This commit modifies WriteMessage to only perform encryption on the
passed plaintext, and buffer the ciphertext within the connection
object. We then modify internal uses of WriteMessage to follow with a
call to Flush, which actually writes the message to the wire.
Additionally, since WriteMessage does not actually perform the write
itself, the io.Writer argument is removed from the function signature
and all call sites.
This commit adds a Flush method to the brontide.Machine, which can write
out a buffered message to an io.Writer. This is a preliminary change
which will allow the encryption of the plaintext to be done in a
distinct method from actually writing the bytes to the wire.
In this commit, we reduce the total number of allocations that a
brontide session will incur over its lifetime. Profiling on one of my
nodes showed that we were generating a lot of garbage due to
re-creating a 65KB buffer to read the next message each time the
ReadMessage method was called.
To reduce the total number of memory allocations, we’ll now simply
re-use a buffer for both the cipher text header, and the cipher text
itself.
This commit adds a new interface named NetInterface and two
implementations of it: RegularNet & TorProxyNet. These two structs
are used in config.go in an attempt to clean up the code and
abstract away the dialer and DNS functions.
This commit adds Tor support. Users can set the --TorSocks flag
to specify which port Tor's SOCKS5 proxy is listening on so that
lnd can connect to it. When this flag is set, ALL traffic gets
routed over Tor including DNS traffic. Special functions for
DNS lookups were added, and since Tor doesn't natively support
SRV requests, the proxySRV function routes connects us to
a DNS server via Tor and SRV requests can be issued directly
to the DNS server.
Co-authored-by: MeshCollider <dobsonsa68@gmail.com>
This adds a test of encryption/decryption of 1002 copies
of a message "hello" so as to test the test vectors in the
final section of BOLT 8 ("transport-message test").
It also corrects some typos in the preceding section of the
same function (TestBolt0008TestVectors).
In this commit we modify the establishTestConnection() function that
each of the brontide unit tests utilize. Before this commit, we would
fully block on the Accept method of the listener. Since then it has
been observed, that at times if Accept blocks indefinitely, then the
entire test will fail after 10 minutes. To allow the test to return
early with a pertinent error, we’ll now make the entire test async, so
we can immediately return with an error if detected.
This commit fixes a lingering issue within lnd, which can cause a
server to freeze up, and not handle any incoming connections properly,
or cause clients to freeze and not return in a timely manner from a
failed connection attempt.
To avoid this, each time we need to read from the socket during the
initial brontide handshake, we add a 15 second read deadline. If we
don’t successfully read from the buffer during that time frame, then
the Read method will return a timeout error.
With this in place, we ensure that the main listener goroutine will
never be blocked waiting on a remote party to write ActOne.
This commit modifies the NewBrontideMachine constructor to allow a
caller to specify exactly _how_ new ephemeral private keys for the
crypto handshake are generated. This allows callers a bit more
flexibility when using brontide, and also allow test cases to insert
specific public keys for use within the hand shake.
This commit adds some additional detail to the error message
encountered when the first byte of an act is an invalid handshake
version byte. This commit is meant to aide in tracking down a
re-occurring bug that has been encountered by early testers of the
software.
This commit adds a new message to the brontide.Conn struct which allows
callers to read an _entire_ message from the stream. As defined now,
brontide is a message crypto messaging protocol. Previously the only
method that allowed callers to read attempted to hide this feature with
a stream-like abstraction. However, having this as the sole interface
is at odds with the message oriented Lightning wire protocol, and isn’t
sufficient to allow parsing messages that have been padded as is
allowed by the protocol.
This new ReadNextMessage is intended to be used by higher level systems
which implement the Lightning p2p protocol.
This commit replaces aead’s chacha20 library with the official golang
implementation. We should see a bit of a performance increase on amd64
as the assembly for the library uses the SIMD AVX2 instructions in the
inner loop. In the future assembly will be written for other platforms,
so we’ll see a performance increase across the board.
Fixes#146.
This commit removes all instances of the fastsha256 library and
replaces it with the sha256 library in the standard library. This
change should see a number of performance improvements as the standard
library has highly optimized assembly instructions with use vectorized
instructions as the platform supports.