@the-kenny did a good job in the past and is set as maintainer in many package,
however since 2017-2018 he stopped contributing. To create less confusion
in pull requests when people try to request his feedback, I removed him as
maintainer from all packages.
Kept 1.42 around for Thunderbird.
i686-apple-darwin is no longer supported upstream. We could still
support building it, for this one release, since we have the binary
for the previous release, (or bootstrap it for future releases from
Rust 1.42,) but since this release is the one that drops support, I
think it makes sense to do it now. (And probably nobody is using it
anyway.)
We've already worked around failing stat() calls in the installer by
running it in qemu-user. Turns out on some systems this workaround is
also needed to run `wlib', the archiver of the Open Watcom toolchain.
This issue manifested itself in broken VirtualBox builds due to
/build/virtualbox/out/linux.amd64/dbgopt/obj/VBoxPcBios32/pci32.obj
not being found by `wlib'.
We now just wrap all binaries in qemu-user to avoid this.
Everything is copied as-is from 9 (except version and hash).
Some platform-specific patches might not apply anymore;
I'm lazily leaving that for the community to fix.
The nss update is needed for security update of firefox.
For linux platforms only about 1k aarch64 rebuilds are missing;
the diff on Hydra looks OK. Darwin needs 20k more rebuilds,
but I don't think we want to wait for that.
This option can be used to set the “jit” language which enable the
libgccjit functionality. Also adds a “libgccjit” attr which is gcc
built with just jit enabled.
libgccjit is a library but is used as a compiler. So it references a
bunch of compiler things in $out. To avoid a cycle, we need to put
everything in $out, so referenced to $lib need to be replaced with
${!outputLib}.
Some elm packages (eg. https://github.com/NoRedInk/elm-simple-fuzzy/ ) have a Makefile which the standard builder tries to build and fails because of missing dependencies. This change forces a no-op configure and build phase to avoid such a situation.
* treewide Drop unneeded go 1.12 overrides
* Fix packr to be go module compatible.
I updated to version 2.8.0 which is the latest on master.
Then due to the 2 different sets of go modules which are used, I split
the build into two different derivations, then merged them togethor
using symlinkJoin to have the same output structure as the existing derivation.
* Remove consul dependency on go1.12
I updated the consul version to 1.7.2 and flipped it to building using
modules.
* Remove go1.12 from perkeep.
Update the version to the latest unstable on master.
* Update scaleway-cli to not be pinned to go1.12
Switched the version to 1.20
* Update prometheus-varnish-exporter to not depend on go1.12
* Update lnd to build with go1.12
Updated the version
Forced only building subpackages with main to prevent panics over
multiple modules in one repo
* Remove go1.12 from openshift
Had to update the version to 4.1.0 and do a bit of munging to get this
to work
* Remove go1.12 completely.
These are no longer needed.
* Update bazel-watcher and make it build with go 1.14
`jellyfin` appeared unsupported on `aarch64` due to `dotnet` platform
support in nixpkgs, but there are ARM64 downloads of the `dotnet` SDKs
available. This change follows the kind of pattern used in the
`firecracker` packaging to support selective x86_64/arm64 downloads.
With this change I can build `jellyfin` on a Raspberry Pi 4. The other
content hashes have been filled in, and all build successfully, but
they have not been further tested.
This includes several enhancements in the underlying compiler, including
codegen improvements for AVX-512, Ice Lake CPU definitions,
cross-{arch,os} compilation (currently unsupported due to multilib
issues), and more.
This also bumps the LLVM backend to the 10.0 release. Note that ispc
itself requires a few extra stability patches on top of 10.0 for AVX-512
support, but these aren't applied for us. Therefore AVX-512 still has
some extra, rough edges.
Signed-off-by: Austin Seipp <aseipp@pobox.com>
This is a better name since we have multiple 64-bit things that could
be referred to.
LP64 : integer=32, long=64, pointer=64
ILP64 : integer=64, long=64, pointer=64
In order to use OVMF firmware with e.g. qemu on macOS, these packages
needed to be made macOS ready. This meant choosing the clang build in
this case, because it is the only one working on macOS.
Unfortunately, just using clang on all platforms doesn't work because
there are hardcoded assumptions in the edk2 build system.