Recommended update for go1.18

Announcement ID: SUSE-RU-2022:0904-1
Rating: moderate
References:
Affected Products:
  • Development Tools Module 15-SP3
  • SUSE Linux Enterprise Desktop 15 SP3
  • SUSE Linux Enterprise High Performance Computing 15 SP3
  • SUSE Linux Enterprise Real Time 15 SP3
  • SUSE Linux Enterprise Server 15 SP3
  • SUSE Linux Enterprise Server 15 SP3 Business Critical Linux 15-SP3
  • SUSE Linux Enterprise Server for SAP Applications 15 SP3
  • SUSE Manager Proxy 4.2
  • SUSE Manager Retail Branch Server 4.2
  • SUSE Manager Server 4.2

An update that has one fix can now be installed.

Description:

This update for go1.18 fixes the following issues: go1.18 (released 2022-03-15) is a major release of Go. (boo#1193742)

go1.18.x minor releases will be provided through February 2023, please see: https://github.com/golang/go/wiki/Go-Release-Cycle

Go 1.18 is a significant release, including changes to the language, implementation of the toolchain, runtime, and libraries. Go 1.18 arrives seven months after Go 1.17. As always, the release maintains the Go 1 promise of compatibility. We expect almost all Go programs to continue to compile and run as before.

  • See release notes https://golang.org/doc/go1.18.

Excerpts relevant to OBS environment and for SUSE/openSUSE follow:

  • Go 1.18 includes an implementation of generic features as described by the Type Parameters Proposal. This includes major but fully backward-compatible changes to the language.
  • The Go 1.18 compiler now correctly reports declared but not used errors for variables that are set inside a function literal but are never used. Before Go 1.18, the compiler did not report an error in such cases. This fixes long-outstanding compiler issue go#8560.
  • The Go 1.18 compiler now reports an overflow when passing a rune constant expression such as '1' << 32 as an argument to the predeclared functions print and println, consistent with the behavior of user-defined functions. Before Go 1.18, the compiler did not report an error in such cases but silently accepted such constant arguments if they fit into an int64. Since go vet always pointed out this error, the number of affected programs is likely very small.
  • AMD64: Go 1.18 introduces the new GOAMD64 environment variable, which selects at compile time a minimum target version of the AMD64 architecture. Allowed values are v1, v2, v3, or v4. Each higher level requires, and takes advantage of, additional processor features. A detailed description can be found here. The GOAMD64 environment variable defaults to v1.
  • RISC-V: The 64-bit RISC-V architecture on Linux (the linux/riscv64 port) now supports the c-archive and c-shared build modes.
  • Linux: Go 1.18 requires Linux kernel version 2.6.32 or later.
  • Fuzzing: Go 1.18 includes an implementation of fuzzing as described by the fuzzing proposal. See the fuzzing landing page to get started. Please be aware that fuzzing can consume a lot of memory and may impact your machine’s performance while it runs.
  • go get: go get no longer builds or installs packages in module-aware mode. go get is now dedicated to adjusting dependencies in go.mod. Effectively, the -d flag is always enabled. To install the latest version of an executable outside the context of the current module, use go install example.com/cmd@latest. Any version query may be used instead of latest. This form of go install was added in Go 1.16, so projects supporting older versions may need to provide install instructions for both go install and go get. go get now reports an error when used outside a module, since there is no go.mod file to update. In GOPATH mode (with GO111MODULE=off), go get still builds and installs packages, as before.
  • Automatic go.mod and go.sum updates: The go mod graph, go mod vendor, go mod verify, and go mod why subcommands no longer automatically update the go.mod and go.sum files. (Those files can be updated explicitly using go get, go mod tidy, or go mod download.)
  • go version: The go command now embeds version control information in binaries. It includes the currently checked-out revision, commit time, and a flag indicating whether edited or untracked files are present. Version control information is embedded if the go command is invoked in a directory within a Git, Mercurial, Fossil, or Bazaar repository, and the main package and its containing main module are in the same repository. This information may be omitted using the flag -buildvcs=false. Additionally, the go command embeds information about the build, including build and tool tags (set with -tags), compiler, assembler, and linker flags (like -gcflags), whether cgo was enabled, and if it was, the values of the cgo environment variables (like CGO_CFLAGS). Both VCS and build information may be read together with module information using go version -m file or runtime/debug.ReadBuildInfo (for the currently running binary) or the new debug/buildinfo package. The underlying data format of the embedded build information can change with new go releases, so an older version of go may not handle the build information produced with a newer version of go. To read the version information from a binary built with go 1.18, use the go version command and the debug/buildinfo package from go 1.18+.
  • go mod download: If the main module's go.mod file specifies go 1.17 or higher, go mod download without arguments now downloads source code for only the modules explicitly required in the main module's go.mod file. (In a go 1.17 or higher module, that set already includes all dependencies needed to build the packages and tests in the main module.) To also download source code for transitive dependencies, use go mod download all.
  • go mod vendor: The go mod vendor subcommand now supports a -o flag to set the output directory. (Other go commands still read from the vendor directory at the module root when loading packages with -mod=vendor, so the main use for this flag is for third-party tools that need to collect package source code.)
  • go mod tidy: The go mod tidy command now retains additional checksums in the go.sum file for modules whose source code is needed to verify that each imported package is provided by only one module in the build list. Because this condition is rare and failure to apply it results in a build error, this change is not conditioned on the go version in the main module's go.mod file.
  • go work: The go command now supports a "Workspace" mode. If a go.work file is found in the working directory or a parent directory, or one is specified using the GOWORK environment variable, it will put the go command into workspace mode. In workspace mode, the go.work file will be used to determine the set of main modules used as the roots for module resolution, instead of using the normally-found go.mod file to specify the single main module. For more information see the go work documentation.
  • go build -asan: The go build command and related commands now support an -asan flag that enables interoperation with C (or C++) code compiled with the address sanitizer (C compiler option -fsanitize=address).
  • //go:build lines: Go 1.17 introduced //go:build lines as a more readable way to write build constraints, instead of // +build lines. As of Go 1.17, gofmt adds //go:build lines to match existing +build lines and keeps them in sync, while go vet diagnoses when they are out of sync. Since the release of Go 1.18 marks the end of support for Go 1.16, all supported versions of Go now understand //go:build lines. In Go 1.18, go fix now removes the now-obsolete // +build lines in modules declaring go 1.17 or later in their go.mod files. For more information, see https://go.dev/design/draft-gobuild.
  • go vet: The vet tool is updated to support generic code. In most cases, it reports an error in generic code whenever it would report an error in the equivalent non-generic code after substituting for type parameters with a type from their type set.
  • go vet: The cmd/vet checkers copylock, printf, sortslice, testinggoroutine, and tests have all had moderate precision improvements to handle additional code patterns. This may lead to newly reported errors in existing packages.
  • Runtime: The garbage collector now includes non-heap sources of garbage collector work (e.g., stack scanning) when determining how frequently to run. As a result, garbage collector overhead is more predictable when these sources are significant. For most applications these changes will be negligible; however, some Go applications may now use less memory and spend more time on garbage collection, or vice versa, than before. The intended workaround is to tweak GOGC where necessary. The runtime now returns memory to the operating system more efficiently and has been tuned to work more aggressively as a result.
