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K8s Version Comparison Fix (#437) 

* Modifying the way we compare k8s version so that we don't fail versions with hotfix / pre-release tag

* cleaning build directory
This commit is contained in:
jaer-tsun 2019-11-14 18:25:17 -08:00 коммит произвёл GitHub
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11
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@ -9,6 +9,14 @@
revision = "02e53af36e6c978af692887ed449b74026d76fec"
version = "1.0.0"
[[projects]]
digest = "1:a5f0485ed2aad9b9c6a730815d1f2bc92b0acc126d7ee8e36c1a51882fc284f5"
name = "github.com/Masterminds/semver"
packages = ["."]
pruneopts = "UT"
revision = "25911d36c978be5eb3e81847734874fd4e1dc6c7"
version = "v3.0.2"
[[projects]]
digest = "1:156b9a17f1a961da9ec3e11e31bace3ed8cd69c2e987a3d2fd2e4562ab4cecd1"
name = "github.com/Microsoft/ApplicationInsights-Go"
@ -308,7 +316,7 @@
"windows/registry",
]
pruneopts = "UT"
revision = "59a1497f0cead4659791683f1514d15ae8cf3934"
revision = "4c7a9d0fe056d9d1de37e1409ca8a5c17accb46a"
[[projects]]
digest = "1:8d8faad6b12a3a4c819a3f9618cb6ee1fa1cfc33253abeeea8b55336721e3405"
@ -620,6 +628,7 @@
analyzer-name = "dep"
analyzer-version = 1
input-imports = [
"github.com/Masterminds/semver",
"github.com/Microsoft/ApplicationInsights-Go/appinsights",
"github.com/Microsoft/go-winio",
"github.com/Microsoft/hcsshim",

4
Gopkg.toml
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@ -65,6 +65,10 @@
name = "github.com/microsoft/ApplicationInsights-Go"
revision = "d813d7725313000ad1b71627b8951323635f0572"
[[constraint]]
name = "github.com/Masterminds/semver"
version = "3.0.2"
[prune]
go-tests = true
unused-packages = true

41
npm/util/util.go
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@ -6,10 +6,10 @@ import (
"fmt"
"hash/fnv"
"os"
"strconv"
"strings"
"sort"
"github.com/Masterminds/semver"
"k8s.io/apimachinery/pkg/version"
)
@ -98,43 +98,16 @@ func GetHashedName(name string) string {
// returns -1, 0, 1 if firstVer smaller, equals, bigger than secondVer respectively.
// returns -2 for error.
func CompareK8sVer(firstVer *version.Info, secondVer *version.Info) int {
firstMajor, err := strconv.Atoi(firstVer.Major)
v1, err := semver.NewVersion(firstVer.Major+firstVer.Minor)
if err != nil {
return -2
}
v2, err := semver.NewVersion(secondVer.Major+secondVer.Minor)
if err != nil {
return -2
}
firstMinor, err := strconv.Atoi(firstVer.Minor)
if err != nil {
return -2
}
secondMajor, err := strconv.Atoi(secondVer.Major)
if err != nil {
return -2
}
secondMinor, err := strconv.Atoi(secondVer.Minor)
if err != nil {
return -2
}
if firstMajor < secondMajor {
return -1
}
if firstMajor > secondMajor {
return 1
}
if firstMinor < secondMinor {
return -1
}
if firstMinor > secondMinor {
return 1
}
return 0
return v1.Compare(v2)
}
// IsNewNwPolicyVer checks if the current k8s version >= 1.11,

14
npm/util/util_test.go
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@ -97,6 +97,20 @@ func TestCompareK8sVer(t *testing.T) {
if res := CompareK8sVer(firstVer, secondVer); res != 1 {
t.Errorf("TestCompareK8sVer failed @ firstVer > secondVer")
}
firstVer = &version.Info{
Major: "1",
Minor: "14.8-hotfix.20191113",
}
secondVer = &version.Info{
Major: "1",
Minor: "11",
}
if res := CompareK8sVer(firstVer, secondVer); res != 1 {
t.Errorf("TestCompareK8sVer failed @ firstVer > secondVer w/ hotfix tag/pre-release")
}
}
func TestIsNewNwPolicyVer(t *testing.T) {

1
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@ -0,0 +1 @@
_fuzz/

26
vendor/github.com/Masterminds/semver/.golangci.yml сгенерированный поставляемый Normal file
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@ -0,0 +1,26 @@
run:
deadline: 2m
linters:
disable-all: true
enable:
- deadcode
- dupl
- errcheck
- gofmt
- goimports
- golint
- gosimple
- govet
- ineffassign
- misspell
- nakedret
- structcheck
- unused
- varcheck
linters-settings:
gofmt:
simplify: true
dupl:
threshold: 400

27
vendor/github.com/Masterminds/semver/.travis.yml сгенерированный поставляемый Normal file
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@ -0,0 +1,27 @@
language: go
# Testing and linting occuring via go modules does not really work well prior
# to Go 1.12. This is what can happen with experiments.
go:
- 1.11.x
- 1.12.x
- 1.13.x
- tip
# Setting sudo access to false will let Travis CI use containers rather than
# VMs to run the tests. For more details see:
# - http://docs.travis-ci.com/user/workers/container-based-infrastructure/
# - http://docs.travis-ci.com/user/workers/standard-infrastructure/
sudo: false
script:
- make lint
- make test-cover
notifications:
webhooks:
urls:
- https://webhooks.gitter.im/e/06e3328629952dabe3e0
on_success: change # options: [always|never|change] default: always
on_failure: always # options: [always|never|change] default: always
on_start: never # options: [always|never|change] default: always

