This is not an official Google product, it is just code that happens to be owned by Google.
tar2rpm
is a tool that takes a tar and outputs an rpm. rpmpack
is a golang library to create rpms. Both are written in pure go, without using rpmbuild or spec files. API documentation for rpmpack
can be found in .
$ go get -u github.com/google/rpmpack/...
This will make the tar2rpm
tool available in ${GOPATH}/bin
, which by default means ~/go/bin
.
tar2rpm
takes a tar
file (from stdin
or a specified filename), and outputs an rpm
.
Usage:
tar2rpm [OPTION] [FILE]
Options:
-file FILE
write rpm to FILE instead of stdout
-name string
the package name
-release string
the rpm release
-version string
the package version
API documentation for rpmpack
can be found in .
import "github.com/google/rpmpack"
...
r, err := rpmpack.NewRPM(rpmpack.RPMMetadata{Name: "example", Version: "3"})
if err != nil {
...
}
r.AddFile(rpmpack.RPMFile{
Name: "/usr/local/hello",
Body: []byte("content of the file"),
})
if err := r.Write(w); err != nil {
...
}
There is a working example inside example_bazel
In WORKSPACE
load("@bazel_tools//tools/build_defs/repo:git.bzl", "git_repository")
git_repository(
name = "rpmpack",
remote = "https://github.com/google/rpmpack.git",
branch = "master",
)
# The following will load the requirements to build rpmpack
http_archive(
name = "io_bazel_rules_go",
sha256 = "ae8c36ff6e565f674c7a3692d6a9ea1096e4c1ade497272c2108a810fb39acd2",
urls = ["https://github.com/bazelbuild/rules_go/releases/download/0.19.4/rules_go-0.19.4.tar.gz"],
)
http_archive(
name = "bazel_gazelle",
sha256 = "7fc87f4170011201b1690326e8c16c5d802836e3a0d617d8f75c3af2b23180c4",
urls = ["https://github.com/bazelbuild/bazel-gazelle/releases/download/0.18.2/bazel-gazelle-0.18.2.tar.gz"],
)
load("@com_github_google_rpmpack//:deps.bzl", "rpmpack_dependencies")
rpmpack_dependencies()
In BUILD
or BUILD.bazel
load("@bazel_tools//tools/build_defs/pkg:pkg.bzl", "pkg_tar")
load("@com_github_google_rpmpack//:def.bzl", "pkg_tar2rpm")
pkg_tar(
name = "rpmtest-tar",
srcs = [":content1.txt"],
mode = "0644",
ownername = "root.root",
package_dir = "var/lib/rpmpack",
)
pkg_tar2rpm(
name = "rpmtest",
data = ":rpmtest-tar",
pkg_name = "rpmtest",
release = "3.4",
version = "1.2",
prein = "echo \"This is preinst\" > /tmp/preinst.txt",
)
- You put files into the rpm, so that rpm/yum will install them on a host.
- Simple.
- No
spec
files. - Does not build anything.
- Does not try to auto-detect dependencies.
- Does not try to magically deduce on which computer architecture you run.
- Does not require any rpm database or other state, and does not use the filesystem.
- Is not related to the team the builds rpmlib.
- May easily wreak havoc on rpm based systems. It is surprisingly easy to cause rpm to segfault on corrupt rpm files.
- Many features are missing.
- All of the artifacts are stored in memory, sometimes more than once.
- Less backwards compatible than
rpmbuild
.
Sometimes you just want files to make it to hosts, and be managed by the package
manager. rpmbuild
can use a spec
file, together with a specific directory
layout and local database, to build/install/package your files. But you don't
need all that. You want something similar to tar.
As the project progresses, we must maintain the complexity/value ratio. This includes both code complexity and interface complexity.
This is not an official Google product, it is just code that happens to be owned by Google.