In addition to the usual "You named that method wrong!" errors, we
have a new rustdoc error that complains about bogus "HTML tags" that
are actually unquoted usage of types like `Result<Foo>`.
The feature we want is `#[doc = include_str!("README.md")]`, which is
stable since 1.54 and our MSRV is now 1.56.
This commit is precisely the result of the following Perl rune:
perl -i~ -0777 -pe 's{(^//!(?!.*\@\@).*\n)+}{#![doc = include_str!("../README.md")]\n}m' crates/*/src/lib.rs
Since our last round of releases, these crates have had either
trivial changes, or changes that did not affect their APIs.
Therefore we are bumping their versions, but not changing which
versions of them other crates depend on.
This lets a caller map the inner value, eg to convert the type.
I don't provide `map` as well as `try_map` now, since I don't need it;
we could add it later if it is desirable (although try_map can always
be used instead).
I was hoping to provide a `TryFrom` instead, but that necesasrily
overlaps with the std conversion impl from IntegerMilliseconds<T> to
IntegerMilliseconds<U> where T == U.
It is semantically quite meaningful for these to contain something
that isn't `TryInto<u64>`. (Of course the `Duration` conversion won't
work without that.)
Indeed, this condition was only applied to two out of the three types.
Prompted by being near this code, but not actually necessary for
anything I'm doing here.
This is an automated change made with a perl one-liner and verified
with grep -L and grep -l.
Some warnings are introduced with this change; they will be removed
in subsequent commits.
See arti#208 for older discussion on this issue.
Not all of these strictly need to be bumped to 0.2.0; many could go
to 0.1.1 instead. But since everything at the tor-rtcompat and
higher layers has had breaking API changes, it seems not so useful
to distinguish. (It seems unlikely that anybody at this stage is
depending on e.g. tor-protover but not arti-client.)
This lint is IMO inherently ill-conceived.
I have looked for the reasons why this might be thought to be a good
idea and there were basically two (and they are sort of contradictory):
I. "Calling ‘.clone()` on an Rc, Arc, or Weak can obscure the fact
that only the pointer is being cloned, not the underlying data."
This is the wording from
https://rust-lang.github.io/rust-clippy/v0.0.212/#clone_on_ref_ptr
It is a bit terse; we are left to infer why it is a bad idea to
obscure this fact. It seems to me that if it is bad to obscure some
fact, that must be because the fact is a hazard. But why would it be
a hazard to not copy the underlying data ?
In other languages, faliing to copy the underlying data is a serious
correctness hazard. There is a whose class of bugs where things were
not copied, and then mutated and/or reused in multiple places in ways
that were not what the programmer intended. In my experience, this is
a very common bug when writing Python and Javascript. I'm told it's
common in golang too.
But in Rust this bug is much much harder to write. The data inside an
Arc is immutable. To have this bug you'd have use interior mutability
- ie mess around with Mutex or RefCell. That provides a good barrier
to these kind of accidents.
II. "The reason for writing Rc::clone and Arc::clone [is] to make it
clear that only the pointer is being cloned, as opposed to the
underlying data. The former is always fast, while the latter can
be very expensive depending on what is being cloned."
This is the reasoning found here
https://github.com/rust-lang/rust-clippy/issues/2048
This is saying that *not* using Arc::clone is hazardous.
Specifically, that a deep clone is a performance hazard.
But for this argument, the lint is precisely backwards. It's linting
the "good" case and asking for it to be written in a more explicit
way; while the supposedly bad case can be written conveniently.
Also, many objects (in our codebase, and in all the libraries we use)
that are Clone are in fact simply handles. They contain Arc(s) (or
similar) and are cheap to clone. Indeed, that is the usual case.
It does not make sense to distinguish in the syntax we use to clone
such a handle, whether the handle is a transparent Arc, or an opaque
struct containing one or more other handles.
Forcing Arc::clone to be written as such makes for code churn when a
type is changed from Arc<Something> to Something: Clone, or vice
versa.
I found these versions empirically, by using the following process:
First, I used `cargo tree --depth 1 --kind all` to get a list of
every immediate dependency we had.
Then, I used `cargo upgrade --workspace package@version` to change
each dependency to the earliest version with which (in theory) the
current version is semver-compatible. IOW, if the current version
was 3.2.3, I picked "3". If the current version was 0.12.8, I
picked "0.12".
Then, I used `cargo +nightly upgrade -Z minimal-versions` to
downgrade Cargo.lock to the minimal listed version for each
dependency. (I had to override a few packages; see .gitlab-ci.yml
for details).
Finally, I repeatedly increased the version of each of our
dependencies until our code compiled and the tests passed. Here's
what I found that we need:
anyhow >= 1.0.5: Earlier versions break our hyper example.
async-broadcast >= 0.3.2: Earlier versions fail our tests.
async-compression 0.3.5: Earlier versions handled futures and tokio
differently.
async-trait >= 0.1.2: Earlier versions are too buggy to compile our
code.
clap 2.33.0: For Arg::default_value_os().
coarsetime >= 0.1.20: exposed as_ticks() function.
curve25519-dalek >= 3.2: For is_identity().
generic-array 0.14.3: Earlier versions don't implement
From<&[T; 32]>
httparse >= 1.2: Earlier versions didn't implement Error.
itertools at 0.10.1: For at_most_once.
rusqlite >= 0.26.3: for backward compatibility with older rustc.
serde 1.0.103: Older versions break our code.
serde_json >= 1.0.50: Since we need its Value type to implement Eq.
shellexpand >= 2.1: To avoid a broken dirs crate version.
tokio >= 1.4: For Handle::block_on().
tracing >= 0.1.18: Previously, tracing_core and tracing had separate
LevelFilter types.
typenum >= 1.12: Compatibility with rust-crypto crates
x25519-dalek >= 1.2.0: For was_contributory().
Closes#275.
We had no function to infallibly convert BoundedInt32<{0 or 1},H>
into a u32, even though we could have. Because of that, we were
treating weight_scale as an i32 when logically it's a u32 or a
NonZeroU32.
Moreover, it turns out we were using an incorrect minimum for the
bwweightscale param, which would in theory have allowed the
authorities to make us divide by zero.
This patch introduces the necessary From<> implementation and uses
it. It corrects the binimum bwweightscale, and prevents a
division-by-zero issue in case weight_scale is zero.
This is mostly a finger exercise, and an experiment in "what does
grcov consider to be coverage". Here's what I've found out...
* In grcov's eyes, most #[derive(Foo)] lines count as containing code;
but calling any one derived function counts as calling those lines.
* Unlike with tarpaulin, it is actually possible to reach 100% grcov
line coverage. (Tarpaulin likes to pick "}" lines and tell you that
you never reached them; or sometimes it picks expression
statements that have the effect of a return, and tells you that
they're unreached. Even with these tests, tarpaulin claims that
the line coverage of tor-units is only 97.3%.)
* In rust, it may be a bit hopeless trying to get high function
coverage. Even though we've hit every line of the tor-units crate,
the function coverage from its own tests is only 9.38% (55.41%
from other crates). I think this is probably due to derived
functions, or maybe due to generics getting instantiated?
I've got no idea; the denominator for the function coverage
lines fluctuates oddly.
There are some missing parts here (like persistence and tests)
and some incorrect parts (I am 90% sure that the "exploratory
circuit" flag is bogus). Also it is not integrated with the circuit
manager code.
Previously, we'd have to declare the field for a parameter in one
place, its default in a second, and its consensus key in a third.
That's error-prone and not so fun! This patch changes the
way we declare parameters so that we declare a structure once,
and macros expand it to all do the right thing.
This required a few new traits and implementations to ensure
uniformity across the types that can go in parameters: We need every
parameter type to implement TryFrom<i32> and to implement
SaturatingFromInt32.
Eventually we might want SaturatingFromInt32 to be a more generic
SaturatingFrom, but that's not for now.