172
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@ -0,0 +1,172 @@
# Changelog
## 3.0.2 (2019-11-14)
### Fixed
- #134: Fixed broken constraint checking with ^0.0 (thanks @krmichelos)
## 3.0.1 (2019-09-13)
### Fixed
- #125: Fixes issue with module path for v3
## 3.0.0 (2019-09-12)
This is a major release of the semver package which includes API changes. The Go
API is compatible with ^1. The Go API was not changed because many people are using
`go get` without Go modules for their applications and API breaking changes cause
errors which we have or would need to support.
The changes in this release are the handling based on the data passed into the
functions. These are described in the added and changed sections below.
### Added
- StrictNewVersion function. This is similar to NewVersion but will return an
error if the version passed in is not a strict semantic version. For example,
1.2.3 would pass but v1.2.3 or 1.2 would fail because they are not strictly
speaking semantic versions. This function is faster, performs fewer operations,
and uses fewer allocations than NewVersion.
- Fuzzing has been performed on NewVersion, StrictNewVersion, and NewConstraint.
The Makefile contains the operations used. For more information on you can start
on Wikipedia at https://en.wikipedia.org/wiki/Fuzzing
- Now using Go modules
### Changed
- NewVersion has proper prerelease and metadata validation with error messages
to signal an issue with either of them
- ^ now operates using a similar set of rules to npm/js and Rust/Cargo. If the
version is >=1 the ^ ranges works the same as v1. For major versions of 0 the
rules have changed. The minor version is treated as the stable version unless
a patch is specified and then it is equivalent to =. One difference from npm/js
is that prereleases there are only to a specific version (e.g. 1.2.3).
Prereleases here look over multiple versions and follow semantic version
ordering rules. This pattern now follows along with the expected and requested
handling of this packaged by numerous users.
## 1.5.0 (2019-09-11)
### Added
- #103: Add basic fuzzing for `NewVersion()` (thanks @jesse-c)
### Changed
- #82: Clarify wildcard meaning in range constraints and update tests for it (thanks @greysteil)
- #83: Clarify caret operator range for pre-1.0.0 dependencies (thanks @greysteil)
- #72: Adding docs comment pointing to vert for a cli
- #71: Update the docs on pre-release comparator handling
- #89: Test with new go versions (thanks @thedevsaddam)
- #87: Added $ to ValidPrerelease for better validation (thanks @jeremycarroll)
### Fixed
- #78: Fix unchecked error in example code (thanks @ravron)
- #70: Fix the handling of pre-releases and the 0.0.0 release edge case
- #97: Fixed copyright file for proper display on GitHub
- #107: Fix handling prerelease when sorting alphanum and num
- #109: Fixed where Validate sometimes returns wrong message on error
## 1.4.2 (2018-04-10)
### Changed
- #72: Updated the docs to point to vert for a console appliaction
- #71: Update the docs on pre-release comparator handling
### Fixed
- #70: Fix the handling of pre-releases and the 0.0.0 release edge case
## 1.4.1 (2018-04-02)
### Fixed
- Fixed #64: Fix pre-release precedence issue (thanks @uudashr)
## 1.4.0 (2017-10-04)
### Changed
- #61: Update NewVersion to parse ints with a 64bit int size (thanks @zknill)
## 1.3.1 (2017-07-10)
### Fixed
- Fixed #57: number comparisons in prerelease sometimes inaccurate
## 1.3.0 (2017-05-02)
### Added
- #45: Added json (un)marshaling support (thanks @mh-cbon)
- Stability marker. See https://masterminds.github.io/stability/
### Fixed
- #51: Fix handling of single digit tilde constraint (thanks @dgodd)
### Changed
- #55: The godoc icon moved from png to svg
## 1.2.3 (2017-04-03)
### Fixed
- #46: Fixed 0.x.x and 0.0.x in constraints being treated as *
## Release 1.2.2 (2016-12-13)
### Fixed
- #34: Fixed issue where hyphen range was not working with pre-release parsing.
## Release 1.2.1 (2016-11-28)
### Fixed
- #24: Fixed edge case issue where constraint "> 0" does not handle "0.0.1-alpha"
properly.
## Release 1.2.0 (2016-11-04)
### Added
- #20: Added MustParse function for versions (thanks @adamreese)
- #15: Added increment methods on versions (thanks @mh-cbon)
### Fixed
- Issue #21: Per the SemVer spec (section 9) a pre-release is unstable and
might not satisfy the intended compatibility. The change here ignores pre-releases
on constraint checks (e.g., ~ or ^) when a pre-release is not part of the
constraint. For example, `^1.2.3` will ignore pre-releases while
`^1.2.3-alpha` will include them.
## Release 1.1.1 (2016-06-30)
### Changed
- Issue #9: Speed up version comparison performance (thanks @sdboyer)
- Issue #8: Added benchmarks (thanks @sdboyer)
- Updated Go Report Card URL to new location
- Updated Readme to add code snippet formatting (thanks @mh-cbon)
- Updating tagging to v[SemVer] structure for compatibility with other tools.
## Release 1.1.0 (2016-03-11)
- Issue #2: Implemented validation to provide reasons a versions failed a
constraint.
## Release 1.0.1 (2015-12-31)
- Fixed #1: * constraint failing on valid versions.
## Release 1.0.0 (2015-10-20)
- Initial release

19
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@ -0,0 +1,19 @@
Copyright (C) 2014-2019, Matt Butcher and Matt Farina
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.

37
vendor/github.com/Masterminds/semver/Makefile сгенерированный поставляемый Normal file
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@ -0,0 +1,37 @@
GOPATH=$(shell go env GOPATH)
GOLANGCI_LINT=$(GOPATH)/bin/golangci-lint
GOFUZZBUILD = $(GOPATH)/bin/go-fuzz-build
GOFUZZ = $(GOPATH)/bin/go-fuzz
.PHONY: lint
lint: $(GOLANGCI_LINT)
@echo "==> Linting codebase"
@$(GOLANGCI_LINT) run
.PHONY: test
test:
@echo "==> Running tests"
GO111MODULE=on go test -v
.PHONY: test-cover
test-cover:
@echo "==> Running Tests with coverage"
GO111MODULE=on go test -cover .
.PHONY: fuzz
fuzz: $(GOFUZZBUILD) $(GOFUZZ)
@echo "==> Fuzz testing"
$(GOFUZZBUILD)
$(GOFUZZ) -workdir=_fuzz
$(GOLANGCI_LINT):
# Install golangci-lint. The configuration for it is in the .golangci.yml
# file in the root of the repository
echo ${GOPATH}
curl -sfL https://install.goreleaser.com/github.com/golangci/golangci-lint.sh | sh -s -- -b $(GOPATH)/bin v1.17.1
$(GOFUZZBUILD):
cd / && go get -u github.com/dvyukov/go-fuzz/go-fuzz-build
$(GOFUZZ):
cd / && go get -u github.com/dvyukov/go-fuzz/go-fuzz github.com/dvyukov/go-fuzz/go-fuzz-dep

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@ -0,0 +1,242 @@
# SemVer
The `semver` package provides the ability to work with [Semantic Versions](http://semver.org) in Go. Specifically it provides the ability to:
* Parse semantic versions
* Sort semantic versions
* Check if a semantic version fits within a set of constraints
* Optionally work with a `v` prefix
[![Stability:
Active](https://masterminds.github.io/stability/active.svg)](https://masterminds.github.io/stability/active.html)
[![Build Status](https://travis-ci.org/Masterminds/semver.svg)](https://travis-ci.org/Masterminds/semver) [![Build status](https://ci.appveyor.com/api/projects/status/jfk66lib7hb985k8/branch/master?svg=true&passingText=windows%20build%20passing&failingText=windows%20build%20failing)](https://ci.appveyor.com/project/mattfarina/semver/branch/master) [![GoDoc](https://godoc.org/github.com/Masterminds/semver?status.svg)](https://godoc.org/github.com/Masterminds/semver) [![Go Report Card](https://goreportcard.com/badge/github.com/Masterminds/semver)](https://goreportcard.com/report/github.com/Masterminds/semver)
If you are looking for a command line tool for version comparisons please see
[vert](https://github.com/Masterminds/vert) which uses this library.
## Package Versions
There are three major versions fo the `semver` package.
* 3.x.x is the new stable and active version. This version is focused on constraint
compatibility for range handling in other tools from other languages. It has
a similar API to the v1 releases. The development of this version is on the master
branch. The documentation for this version is below.
* 2.x was developed primarily for [dep](https://github.com/golang/dep). There are
no tagged releases and the development was performed by [@sdboyer](https://github.com/sdboyer).
There are API breaking changes from v1. This version lives on the [2.x branch](https://github.com/Masterminds/semver/tree/2.x).
* 1.x.x is the most widely used version with numerous tagged releases. This is the
previous stable and is still maintained for bug fixes. The development, to fix
bugs, occurs on the release-1 branch. You can read the documentation [here](https://github.com/Masterminds/semver/blob/release-1/README.md).
## Parsing Semantic Versions
There are two functions that can parse semantic versions. The `StrictNewVersion`
function only parses valid version 2 semantic versions as outlined in the
specification. The `NewVersion` function attempts to coerce a version into a
semantic version and parse it. For example, if there is a leading v or a version
listed without all 3 parts (e.g. `v1.2`) it will attempt to coerce it into a valid
semantic version (e.g., 1.2.0). In both cases a `Version` object is returned
that can be sorted, compared, and used in constraints.
When parsing a version an error is returned if there is an issue parsing the
version. For example,
v, err := semver.NewVersion("1.2.3-beta.1+build345")
The version object has methods to get the parts of the version, compare it to
other versions, convert the version back into a string, and get the original
string. Getting the original string is useful if the semantic version was coerced
into a valid form.
## Sorting Semantic Versions
A set of versions can be sorted using the `sort` package from the standard library.
For example,
```go
raw := []string{"1.2.3", "1.0", "1.3", "2", "0.4.2",}
vs := make([]*semver.Version, len(raw))
for i, r := range raw {
v, err := semver.NewVersion(r)
if err != nil {
t.Errorf("Error parsing version: %s", err)
}
vs[i] = v
}
sort.Sort(semver.Collection(vs))
```
## Checking Version Constraints
There are two methods for comparing versions. One uses comparison methods on
`Version` instances and the other uses `Constraints`. There are some important
differences to notes between these two methods of comparison.
1. When two versions are compared using functions such as `Compare`, `LessThan`,
and others it will follow the specification and always include prereleases
within the comparison. It will provide an answer that is valid with the
comparison section of the spec at https://semver.org/#spec-item-11
2. When constraint checking is used for checks or validation it will follow a
different set of rules that are common for ranges with tools like npm/js
and Rust/Cargo. This includes considering prereleases to be invalid if the
ranges does not include one. If you want to have it include pre-releases a
simple solution is to include `-0` in your range.
3. Constraint ranges can have some complex rules including the shorthand use of
~ and ^. For more details on those see the options below.
There are differences between the two methods or checking versions because the
comparison methods on `Version` follow the specification while comparison ranges
are not part of the specification. Different packages and tools have taken it
upon themselves to come up with range rules. This has resulted in differences.
For example, npm/js and Cargo/Rust follow similar patterns while PHP has a
different pattern for ^. The comparison features in this package follow the
npm/js and Cargo/Rust lead because applications using it have followed similar
patters with their versions.
Checking a version against version constraints is one of the most featureful
parts of the package.
```go
c, err := semver.NewConstraint(">= 1.2.3")
if err != nil {
// Handle constraint not being parsable.
}
v, err := semver.NewVersion("1.3")
if err != nil {
// Handle version not being parsable.
}
// Check if the version meets the constraints. The a variable will be true.
a := c.Check(v)
```
### Basic Comparisons
There are two elements to the comparisons. First, a comparison string is a list
of space or comma separated AND comparisons. These are then separated by || (OR)
comparisons. For example, `">= 1.2 < 3.0.0 || >= 4.2.3"` is looking for a
comparison that's greater than or equal to 1.2 and less than 3.0.0 or is
greater than or equal to 4.2.3.
The basic comparisons are:
* `=`: equal (aliased to no operator)
* `!=`: not equal
* `>`: greater than
* `<`: less than
* `>=`: greater than or equal to
* `<=`: less than or equal to
### Working With Prerelease Versions
Pre-releases, for those not familiar with them, are used for software releases
prior to stable or generally available releases. Examples of prereleases include
development, alpha, beta, and release candidate releases. A prerelease may be
a version such as `1.2.3-beta.1` while the stable release would be `1.2.3`. In the
order of precedence, prereleases come before their associated releases. In this
example `1.2.3-beta.1 < 1.2.3`.
According to the Semantic Version specification prereleases may not be
API compliant with their release counterpart. It says,
> A pre-release version indicates that the version is unstable and might not satisfy the intended compatibility requirements as denoted by its associated normal version.
SemVer comparisons using constraints without a prerelease comparator will skip
prerelease versions. For example, `>=1.2.3` will skip prereleases when looking
at a list of releases while `>=1.2.3-0` will evaluate and find prereleases.
The reason for the `0` as a pre-release version in the example comparison is
because pre-releases can only contain ASCII alphanumerics and hyphens (along with
`.` separators), per the spec. Sorting happens in ASCII sort order, again per the
spec. The lowest character is a `0` in ASCII sort order
(see an [ASCII Table](http://www.asciitable.com/))
Understanding ASCII sort ordering is important because A-Z comes before a-z. That
means `>=1.2.3-BETA` will return `1.2.3-alpha`. What you might expect from case
sensitivity doesn't apply here. This is due to ASCII sort ordering which is what
the spec specifies.
### Hyphen Range Comparisons
There are multiple methods to handle ranges and the first is hyphens ranges.
These look like:
* `1.2 - 1.4.5` which is equivalent to `>= 1.2 <= 1.4.5`
* `2.3.4 - 4.5` which is equivalent to `>= 2.3.4 <= 4.5`
### Wildcards In Comparisons
The `x`, `X`, and `*` characters can be used as a wildcard character. This works
for all comparison operators. When used on the `=` operator it falls
back to the patch level comparison (see tilde below). For example,
* `1.2.x` is equivalent to `>= 1.2.0, < 1.3.0`
* `>= 1.2.x` is equivalent to `>= 1.2.0`
* `<= 2.x` is equivalent to `< 3`
* `*` is equivalent to `>= 0.0.0`
### Tilde Range Comparisons (Patch)
The tilde (`~`) comparison operator is for patch level ranges when a minor
version is specified and major level changes when the minor number is missing.
For example,
* `~1.2.3` is equivalent to `>= 1.2.3, < 1.3.0`
* `~1` is equivalent to `>= 1, < 2`
* `~2.3` is equivalent to `>= 2.3, < 2.4`
* `~1.2.x` is equivalent to `>= 1.2.0, < 1.3.0`
* `~1.x` is equivalent to `>= 1, < 2`
### Caret Range Comparisons (Major)
The caret (`^`) comparison operator is for major level changes once a stable
(1.0.0) release has occurred. Prior to a 1.0.0 release the minor versions acts
as the API stability level. This is useful when comparisons of API versions as a
major change is API breaking. For example,
* `^1.2.3` is equivalent to `>= 1.2.3, < 2.0.0`
* `^1.2.x` is equivalent to `>= 1.2.0, < 2.0.0`
* `^2.3` is equivalent to `>= 2.3, < 3`
* `^2.x` is equivalent to `>= 2.0.0, < 3`
* `^0.2.3` is equivalent to `>=0.2.3 <0.3.0`
* `^0.2` is equivalent to `>=0.2.0 <0.3.0`
* `^0.0.3` is equivalent to `>=0.0.3 <0.0.4`
* `^0.0` is equivalent to `>=0.0.0 <0.1.0`
* `^0` is equivalent to `>=0.0.0 <1.0.0`
## Validation
In addition to testing a version against a constraint, a version can be validated
against a constraint. When validation fails a slice of errors containing why a
version didn't meet the constraint is returned. For example,
```go
c, err := semver.NewConstraint("<= 1.2.3, >= 1.4")
if err != nil {
// Handle constraint not being parseable.
}
v, _ := semver.NewVersion("1.3")
if err != nil {
// Handle version not being parseable.
}
// Validate a version against a constraint.
a, msgs := c.Validate(v)
// a is false
for _, m := range msgs {
fmt.Println(m)
// Loops over the errors which would read
// "1.3 is greater than 1.2.3"
// "1.3 is less than 1.4"
}
```
## Contribute
If you find an issue or want to contribute please file an [issue](https://github.com/Masterminds/semver/issues)
or [create a pull request](https://github.com/Masterminds/semver/pulls).

