We need a type that holds a rend_handshake::IntroRequest object
internally, but where we don't materialize that object from the
Introduce2 message inside the MsgHandler, since that's more crypto
than we want to put in that task.
This code has most of what we need to go from an INTRODUCE2 message
we've just received to the point where we've connected to the
rendezvous point and we're waiting for a stream of BEGIN messages.
Unfinished pieces are marked with TODO HSS.
Most of #980.
This should be enough now to establish real introduction points,
though there is still a lot of work to do. Part of #976.
This has been rebased and edited to incorporate discussions from
!1465.
The implementation here is perhaps excessively simple: we put
a `oneshot::Sender` in the `Reactor` object, and a
`Shared<oneshot::Receiver>` in the circuit or channel. When
the reactor is dropped, any copy of the `Shared<Receiver>` will
yield `Err(Cancelled)`.
I'm marking these methods as experimental because I'm not sure I've
thought of all the implications here, and we might want to change
things around.
Down the road, these methods might want to yield a `Result<>`
indicating why the reactor was shut down.
This feature was inspired by a request from Saksham Mittal, and a
felt need while working on !1472.
There are some places we might improve this, maybe testing more data
types and shapes. This patch just makes the minimal changes necessary
to get it working: adds allocation logic to the fuzzer itself,
and adds visibility for the bucket_array::mem interface.
Signed-off-by: Micah Elizabeth Scott <beth@torproject.org>
This is a small batch of improvements for the equix and hashx
benchmarks. The headline feature is that we are now including
the C implementations (slightly modified from tevador's, hosted
as part of c-tor) and using them in apples-to-apples comparisons.
Minor features:
- Benchmarks moved to new nested crates, preventing their
dependencies from spilling into the main workspace build.
- Tests are now grouped
- We also test the performance of memory reuse where possible
- Code cleanup for per-runtime options
These benchmark builds will now automatically pull in the c-tor
git repo and build portions of it with a Rust wrapper. This uses
the 'cc' and 'bindgen' crates, so it requires a C compiler and
libclang on the host system.
Signed-off-by: Micah Elizabeth Scott <beth@torproject.org>
These crates have had trivial changes only: typically,
changes to documentation or to clippy warnings. There's no
good reason to update which version of them other crates depend on,
so we only bump _their_ patchlevels.
```
tor-async-utils
caret
safelog
tor-events
tor-units
tor-rtcompat
tor-rpcbase
tor-llcrypto
tor-protover
tor-bytes
tor-hscrypto
tor-socksproto
tor-cert
tor-cell
tor-consdiff
tor-congestion
arti-rpcserver
arti-testing
arti-bench
arti-config
arti-hyper
```
These crates are at version 0.x.y, so we don't need to distinguish
new-feature changes from other changes:
```
tor-basic-utils
fs-mistrust
tor-error
tor-geoip
tor-checkable
tor-linkspec
tor-netdoc
tor-netdir
tor-persist
tor-ptmgr
tor-hsservice
```
This crate has a breaking change, but only when the semver-breaking
feature `experimental-api` is enabled:
```
tor-config
```
This crate is at version 1.x.y, but has no new public APIs, and
therefore does not need a minor version bump:
```
arti
```
These crates had first-order breaking changes:
```
retry-error
tor-keymgr
tor-proto
tor-hsclient
tor-rtmock
```
Additionally, these broke because they re-exposed RetryError:
```
tor-circmgr
```
Additionally, these broke because they may re-expose something from
tor-proto:
```
arti-client
tor-chanmgr
tor-dirclient
tor-dirmgr
tor-guardmgr
```
Additionally, these broke for other fiddly reasons:
`tor-ptmgr` implements traits from tor-chanmgr, which has a breaking
change above.
`arti-hyper` exposes types from arti-client in its API.
This refactors the random number generator used within HashX's program
generator so that it uses the rand::RngCore trait. The basic SipHash
powered u64 generator now implements RngCore, while a buffer layer
wraps this and provides u8 and u32 values as needed by the generator.
Some of this new RngCore layer is now exposed to the hashx crate's
public API. The intent is to allow external code to test, benchmark, or
fuzz the program generator by supplying its own random number stream.
Benchmarks show a small but confusing performance improvement
associated with this patch. About a 2% improvement in generation.
This could be due to the Rng changes. No change in compiled hash
execution performance. Even though this patch only touches program
generation, benchmarks show a 4% speedup in interpreted execution.
This seems most likely explained by instruction cache effects,
but I'm not sure.
Signed-off-by: Micah Elizabeth Scott <beth@torproject.org>
This adds a new tor-hspow crate with the first layers of support in
place for onion service client puzzles as described in Proposal 327.
The API here is experimental, and it's currently only implementing
the self-contained parts of the client puzzle. So, it can verify and
solve puzzles, but it has no event loop integration or nonce replay
tracking or prioritization code yet. These things seem like they would
eventually live in the same crate.
Signed-off-by: Micah Elizabeth Scott <beth@torproject.org>
This is a new pure Rust implementation of the Equi-X algorithm
designed by tevador for Tor's onion service proof of work puzzle v1.
Equi-X is an asymmetric puzzle algorithm based on Equihash, with
N=60, K=3, the XOR replaced with modular addition, a 16-bit index
space, and HashX as the inner hash function.
Signed-off-by: Micah Elizabeth Scott <beth@torproject.org>
This is a new pure Rust implementation of the HashX algorithm
designed by tevador for Tor's onion service proof of work puzzle v1.
HashX is a lightweight family of randomly generated hash functions.
A seed, via blake2 and siphash, drives a program generation model
which randomly selects opcodes and registers while following some
constraints that avoid timing stalls or insufficient hash mixing.
The execution of these hash funcions can be done using a pure Rust
interpreter, or about 20x faster using a very simple just in time
compiler based on the dynasm assembler crate. This has been
implemented for x86_64 and aarch64.
Signed-off-by: Micah Elizabeth Scott <beth@torproject.org>
!1410 and !1412 had a semantic conflict *in the Cargo lockfile*!
!1410 added a new indirect dependency on derive-adhoc, which is used
in pwd-grp. pwd-grp is still declaring a dependency on d-a 0.6.1.
(This ought to be updated there in due course, but isn't a bug.)
!1412 updated our direct dependency on derive-adhoc to require 0.7.x.
In fact, the breaking change 0.6.x to 0.7.x is minor and we could have
written a more relaxed dependency.But cargo's syntax for that is very
clumsy - here is an example from derive-adhoc iteself:
itertools = ">=0.10.1, <0.12"
Fix this for now in our tree with a `cargo update`, to unbreak main.