this is a part of a series to migrating from `operator<<(ostream&, ..)`
based formatting to fmtlib based formatting. the goal here is to enable
fmtlib to print `generation_id` without the help of `operator<<`.
the corresponding `operator<<()` is removed in this change, as all its
callers are now using fmtlib for formatting now.
Refs #13245
Signed-off-by: Kefu Chai <kefu.chai@scylladb.com>
now that C++20 generates operator== for us, these is no need to
handcraft it manually. also, in C++17, the standard library offers
default implementation of operator== for `std::variant<>`, so no need
to implement it by ourselves.
Signed-off-by: Kefu Chai <kefu.chai@scylladb.com>
Closes#13625
Instead of lengthy blurbs, switch to single-line, machine-readable
standardized (https://spdx.dev) license identifiers. The Linux kernel
switched long ago, so there is strong precedent.
Three cases are handled: AGPL-only, Apache-only, and dual licensed.
For the latter case, I chose (AGPL-3.0-or-later and Apache-2.0),
reasoning that our changes are extensive enough to apply our license.
The changes we applied mechanically with a script, except to
licenses/README.md.
Closes#9937
This is a new type of CDC generation identifiers. Compared to old IDs,
additionally to the timestamp it contains an UUID.
These new identifiers will allow a safer and more efficient algorithm of
introducing new generations into a cluster (introduced in a later commit).
For now, nodes keep using the old identifier format when creating new
generations and whenever they learn about a new CDC generation from gossip
they assume that it also is stored in the v1 format. But they do know how
to (de)serialize the second format and how to persist new identifiers in
local tables.
This is a follow-up to the previous commit.
Each CDC generation has a timestamp which denotes a logical point in time
when this generation starts operating. That same timestamp is
used to identify the CDC generation. We use this identification scheme
to exchange CDC generations around the cluster.
However, the fact that a generation's timestamp is used as an ID for
this generation is an implementation detail of the currently used method
of managing CDC generations.
Places in the code that deal with the timestamp, e.g. functions which
take it as an argument (such as handle_cdc_generation) are often
interested in the ID aspect, not the "when does the generation start
operating" aspect. They don't care that the ID is a `db_clock::time_point`.
They may sometimes want to retrieve the time point given the ID (such as
do_handle_cdc_generation when it calls `cdc::metadata::insert`),
but they don't care about the fact that the time point actually IS the ID.
In the future we may actually change the specific type of the ID if we
modify the generation management algorithms.
This commit is an intermediate step that will ease the transition in the
future. It introduces a new type, `cdc::generation_id`. Inside it contains
the timestamp, so:
1. if a piece of code doesn't care about the timestamp, it just passes
the ID around
2. if it does care, it can simply access it using the `get_ts` function.
The fact that `get_ts` simply accesses the ID's only field is an
implementation detail.
Using the occasion, we change the `do_handle_cdc_generation_intercept...`
function to be a standard function, not a coroutine. It turns out that -
depending on the shape of the passed-in argument - the function would
sometimes miscompile (the compiled code would not copy the argument to the
coroutine frame).