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@ -0,0 +1,17 @@
version: build-{build}.{branch}
shallow_clone: true
environment:
GOPATH: C:\gopath
platform:
- x64
build_script:
- go install -v ./...
test_script:
- go test -v
deploy: off

24
vendor/github.com/Masterminds/semver/collection.go сгенерированный поставляемый Normal file
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package semver
// Collection is a collection of Version instances and implements the sort
// interface. See the sort package for more details.
// https://golang.org/pkg/sort/
type Collection []*Version
// Len returns the length of a collection. The number of Version instances
// on the slice.
func (c Collection) Len() int {
return len(c)
}
// Less is needed for the sort interface to compare two Version objects on the
// slice. If checks if one is less than the other.
func (c Collection) Less(i, j int) bool {
return c[i].LessThan(c[j])
}
// Swap is needed for the sort interface to replace the Version objects
// at two different positions in the slice.
func (c Collection) Swap(i, j int) {
c[i], c[j] = c[j], c[i]
}

530
vendor/github.com/Masterminds/semver/constraints.go сгенерированный поставляемый Normal file
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package semver
import (
"bytes"
"errors"
"fmt"
"regexp"
"strings"
)
// Constraints is one or more constraint that a semantic version can be
// checked against.
type Constraints struct {
constraints [][]*constraint
}
// NewConstraint returns a Constraints instance that a Version instance can
// be checked against. If there is a parse error it will be returned.
func NewConstraint(c string) (*Constraints, error) {
// Rewrite - ranges into a comparison operation.
c = rewriteRange(c)
ors := strings.Split(c, "||")
or := make([][]*constraint, len(ors))
for k, v := range ors {
// TODO: Find a way to validate and fetch all the constraints in a simpler form
// Validate the segment
if !validConstraintRegex.MatchString(v) {
return nil, fmt.Errorf("improper constraint: %s", v)
}
cs := findConstraintRegex.FindAllString(v, -1)
if cs == nil {
cs = append(cs, v)
}
result := make([]*constraint, len(cs))
for i, s := range cs {
pc, err := parseConstraint(s)
if err != nil {
return nil, err
}
result[i] = pc
}
or[k] = result
}
o := &Constraints{constraints: or}
return o, nil
}
// Check tests if a version satisfies the constraints.
func (cs Constraints) Check(v *Version) bool {
// loop over the ORs and check the inner ANDs
for _, o := range cs.constraints {
joy := true
for _, c := range o {
if !c.check(v) {
joy = false
break
}
}
if joy {
return true
}
}
return false
}
// Validate checks if a version satisfies a constraint. If not a slice of
// reasons for the failure are returned in addition to a bool.
func (cs Constraints) Validate(v *Version) (bool, []error) {
// loop over the ORs and check the inner ANDs
var e []error
// Capture the prerelease message only once. When it happens the first time
// this var is marked
var prerelesase bool
for _, o := range cs.constraints {
joy := true
for _, c := range o {
// Before running the check handle the case there the version is
// a prerelease and the check is not searching for prereleases.
if c.con.pre == "" && v.pre != "" {
if !prerelesase {
em := fmt.Errorf("%s is a prerelease version and the constraint is only looking for release versions", v)
e = append(e, em)
prerelesase = true
}
joy = false
} else {
if !c.check(v) {
em := fmt.Errorf(constraintMsg[c.origfunc], v, c.orig)
e = append(e, em)
joy = false
}
}
}
if joy {
return true, []error{}
}
}
return false, e
}
func (cs Constraints) String() string {
buf := make([]string, len(cs.constraints))
var tmp bytes.Buffer
for k, v := range cs.constraints {
tmp.Reset()
vlen := len(v)
for kk, c := range v {
tmp.WriteString(c.string())
// Space separate the AND conditions
if vlen > 1 && kk < vlen-1 {
tmp.WriteString(" ")
}
}
buf[k] = tmp.String()
}
return strings.Join(buf, " || ")
}
var constraintOps map[string]cfunc
var constraintMsg map[string]string
var constraintRegex *regexp.Regexp
var constraintRangeRegex *regexp.Regexp
// Used to find individual constraints within a multi-constraint string
var findConstraintRegex *regexp.Regexp
// Used to validate an segment of ANDs is valid
var validConstraintRegex *regexp.Regexp
const cvRegex string = `v?([0-9|x|X|\*]+)(\.[0-9|x|X|\*]+)?(\.[0-9|x|X|\*]+)?` +
`(-([0-9A-Za-z\-]+(\.[0-9A-Za-z\-]+)*))?` +
`(\+([0-9A-Za-z\-]+(\.[0-9A-Za-z\-]+)*))?`
func init() {
constraintOps = map[string]cfunc{
"": constraintTildeOrEqual,
"=": constraintTildeOrEqual,
"!=": constraintNotEqual,
">": constraintGreaterThan,
"<": constraintLessThan,
">=": constraintGreaterThanEqual,
"=>": constraintGreaterThanEqual,
"<=": constraintLessThanEqual,
"=<": constraintLessThanEqual,
"~": constraintTilde,
"~>": constraintTilde,
"^": constraintCaret,
}
constraintMsg = map[string]string{
"": "%s is not equal to %s",
"=": "%s is not equal to %s",
"!=": "%s is equal to %s",
">": "%s is less than or equal to %s",
"<": "%s is greater than or equal to %s",
">=": "%s is less than %s",
"=>": "%s is less than %s",
"<=": "%s is greater than %s",
"=<": "%s is greater than %s",
"~": "%s does not have same major and minor version as %s",
"~>": "%s does not have same major and minor version as %s",
"^": "%s does not have same major version as %s",
}
ops := make([]string, 0, len(constraintOps))
for k := range constraintOps {
ops = append(ops, regexp.QuoteMeta(k))
}
constraintRegex = regexp.MustCompile(fmt.Sprintf(
`^\s*(%s)\s*(%s)\s*$`,
strings.Join(ops, "|"),
cvRegex))
constraintRangeRegex = regexp.MustCompile(fmt.Sprintf(
`\s*(%s)\s+-\s+(%s)\s*`,
cvRegex, cvRegex))
findConstraintRegex = regexp.MustCompile(fmt.Sprintf(
`(%s)\s*(%s)`,
strings.Join(ops, "|"),
cvRegex))
validConstraintRegex = regexp.MustCompile(fmt.Sprintf(
`^(\s*(%s)\s*(%s)\s*\,?)+$`,
strings.Join(ops, "|"),
cvRegex))
}
// An individual constraint
type constraint struct {
// The version used in the constraint check. For example, if a constraint
// is '<= 2.0.0' the con a version instance representing 2.0.0.
con *Version
// The original parsed version (e.g., 4.x from != 4.x)
orig string
// The original operator for the constraint