  • Compiler: Go 1.17 implemented a new way of passing function arguments and results using registers instead of the stack on 64-bit x86 architecture on selected operating systems. Go 1.18 expands the supported platforms to include 64-bit ARM (GOARCH=arm64), big- and little-endian 64-bit PowerPC (GOARCH=ppc64, ppc64le), as well as 64-bit x86 architecture (GOARCH=amd64) on all operating systems. On 64-bit ARM and 64-bit PowerPC systems, benchmarking shows typical performance improvements of 10% or more. As mentioned in the Go 1.17 release notes, this change does not affect the functionality of any safe Go code and is designed to have no impact on most assembly code. See the Go 1.17 release notes for more details.
  • Compiler: The compiler now can inline functions that contain range loops or labeled for loops.
  • Compiler: The new -asan compiler option supports the new go command -asan option.
  • Compiler: Because the compiler's type checker was replaced in its entirety to support generics, some error messages now may use different wording than before. In some cases, pre-Go 1.18 error messages provided more detail or were phrased in a more helpful way. We intend to address these cases in Go 1.19. Because of changes in the compiler related to supporting generics, the Go 1.18 compile speed can be roughly 15% slower than the Go 1.17 compile speed. The execution time of the compiled code is not affected. We intend to improve the speed of the compiler in Go 1.19.
  • Linker: The linker emits far fewer relocations. As a result, most codebases will link faster, require less memory to link, and generate smaller binaries. Tools that process Go binaries should use Go 1.18's debug/gosym package to transparently handle both old and new binaries.
  • Linker: The new -asan linker option supports the new go command -asan option.
  • Bootstrap: When building a Go release from source and GOROOT_BOOTSTRAP is not set, previous versions of Go looked for a Go 1.4 or later bootstrap toolchain in the directory $HOME/go1.4 (%HOMEDRIVE%%HOMEPATH%\go1.4 on Windows). Go now looks first for $HOME/go1.17 or $HOME/sdk/go1.17 before falling back to $HOME/go1.4. We intend for Go 1.19 to require Go 1.17 or later for bootstrap, and this change should make the transition smoother. For more details, see go#44505.
  • The new debug/buildinfo package provides access to module versions, version control information, and build flags embedded in executable files built by the go command. The same information is also available via runtime/debug.ReadBuildInfo for the currently running binary and via go version -m on the command line.
  • The new net/netip package defines a new IP address type, Addr. Compared to the existing net.IP type, the netip.Addr type takes less memory, is immutable, and is comparable so it supports == and can be used as a map key.
  • TLS 1.0 and 1.1 disabled by default client-side: If Config.MinVersion is not set, it now defaults to TLS 1.2 for client connections. Any safely up-to-date server is expected to support TLS 1.2, and browsers have required it since 2020. TLS 1.0 and 1.1 are still supported by setting Config.MinVersion to VersionTLS10. The server-side default is unchanged at TLS 1.0. The default can be temporarily reverted to TLS 1.0 by setting the GODEBUG=tls10default=1 environment variable. This option will be removed in Go 1.19.
  • Rejecting SHA-1 certificates: crypto/x509 will now reject certificates signed with the SHA-1 hash function. This doesn't apply to self-signed root certificates. Practical attacks against SHA-1 have been demonstrated since 2017 and publicly trusted Certificate Authorities have not issued SHA-1 certificates since 2015. This can be temporarily reverted by setting the GODEBUG=x509sha1=1 environment variable. This option will be removed in Go 1.19.
  • crypto/elliptic The P224, P384, and P521 curve implementations are now all backed by code generated by the addchain and fiat-crypto projects, the latter of which is based on a formally-verified model of the arithmetic operations. They now use safer complete formulas and internal APIs. P-224 and P-384 are now approximately four times faster. All specific curve implementations are now constant-time. Operating on invalid curve points (those for which the IsOnCurve method returns false, and which are never returned by Unmarshal or a Curve method operating on a valid point) has always been undefined behavior, can lead to key recovery attacks, and is now unsupported by the new backend. If an invalid point is supplied to a P224, P384, or P521 method, that method will now return a random point. The behavior might change to an explicit panic in a future release.
  • crypto/tls: The new Conn.NetConn method allows access to the underlying net.Conn.
  • crypto/x509: Certificate.Verify now uses platform APIs to verify certificate validity on macOS and iOS when it is called with a nil VerifyOpts.Roots or when using the root pool returned from SystemCertPool. SystemCertPool is now available on Windows.
  • crypto/x509: CertPool.Subjects is deprecated. On Windows, macOS, and iOS the CertPool returned by SystemCertPool will return a pool which does not include system roots in the slice returned by Subjects, as a static list can't appropriately represent the platform policies and might not be available at all from the platform APIs.
  • crypto/x509: Support for signing certificates using signature algorithms that depend on the MD5 and SHA-1 hashes (MD5WithRSA, SHA1WithRSA, and ECDSAWithSHA1) may be removed in Go 1.19.
  • net/http: When looking up a domain name containing non-ASCII characters, the Unicode-to-ASCII conversion is now done in accordance with Nontransitional Processing as defined in the Unicode IDNA Compatibility Processing standard (UTS #46). The interpretation of four distinct runes are changed: ß, ς, zero-width joiner U+200D, and zero-width non-joiner U+200C. Nontransitional Processing is consistent with most applications and web browsers.
  • os/user: User.GroupIds now uses a Go native implementation when cgo is not available.
  • runtime/debug: The BuildInfo struct has two new fields, containing additional information about how the binary was built: GoVersion holds the version of Go used to build the binary. Settings is a slice of BuildSettings structs holding key/value pairs describing the build.
  • runtime/pprof: The CPU profiler now uses per-thread timers on Linux. This increases the maximum CPU usage that a profile can observe, and reduces some forms of bias.
  • syscall: The new function SyscallN has been introduced for Windows, allowing for calls with arbitrary number of arguments. As a result, Syscall, Syscall6, Syscall9, Syscall12, Syscall15, and Syscall18 are deprecated in favor of SyscallN.

Patch Instructions:

To install this SUSE update use the SUSE recommended installation methods like YaST online_update or "zypper patch".
Alternatively you can run the command listed for your product:

  • Development Tools Module 15-SP3
    zypper in -t patch SUSE-SLE-Module-Development-Tools-15-SP3-2022-904=1

Package List:

  • Development Tools Module 15-SP3 (aarch64 ppc64le s390x x86_64)
    • go1.18-1.18-1.8.1
    • go1.18-doc-1.18-1.8.1
  • Development Tools Module 15-SP3 (aarch64 x86_64)
    • go1.18-race-1.18-1.8.1

References: