx > 1 { + let curr_u5_as_u8 = res_u5s[new_u5_idx - 2].to_u8(); + res_u5s[new_u5_idx - 2] = u5::try_from_u8(curr_u5_as_u8 | (((shifted_chunk_u16 >> 10) & 0x001f) as u8)).unwrap(); + } + } + // Trim the highest feature bits. + while !res_u5s.is_empty() && res_u5s[0] == u5::try_from_u8(0).unwrap() { + res_u5s.remove(0); + } + writer.write(&res_u5s) + } +} + +impl Base32Len for InvoiceFeatures { + fn base32_len(&self) -> usize { + self.to_base32().len() + } +} + +impl FromBase32 for InvoiceFeatures { + type Err = bech32::Error; + + fn from_base32(field_data: &[u5]) -> Result { + // Explanation for the "7": the normal way to round up when dividing is to add the divisor + // minus one before dividing + let length_bytes = (field_data.len() * 5 + 7) / 8 as usize; + let mut res_bytes: Vec = vec![0; length_bytes]; + for (u5_idx, chunk) in field_data.iter().enumerate() { + let bit_pos_from_right_0_indexed = (field_data.len() - u5_idx - 1) * 5; + let new_byte_idx = (bit_pos_from_right_0_indexed / 8) as usize; + let new_bit_pos = bit_pos_from_right_0_indexed % 8; + let chunk_u16 = chunk.to_u8() as u16; + res_bytes[new_byte_idx] |= ((chunk_u16 << new_bit_pos) & 0xff) as u8; + if new_byte_idx != length_bytes - 1 { + res_bytes[new_byte_idx + 1] |= ((chunk_u16 >> (8-new_bit_pos)) & 0xff) as u8; + } + } + // Trim the highest feature bits. + while !res_bytes.is_empty() && res_bytes[res_bytes.len() - 1] == 0 { + res_bytes.pop(); + } + Ok(InvoiceFeatures::from_le_bytes(res_bytes)) + } } impl Features { @@ -415,19 +582,22 @@ impl Features { /// Converts `Features` to `Features`. Only known `T` features relevant to context `C` are /// included in the result. fn to_context_internal(&self) -> Features { - let byte_count = C::KNOWN_FEATURE_MASK.len(); + let from_byte_count = T::KNOWN_FEATURE_MASK.len(); + let to_byte_count = C::KNOWN_FEATURE_MASK.len(); let mut flags = Vec::new(); for (i, byte) in self.flags.iter().enumerate() { - if i < byte_count { - let known_source_features = T::KNOWN_FEATURE_MASK[i]; - let known_target_features = C::KNOWN_FEATURE_MASK[i]; - flags.push(byte & known_source_features & known_target_features); + if i < from_byte_count && i < to_byte_count { + let from_known_features = T::KNOWN_FEATURE_MASK[i]; + let to_known_features = C::KNOWN_FEATURE_MASK[i]; + flags.push(byte & from_known_features & to_known_features); } } Features:: { flags, mark: PhantomData, } } - /// Create a Features given a set of flags, in LE. + /// Create a Features given a set of flags, in little-endian. This is in reverse byte order from + /// most on-the-wire encodings. + /// (C-not exported) as we don't support export across multiple T pub fn from_le_bytes(flags: Vec) -> Features { Features { flags, @@ -441,7 +611,28 @@ impl Features { &self.flags } - pub(crate) fn requires_unknown_bits(&self) -> bool { + fn write_be(&self, w: &mut W) -> Result<(), io::Error> { + for f in self.flags.iter().rev() { // Swap back to big-endian + f.write(w)?; + } + Ok(()) + } + + fn from_be_bytes(mut flags: Vec) -> Features { + flags.reverse(); // Swap to little-endian + Self { + flags, + mark: PhantomData, + } + } + + pub(crate) fn supports_any_optional_bits(&self) -> bool { + self.flags.iter().any(|&byte| (byte & 0b10_10_10_10) != 0) + } + + /// Returns true if this `Features` object contains unknown feature flags which are set as + /// "required". + pub fn requires_unknown_bits(&self) -> bool { // Bitwise AND-ing with all even bits set except for known features will select required // unknown features. let byte_count = T::KNOWN_FEATURE_MASK.len(); @@ -469,27 +660,6 @@ impl Features { (byte & unknown_features) != 0 }) } - - /// The number of bytes required to represent the feature flags present. This does not include - /// the length bytes which are included in the serialized form. - pub(crate) fn byte_count(&self) -> usize { - self.flags.len() - } - - #[cfg(test)] - pub(crate) fn set_required_unknown_bits(&mut self) { - ::set_required_bit(&mut self.flags); - } - - #[cfg(test)] - pub(crate) fn set_optional_unknown_bits(&mut self) { - ::set_optional_bit(&mut self.flags); - } - - #[cfg(test)] - pub(crate) fn clear_unknown_bits(&mut self) { - ::clear_bits(&mut self.flags); - } } impl Features { @@ -497,6 +667,7 @@ impl Features { pub(crate) fn requires_data_loss_protect(&self) -> bool { ::requires_feature(&self.flags) } + #[cfg(test)] pub(crate) fn supports_data_loss_protect(&self) -> bool { ::supports_feature(&self.flags) } @@ -571,11 +742,8 @@ impl Features { pub(crate) fn requires_payment_secret(&self) -> bool { ::requires_feature(&self.flags) } - // Note that we never need to test this since what really matters is the invoice - iff the - // invoice provides a payment_secret, we assume that we can use it (ie that the recipient - // supports payment_secret). - #[allow(dead_code)] - pub(crate) fn supports_payment_secret(&self) -> bool { + /// Returns whether the `payment_secret` feature is supported. + pub fn supports_payment_secret(&self) -> bool { ::supports_feature(&self.flags) } } @@ -601,32 +769,45 @@ impl Features { self } } - -impl Writeable for Features { - fn write(&self, w: &mut W) -> Result<(), ::std::io::Error> { - w.size_hint(self.flags.len() + 2); - (self.flags.len() as u16).write(w)?; - for f in self.flags.iter().rev() { // Swap back to big-endian - f.write(w)?; +macro_rules! impl_feature_len_prefixed_write { + ($features: ident) => { + impl Writeable for $features { + fn write(&self, w: &mut W) -> Result<(), io::Error> { + (self.flags.len() as u16).write(w)?; + self.write_be(w) + } + } + impl Readable for $features { + fn read(r: &mut R) -> Result { + Ok(Self::from_be_bytes(Vec::::read(r)?)) + } } - Ok(()) } } - -impl Readable for Features { - fn read(r: &mut R) -> Result { - let mut flags: Vec = Readable::read(r)?; - flags.reverse(); // Swap to little-endian - Ok(Self { - flags, - mark: PhantomData, - }) +impl_feature_len_prefixed_write!(InitFeatures); +impl_feature_len_prefixed_write!(ChannelFeatures); +impl_feature_len_prefixed_write!(NodeFeatures); +impl_feature_len_prefixed_write!(InvoiceFeatures); + +// Because ChannelTypeFeatures only appears inside of TLVs, it doesn't have a length prefix when +// serialized. Thus, we can't use `impl_feature_len_prefixed_write`, above, and have to write our +// own serialization. +impl Writeable for ChannelTypeFeatures { + fn write(&self, w: &mut W) -> Result<(), io::Error> { + self.write_be(w) + } +} +impl Readable for ChannelTypeFeatures { + fn read(r: &mut R) -> Result { + let v = io_extras::read_to_end(r)?; + Ok(Self::from_be_bytes(v)) } } #[cfg(test)] mod tests { - use super::{ChannelFeatures, InitFeatures, InvoiceFeatures, NodeFeatures}; + use super::{ChannelFeatures, ChannelTypeFeatures, InitFeatures, InvoiceFeatures, NodeFeatures}; + use bitcoin::bech32::{Base32Len, FromBase32, ToBase32, u5}; #[test] fn sanity_test_known_features() { @@ -654,8 +835,10 @@ mod tests { assert!(InitFeatures::known().supports_variable_length_onion()); assert!(NodeFeatures::known().supports_variable_length_onion()); - assert!(!InitFeatures::known().requires_variable_length_onion()); - assert!(!NodeFeatures::known().requires_variable_length_onion()); + assert!(InvoiceFeatures::known().supports_variable_length_onion()); + assert!(InitFeatures::known().requires_variable_length_onion()); + assert!(NodeFeatures::known().requires_variable_length_onion()); + assert!(InvoiceFeatures::known().requires_variable_length_onion()); assert!(InitFeatures::known().supports_static_remote_key()); assert!(NodeFeatures::known().supports_static_remote_key()); @@ -664,13 +847,17 @@ mod tests { assert!(InitFeatures::known().supports_payment_secret()); assert!(NodeFeatures::known().supports_payment_secret()); - assert!(!InitFeatures::known().requires_payment_secret()); - assert!(!NodeFeatures::known().requires_payment_secret()); + assert!(InvoiceFeatures::known().supports_payment_secret()); + assert!(InitFeatures::known().requires_payment_secret()); + assert!(NodeFeatures::known().requires_payment_secret()); + assert!(InvoiceFeatures::known().requires_payment_secret()); assert!(InitFeatures::known().supports_basic_mpp()); assert!(NodeFeatures::known().supports_basic_mpp()); + assert!(InvoiceFeatures::known().supports_basic_mpp()); assert!(!InitFeatures::known().requires_basic_mpp()); assert!(!NodeFeatures::known().requires_basic_mpp()); + assert!(!InvoiceFeatures::known().requires_basic_mpp()); assert!(InitFeatures::known().supports_shutdown_anysegwit()); assert!(NodeFeatures::known().supports_shutdown_anysegwit()); @@ -683,19 +870,15 @@ mod tests { #[test] fn sanity_test_unknown_bits() { - let mut features = ChannelFeatures::empty(); + let features = ChannelFeatures::empty(); assert!(!features.requires_unknown_bits()); assert!(!features.supports_unknown_bits()); - features.set_required_unknown_bits(); + let features = ChannelFeatures::empty().set_unknown_feature_required(); assert!(features.requires_unknown_bits()); assert!(features.supports_unknown_bits()); - features.clear_unknown_bits(); - assert!(!features.requires_unknown_bits()); - assert!(!features.supports_unknown_bits()); - - features.set_optional_unknown_bits(); + let features = ChannelFeatures::empty().set_unknown_feature_optional(); assert!(!features.requires_unknown_bits()); assert!(features.supports_unknown_bits()); } @@ -711,12 +894,12 @@ mod tests { { // Check that the flags are as expected: // - option_data_loss_protect - // - var_onion_optin | static_remote_key (req) | payment_secret + // - var_onion_optin (req) | static_remote_key (req) | payment_secret(req) // - basic_mpp // - opt_shutdown_anysegwit assert_eq!(node_features.flags.len(), 4); assert_eq!(node_features.flags[0], 0b00000010); - assert_eq!(node_features.flags[1], 0b10010010); + assert_eq!(node_features.flags[1], 0b01010001); assert_eq!(node_features.flags[2], 0b00000010); assert_eq!(node_features.flags[3], 0b00001000); } @@ -731,6 +914,16 @@ mod tests { assert!(!init_features.supports_gossip_queries()); } + #[test] + fn convert_to_context_with_unknown_flags() { + // Ensure the `from` context has fewer known feature bytes than the `to` context. + assert!(InvoiceFeatures::known().flags.len() < NodeFeatures::known().flags.len()); + let invoice_features = InvoiceFeatures::known().set_unknown_feature_optional(); + assert!(invoice_features.supports_unknown_bits()); + let node_features: NodeFeatures = invoice_features.to_context(); + assert!(!node_features.supports_unknown_bits()); + } + #[test] fn set_feature_bits() { let features = InvoiceFeatures::empty() @@ -741,4 +934,46 @@ mod tests { assert!(features.requires_payment_secret()); assert!(features.supports_payment_secret()); } + + #[test] + fn invoice_features_encoding() { + let features_as_u5s = vec![ + u5::try_from_u8(6).unwrap(), + u5::try_from_u8(10).unwrap(), + u5::try_from_u8(25).unwrap(), + u5::try_from_u8(1).unwrap(), + u5::try_from_u8(10).unwrap(), + u5::try_from_u8(0).unwrap(), + u5::try_from_u8(20).unwrap(), + u5::try_from_u8(2).unwrap(), + u5::try_from_u8(0).unwrap(), + u5::try_from_u8(6).unwrap(), + u5::try_from_u8(0).unwrap(), + u5::try_from_u8(16).unwrap(), + u5::try_from_u8(1).unwrap(), + ]; + let features = InvoiceFeatures::from_le_bytes(vec![1, 2, 3, 4, 5, 42, 100, 101]); + + // Test length calculation. + assert_eq!(features.base32_len(), 13); + + // Test serialization. + let features_serialized = features.to_base32(); + assert_eq!(features_as_u5s, features_serialized); + + // Test deserialization. + let features_deserialized = InvoiceFeatures::from_base32(&features_as_u5s).unwrap(); + assert_eq!(features, features_deserialized); + } + + #[test] + fn test_channel_type_mapping() { + // If we map an InvoiceFeatures with StaticRemoteKey optional, it should map into a + // required-StaticRemoteKey ChannelTypeFeatures. + let init_features = InitFeatures::empty().set_static_remote_key_optional(); + let converted_features = ChannelTypeFeatures::from_counterparty_init(&init_features); + assert_eq!(converted_features, ChannelTypeFeatures::only_static_remote_key()); + assert!(!converted_features.supports_any_optional_bits()); + assert!(converted_features.requires_static_remote_key()); + } }