origfunc string
// When an x is used as part of the version (e.g., 1.x)
minorDirty bool
dirty bool
patchDirty bool
}
// Check if a version meets the constraint
func (c *constraint) check(v *Version) bool {
return constraintOps[c.origfunc](v, c)
}
// String prints an individual constraint into a string
func (c *constraint) string() string {
return c.origfunc + c.orig
}
type cfunc func(v *Version, c *constraint) bool
func parseConstraint(c string) (*constraint, error) {
if len(c) > 0 {
m := constraintRegex.FindStringSubmatch(c)
if m == nil {
return nil, fmt.Errorf("improper constraint: %s", c)
}
cs := &constraint{
orig: m[2],
origfunc: m[1],
}
ver := m[2]
minorDirty := false
patchDirty := false
dirty := false
if isX(m[3]) || m[3] == "" {
ver = "0.0.0"
dirty = true
} else if isX(strings.TrimPrefix(m[4], ".")) || m[4] == "" {
minorDirty = true
dirty = true
ver = fmt.Sprintf("%s.0.0%s", m[3], m[6])
} else if isX(strings.TrimPrefix(m[5], ".")) || m[5] == "" {
dirty = true
patchDirty = true
ver = fmt.Sprintf("%s%s.0%s", m[3], m[4], m[6])
}
con, err := NewVersion(ver)
if err != nil {
// The constraintRegex should catch any regex parsing errors. So,
// we should never get here.
return nil, errors.New("constraint Parser Error")
}
cs.con = con
cs.minorDirty = minorDirty
cs.patchDirty = patchDirty
cs.dirty = dirty
return cs, nil
}
// The rest is the special case where an empty string was passed in which
// is equivalent to * or >=0.0.0
con, err := StrictNewVersion("0.0.0")
if err != nil {
// The constraintRegex should catch any regex parsing errors. So,
// we should never get here.
return nil, errors.New("constraint Parser Error")
}
cs := &constraint{
con: con,
orig: c,
origfunc: "",
minorDirty: false,
patchDirty: false,
dirty: true,
}
return cs, nil
}
// Constraint functions
func constraintNotEqual(v *Version, c *constraint) bool {
if c.dirty {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
if c.con.Major() != v.Major() {
return true
}
if c.con.Minor() != v.Minor() && !c.minorDirty {
return true
} else if c.minorDirty {
return false
} else if c.con.Patch() != v.Patch() && !c.patchDirty {
return true
} else if c.patchDirty {
// Need to handle prereleases if present
if v.Prerelease() != "" || c.con.Prerelease() != "" {
return comparePrerelease(v.Prerelease(), c.con.Prerelease()) != 0
}
return false
}
}
return !v.Equal(c.con)
}
func constraintGreaterThan(v *Version, c *constraint) bool {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
if !c.dirty {
return v.Compare(c.con) == 1
}
if v.Major() > c.con.Major() {
return true
} else if v.Major() < c.con.Major() {
return false
} else if c.minorDirty {
// This is a range case such as >11. When the version is something like
// 11.1.0 is it not > 11. For that we would need 12 or higher
return false
} else if c.patchDirty {
// This is for ranges such as >11.1. A version of 11.1.1 is not greater
// which one of 11.2.1 is greater
return v.Minor() > c.con.Minor()
}
// If we have gotten here we are not comparing pre-preleases and can use the
// Compare function to accomplish that.
return v.Compare(c.con) == 1
}
func constraintLessThan(v *Version, c *constraint) bool {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
return v.Compare(c.con) < 0
}
func constraintGreaterThanEqual(v *Version, c *constraint) bool {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
return v.Compare(c.con) >= 0
}
func constraintLessThanEqual(v *Version, c *constraint) bool {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
if !c.dirty {
return v.Compare(c.con) <= 0
}
if v.Major() > c.con.Major() {
return false
} else if v.Minor() > c.con.Minor() && !c.minorDirty {
return false
}
return true
}
// ~*, ~>* --> >= 0.0.0 (any)
// ~2, ~2.x, ~2.x.x, ~>2, ~>2.x ~>2.x.x --> >=2.0.0, <3.0.0
// ~2.0, ~2.0.x, ~>2.0, ~>2.0.x --> >=2.0.0, <2.1.0
// ~1.2, ~1.2.x, ~>1.2, ~>1.2.x --> >=1.2.0, <1.3.0
// ~1.2.3, ~>1.2.3 --> >=1.2.3, <1.3.0
// ~1.2.0, ~>1.2.0 --> >=1.2.0, <1.3.0
func constraintTilde(v *Version, c *constraint) bool {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
if v.LessThan(c.con) {
return false
}
// ~0.0.0 is a special case where all constraints are accepted. It's
// equivalent to >= 0.0.0.
if c.con.Major() == 0 && c.con.Minor() == 0 && c.con.Patch() == 0 &&
!c.minorDirty && !c.patchDirty {
return true
}
if v.Major() != c.con.Major() {
return false
}
if v.Minor() != c.con.Minor() && !c.minorDirty {
return false
}
return true
}
// When there is a .x (dirty) status it automatically opts in to ~. Otherwise
// it's a straight =
func constraintTildeOrEqual(v *Version, c *constraint) bool {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
if c.dirty {
return constraintTilde(v, c)
}
return v.Equal(c.con)
}
// ^* --> (any)
// ^1.2.3 --> >=1.2.3 <2.0.0
// ^1.2 --> >=1.2.0 <2.0.0
// ^1 --> >=1.0.0 <2.0.0
// ^0.2.3 --> >=0.2.3 <0.3.0
// ^0.2 --> >=0.2.0 <0.3.0
// ^0.0.3 --> >=0.0.3 <0.0.4
// ^0.0 --> >=0.0.0 <0.1.0
// ^0 --> >=0.0.0 <1.0.0
func constraintCaret(v *Version, c *constraint) bool {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
// This less than handles prereleases
if v.LessThan(c.con) {
return false
}
// ^ when the major > 0 is >=x.y.z < x+1
if c.con.Major() > 0 || c.minorDirty {
// ^ has to be within a major range for > 0. Everything less than was
// filtered out with the LessThan call above. This filters out those
// that greater but not within the same major range.
return v.Major() == c.con.Major()
}
// ^ when the major is 0 and minor > 0 is >=0.y.z < 0.y+1
if c.con.Major() == 0 && v.Major() > 0 {
return false
}
// If the con Minor is > 0 it is not dirty
if c.con.Minor() > 0 || c.patchDirty {
return v.Minor() == c.con.Minor()
}
// At this point the major is 0 and the minor is 0 and not dirty. The patch
// is not dirty so we need to check if they are equal. If they are not equal
return c.con.Patch() == v.Patch()
}
func isX(x string) bool {
switch x {
case "x", "*", "X":
return true
default:
return false
}
}
func rewriteRange(i string) string {
m := constraintRangeRegex.FindAllStringSubmatch(i, -1)
if m == nil {
return i
}
o := i
for _, v := range m {
t := fmt.Sprintf(">= %s, <= %s", v[1], v[11])
o = strings.Replace(o, v[0], t, 1)
}
return o
}

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vendor/github.com/Masterminds/semver/doc.go сгенерированный поставляемый Normal file
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/*
Package semver provides the ability to work with Semantic Versions (http://semver.org) in Go.
Specifically it provides the ability to:
* Parse semantic versions
* Sort semantic versions
* Check if a semantic version fits within a set of constraints
* Optionally work with a `v` prefix
Parsing Semantic Versions
There are two functions that can parse semantic versions. The `StrictNewVersion`
function only parses valid version 2 semantic versions as outlined in the
specification. The `NewVersion` function attempts to coerce a version into a
semantic version and parse it. For example, if there is a leading v or a version
listed without all 3 parts (e.g. 1.2) it will attempt to coerce it into a valid
semantic version (e.g., 1.2.0). In both cases a `Version` object is returned
that can be sorted, compared, and used in constraints.
When parsing a version an optional error can be returned if there is an issue
parsing the version. For example,
v, err := semver.NewVersion("1.2.3-beta.1+build345")
The version object has methods to get the parts of the version, compare it to
other versions, convert the version back into a string, and get the original
string. For more details please see the documentation
at https://godoc.org/github.com/Masterminds/semver.
Sorting Semantic Versions
A set of versions can be sorted using the `sort` package from the standard library.
For example,
raw := []string{"1.2.3", "1.0", "1.3", "2", "0.4.2",}
vs := make([]*semver.Version, len(raw))
for i, r := range raw {
v, err := semver.NewVersion(r)
if err != nil {
t.Errorf("Error parsing version: %s", err)
}
vs[i] = v
}
sort.Sort(semver.Collection(vs))
Checking Version Constraints and Comparing Versions
There are two methods for comparing versions. One uses comparison methods on
`Version` instances and the other is using Constraints. There are some important
differences to notes between these two methods of comparison.
1. When two versions are compared using functions such as `Compare`, `LessThan`,
and others it will follow the specification and always include prereleases
within the comparison. It will provide an answer valid with the comparison
spec section at https://semver.org/#spec-item-11
2. When constraint checking is used for checks or validation it will follow a
different set of rules that are common for ranges with tools like npm/js
and Rust/Cargo. This includes considering prereleases to be invalid if the
ranges does not include on. If you want to have it include pre-releases a
simple solution is to include `-0` in your range.
3. Constraint ranges can have some complex rules including the shorthard use of
~ and ^. For more details on those see the options below.
There are differences between the two methods or checking versions because the
comparison methods on `Version` follow the specification while comparison ranges
are not part of the specification. Different packages and tools have taken it
upon themselves to come up with range rules. This has resulted in differences.
For example, npm/js and Cargo/Rust follow similar patterns which PHP has a
different pattern for ^. The comparison features in this package follow the
npm/js and Cargo/Rust lead because applications using it have followed similar
patters with their versions.
Checking a version against version constraints is one of the most featureful
parts of the package.
c, err := semver.NewConstraint(">= 1.2.3")
if err != nil {
// Handle constraint not being parsable.
}
v, err := semver.NewVersion("1.3")
if err != nil {
// Handle version not being parsable.
}
// Check if the version meets the constraints. The a variable will be true.
a := c.Check(v)
Basic Comparisons
There are two elements to the comparisons. First, a comparison string is a list
of comma or space separated AND comparisons. These are then separated by || (OR)
comparisons. For example, `">= 1.2 < 3.0.0 || >= 4.2.3"` is looking for a
comparison that's greater than or equal to 1.2 and less than 3.0.0 or is
greater than or equal to 4.2.3. This can also be written as
`">= 1.2, < 3.0.0 || >= 4.2.3"`
The basic comparisons are:
* `=`: equal (aliased to no operator)
* `!=`: not equal
* `>`: greater than
* `<`: less than
* `>=`: greater than or equal to
* `<=`: less than or equal to
Hyphen Range Comparisons
There are multiple methods to handle ranges and the first is hyphens ranges.
These look like:
* `1.2 - 1.4.5` which is equivalent to `>= 1.2, <= 1.4.5`
* `2.3.4 - 4.5` which is equivalent to `>= 2.3.4 <= 4.5`
Wildcards In Comparisons
The `x`, `X`, and `*` characters can be used as a wildcard character. This works
for all comparison operators. When used on the `=` operator it falls
back to the tilde operation. For example,
* `1.2.x` is equivalent to `>= 1.2.0 < 1.3.0`
* `>= 1.2.x` is equivalent to `>= 1.2.0`
* `<= 2.x` is equivalent to `<= 3`
* `*` is equivalent to `>= 0.0.0`
Tilde Range Comparisons (Patch)
The tilde (`~`) comparison operator is for patch level ranges when a minor
version is specified and major level changes when the minor number is missing.
For example,
* `~1.2.3` is equivalent to `>= 1.2.3 < 1.3.0`
* `~1` is equivalent to `>= 1, < 2`
* `~2.3` is equivalent to `>= 2.3 < 2.4`
* `~1.2.x` is equivalent to `>= 1.2.0 < 1.3.0`
* `~1.x` is equivalent to `>= 1 < 2`
Caret Range Comparisons (Major)
The caret (`^`) comparison operator is for major level changes once a stable
(1.0.0) release has occurred. Prior to a 1.0.0 release the minor versions acts
as the API stability level. This is useful when comparisons of API versions as a
major change is API breaking. For example,
* `^1.2.3` is equivalent to `>= 1.2.3, < 2.0.0`
* `^1.2.x` is equivalent to `>= 1.2.0, < 2.0.0`
* `^2.3` is equivalent to `>= 2.3, < 3`
* `^2.x` is equivalent to `>= 2.0.0, < 3`
* `^0.2.3` is equivalent to `>=0.2.3 <0.3.0`
* `^0.2` is equivalent to `>=0.2.0 <0.3.0`
* `^0.0.3` is equivalent to `>=0.0.3 <0.0.4`
* `^0.0` is equivalent to `>=0.0.0 <0.1.0`
* `^0` is equivalent to `>=0.0.0 <1.0.0`
Validation
In addition to testing a version against a constraint, a version can be validated
against a constraint. When validation fails a slice of errors containing why a
version didn't meet the constraint is returned. For example,
c, err := semver.NewConstraint("<= 1.2.3, >= 1.4")
if err != nil {
// Handle constraint not being parseable.
}
v, _ := semver.NewVersion("1.3")
if err != nil {
// Handle version not being parseable.
}
// Validate a version against a constraint.
a, msgs := c.Validate(v)
// a is false
for _, m := range msgs {
fmt.Println(m)
// Loops over the errors which would read
// "1.3 is greater than 1.2.3"
// "1.3 is less than 1.4"
}
*/
package semver

22
vendor/github.com/Masterminds/semver/fuzz.go сгенерированный поставляемый Normal file
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// +build gofuzz
package semver
func Fuzz(data []byte) int {
d := string(data)
// Test NewVersion
_, _ = NewVersion(d)
// Test StrictNewVersion
_, _ = StrictNewVersion(d)
// Test NewConstraint
_, _ = NewConstraint(d)
// The return value should be 0 normally, 1 if the priority in future tests
// should be increased, and -1 if future tests should skip passing in that
// data. We do not have a reason to change priority so 0 is always returned.
// There are example tests that do this.
return 0
}

3
vendor/github.com/Masterminds/semver/go.mod сгенерированный поставляемый Normal file
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module github.com/Masterminds/semver/v3
go 1.12

583
vendor/github.com/Masterminds/semver/version.go сгенерированный поставляемый Normal file
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package semver
import (
"bytes"
"encoding/json"
"errors"
"fmt"
"regexp"
"strconv"
"strings"
)
// The compiled version of the regex created at init() is cached here so it
// only needs to be created once.
var versionRegex *regexp.Regexp
var (
// ErrInvalidSemVer is returned a version is found to be invalid when
// being parsed.
ErrInvalidSemVer = errors.New("Invalid Semantic Version")
// ErrEmptyString is returned when an empty string is passed in for parsing.
ErrEmptyString = errors.New("Version string empty")
// ErrInvalidCharacters is returned when invalid characters are found as
// part of a version
ErrInvalidCharacters = errors.New("Invalid characters in version")
// ErrSegmentStartsZero is returned when a version segment starts with 0.
// This is invalid in SemVer.
ErrSegmentStartsZero = errors.New("Version segment starts with 0")
// ErrInvalidMetadata is returned when the metadata is an invalid format
ErrInvalidMetadata = errors.New("Invalid Metadata string")
// ErrInvalidPrerelease is returned when the pre-release is an invalid format
ErrInvalidPrerelease = errors.New("Invalid Prerelease string")
)
// semVerRegex is the regular expression used to parse a semantic version.
const semVerRegex string = `v?([0-9]+)(\.[0-9]+)?(\.[0-9]+)?` +
`(-([0-9A-Za-z\-]+(\.[0-9A-Za-z\-]+)*))?` +
`(\+([0-9A-Za-z\-]+(\.[0-9A-Za-z\-]+)*))?`
// Version represents a single semantic version.
type Version struct {
major, minor, patch uint64
pre string
metadata string
original string
}
func init() {
versionRegex = regexp.MustCompile("^" + semVerRegex + "$")
}
const num string = "0123456789"
const allowed string = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ-" + num
// StrictNewVersion parses a given version and returns an instance of Version or
// an error if unable to parse the version. Only parses valid semantic versions.
// Performs checking that can find errors within the version.
// If you want to coerce a version, such as 1 or 1.2, and perse that as the 1.x
// releases of semver provided use the NewSemver() function.
func StrictNewVersion(v string) (*Version, error) {
// Parsing here does not use RegEx in order to increase performance and reduce
// allocations.
if len(v) == 0 {
return nil, ErrEmptyString
}
// Split the parts into [0]major, [1]minor, and [2]patch,prerelease,build
parts := strings.SplitN(v, ".", 3)
if len(parts) != 3 {
return nil, ErrInvalidSemVer
}
sv := &Version{
original: v,
}
// check for prerelease or build metadata
var extra []string
if strings.ContainsAny(parts[2], "-+") {
// Start with the build metadata first as it needs to be on the right
extra = strings.SplitN(parts[2], "+", 2)
if len(extra) > 1 {
// build metadata found
sv.metadata = extra[1]
parts[2] = extra[0]
}
extra = strings.SplitN(parts[2], "-", 2)
if len(extra) > 1 {
// prerelease found
sv.pre = extra[1]
parts[2] = extra[0]
}
}
// Validate the number segments are valid. This includes only having positive
// numbers and no leading 0's.
for _, p := range parts {
if !containsOnly(p, num) {
return nil, ErrInvalidCharacters
}
if len(p) > 1 && p[0] == '0' {
return nil, ErrSegmentStartsZero
}
}
// Extract the major, minor, and patch elements onto the returned Version
var err error
sv.major, err = strconv.ParseUint(parts[0], 10, 64)
if err != nil {
return nil, err
}
sv.minor, err = strconv.ParseUint(parts[1], 10, 64)
if err != nil {
return nil, err
}
sv.patch, err = strconv.ParseUint(parts[2], 10, 64)
if err != nil {
return nil, err
}
// No prerelease or build metadata found so returning now as a fastpath.
if sv.pre == "" && sv.metadata == "" {
return sv, nil
}
if sv.pre != "" {
if err = validatePrerelease(sv.pre); err != nil {
return nil, err
}
}
if sv.metadata != "" {
if err = validateMetadata(sv.metadata); err != nil {
return nil, err
}
}
return sv, nil
}
// NewVersion parses a given version and returns an instance of Version or
// an error if unable to parse the version. If the version is SemVer-ish it
// attempts to convert it to SemVer. If you want to validate it was a strict
// semantic version at parse time see StrictNewVersion().
func NewVersion(v string) (*Version, error) {
m := versionRegex.FindStringSubmatch(v)
if m == nil {
return nil, ErrInvalidSemVer
}
sv := &Version{
metadata: m[8],
pre: m[5],
original: v,
}
var err error
sv.major, err = strconv.ParseUint(m[1], 10, 64)
if err != nil {
return nil, fmt.Errorf("Error parsing version segment: %s", err)
}
if m[2] != "" {
sv.minor, err = strconv.ParseUint(strings.TrimPrefix(m[2], "."), 10, 64)
if err != nil {
return nil, fmt.Errorf("Error parsing version segment: %s", err)
}
} else {
sv.minor = 0
}
if m[3] != "" {
sv.patch, err = strconv.ParseUint(strings.TrimPrefix(m[3], "."), 10, 64)
if err != nil {
return nil, fmt.Errorf("Error parsing version segment: %s", err)
}
} else {
sv.patch = 0
}
// Perform some basic due diligence on the extra parts to ensure they are
// valid.
if sv.pre != "" {
if err = validatePrerelease(sv.pre); err != nil {
return nil, err
}
}
if sv.metadata != "" {
if err = validateMetadata(sv.metadata); err != nil {
return nil, err
}
}
return sv, nil
}
// MustParse parses a given version and panics on error.
func MustParse(v string) *Version {
sv, err := NewVersion(v)
if err != nil {
panic(err)
}
return sv
}
// String converts a Version object to a string.
// Note, if the original version contained a leading v this version will not.
// See the Original() method to retrieve the original value. Semantic Versions
// don't contain a leading v per the spec. Instead it's optional on
// implementation.
func (v Version) String() string {
var buf bytes.Buffer
fmt.Fprintf(&buf, "%d.%d.%d", v.major, v.minor, v.patch)
if v.pre != "" {
fmt.Fprintf(&buf, "-%s", v.pre)
}
if v.metadata != "" {
fmt.Fprintf(&buf, "+%s", v.metadata)
}
return buf.String()
}
// Original returns the original value passed in to be parsed.
func (v *Version) Original() string {
return v.original
}
// Major returns the major version.
func (v Version) Major() uint64 {
return v.major
}
// Minor returns the minor version.
func (v Version) Minor() uint64 {
return v.minor
}
// Patch returns the patch version.
func (v Version) Patch() uint64 {
return v.patch
}
// Prerelease returns the pre-release version.
func (v Version) Prerelease() string {
return v.pre
}
// Metadata returns the metadata on the version.
func (v Version) Metadata() string {
return v.metadata
}
// originalVPrefix returns the original 'v' prefix if any.
func (v Version) originalVPrefix() string {
// Note, only lowercase v is supported as a prefix by the parser.
if v.original != "" && v.original[:1] == "v" {
return v.original[:1]
}
return ""
}
// IncPatch produces the next patch version.
// If the current version does not have prerelease/metadata information,
// it unsets metadata and prerelease values, increments patch number.
// If the current version has any of prerelease or metadata information,
// it unsets both values and keeps current patch value
func (v Version) IncPatch() Version {
vNext := v
// according to http://semver.org/#spec-item-9
// Pre-release versions have a lower precedence than the associated normal version.
// according to http://semver.org/#spec-item-10
// Build metadata SHOULD be ignored when determining version precedence.
if v.pre != "" {
vNext.metadata = ""
vNext.pre = ""
} else {
vNext.metadata = ""
vNext.pre = ""
vNext.patch = v.patch + 1
}
vNext.original = v.originalVPrefix() + "" + vNext.String()
return vNext
}
// IncMinor produces the next minor version.
// Sets patch to 0.
// Increments minor number.
// Unsets metadata.
// Unsets prerelease status.
func (v Version) IncMinor() Version {
vNext := v
vNext.metadata = ""
vNext.pre = ""
vNext.patch = 0
vNext.minor = v.minor + 1
vNext.original = v.originalVPrefix() + "" + vNext.String()
return vNext
}
// IncMajor produces the next major version.
// Sets patch to 0.
// Sets minor to 0.
// Increments major number.
// Unsets metadata.
// Unsets prerelease status.
func (v Version) IncMajor() Version {
vNext := v
vNext.metadata = ""
vNext.pre = ""
vNext.patch = 0
vNext.minor = 0
vNext.major = v.major + 1
vNext.original = v.originalVPrefix() + "" + vNext.String()
return vNext
}
// SetPrerelease defines the prerelease value.
// Value must not include the required 'hyphen' prefix.
func (v Version) SetPrerelease(prerelease string) (Version, error) {
vNext := v
if len(prerelease) > 0 {
if err := validatePrerelease(prerelease); err != nil {
return vNext, err
}
}
vNext.pre = prerelease
vNext.original = v.originalVPrefix() + "" + vNext.String()
return vNext, nil
}
// SetMetadata defines metadata value.
// Value must not include the required 'plus' prefix.
func (v Version) SetMetadata(metadata string) (Version, error) {
vNext := v
if len(metadata) > 0 {
if err := validateMetadata(metadata); err != nil {
return vNext, err
}
}
vNext.metadata = metadata
vNext.original = v.originalVPrefix() + "" + vNext.String()
return vNext, nil
}
// LessThan tests if one version is less than another one.
func (v *Version) LessThan(o *Version) bool {
return v.Compare(o) < 0
}
// GreaterThan tests if one version is greater than another one.
func (v *Version) GreaterThan(o *Version) bool {
return v.Compare(o) > 0
}
// Equal tests if two versions are equal to each other.
// Note, versions can be equal with different metadata since metadata
// is not considered part of the comparable version.
func (v *Version) Equal(o *Version) bool {
return v.Compare(o) == 0
}
// Compare compares this version to another one. It returns -1, 0, or 1 if
// the version smaller, equal, or larger than the other version.
//
// Versions are compared by X.Y.Z. Build metadata is ignored. Prerelease is
// lower than the version without a prerelease. Compare always takes into account
// prereleases. If you want to work with ranges using typical range syntaxes that
// skip prereleases if the range is not looking for them use constraints.
func (v *Version) Compare(o *Version) int {
// Compare the major, minor, and patch version for differences. If a
// difference is found return the comparison.
if d := compareSegment(v.Major(), o.Major()); d != 0 {
return d
}
if d := compareSegment(v.Minor(), o.Minor()); d != 0 {
return d
}
if d := compareSegment(v.Patch(), o.Patch()); d != 0 {
return d
}
// At this point the major, minor, and patch versions are the same.
ps := v.pre
po := o.Prerelease()
if ps == "" && po == "" {
return 0
}
if ps == "" {
return 1
}
if po == "" {
return -1
}
return comparePrerelease(ps, po)
}
// UnmarshalJSON implements JSON.Unmarshaler interface.
func (v *Version) UnmarshalJSON(b []byte) error {
var s string
if err := json.Unmarshal(b, &s); err != nil {
return err
}
temp, err := NewVersion(s)
if err != nil {
return err
}
v.major = temp.major
v.minor = temp.minor
v.patch = temp.patch
v.pre = temp.pre
v.metadata = temp.metadata
v.original = temp.original
return nil
}
// MarshalJSON implements JSON.Marshaler interface.
func (v Version) MarshalJSON() ([]byte, error) {
return json.Marshal(v.String())
}
func compareSegment(v, o uint64) int {
if v < o {
return -1
}
if v > o {
return 1
}
return 0
}
func comparePrerelease(v, o string) int {
// split the prelease versions by their part. The separator, per the spec,
// is a .
sparts := strings.Split(v, ".")
oparts := strings.Split(o, ".")
// Find the longer length of the parts to know how many loop iterations to
// go through.
slen := len(sparts)
olen := len(oparts)
l := slen
if olen > slen {
l = olen
}
// Iterate over each part of the prereleases to compare the differences.
for i := 0; i < l; i++ {
// Since the lentgh of the parts can be different we need to create
// a placeholder. This is to avoid out of bounds issues.
stemp := ""
if i < slen {
stemp = sparts[i]
}
otemp := ""
if i < olen {
otemp = oparts[i]
}
d := comparePrePart(stemp, otemp)
if d != 0 {
return d
}
}
// Reaching here means two versions are of equal value but have different
// metadata (the part following a +). They are not identical in string form
// but the version comparison finds them to be equal.
return 0
}
func comparePrePart(s, o string) int {
// Fastpath if they are equal
if s == o {
return 0
}
// When s or o are empty we can use the other in an attempt to determine
// the response.
if s == "" {
if o != "" {
return -1
}
return 1
}
if o == "" {
if s != "" {
return 1
}
return -1
}
// When comparing strings "99" is greater than "103". To handle
// cases like this we need to detect numbers and compare them. According
// to the semver spec, numbers are always positive. If there is a - at the
// start like -99 this is to be evaluated as an alphanum. numbers always
// have precedence over alphanum. Parsing as Uints because negative numbers
// are ignored.
oi, n1 := strconv.ParseUint(o, 10, 64)
si, n2 := strconv.ParseUint(s, 10, 64)
// The case where both are strings compare the strings
if n1 != nil && n2 != nil {
if s > o {
return 1
}
return -1
} else if n1 != nil {
// o is a string and s is a number
return -1
} else if n2 != nil {
// s is a string and o is a number
return 1
}
// Both are numbers
if si > oi {
return 1
}
return -1
}
// Like strings.ContainsAny but does an only instead of any.
func containsOnly(s string, comp string) bool {
return strings.IndexFunc(s, func(r rune) bool {
return !strings.ContainsRune(comp, r)
}) == -1
}
// From the spec, "Identifiers MUST comprise only
// ASCII alphanumerics and hyphen [0-9A-Za-z-]. Identifiers MUST NOT be empty.
// Numeric identifiers MUST NOT include leading zeroes.". These segments can
// be dot separated.
func validatePrerelease(p string) error {
eparts := strings.Split(p, ".")
for _, p := range eparts {
if containsOnly(p, num) {
if len(p) > 1 && p[0] == '0' {
return ErrSegmentStartsZero
}
} else if !containsOnly(p, allowed) {
return ErrInvalidPrerelease
}
}
return nil
}
// From the spec, "Build metadata MAY be denoted by
// appending a plus sign and a series of dot separated identifiers immediately
// following the patch or pre-release version. Identifiers MUST comprise only
// ASCII alphanumerics and hyphen [0-9A-Za-z-]. Identifiers MUST NOT be empty."
func validateMetadata(m string) error {
eparts := strings.Split(m, ".")
for _, p := range eparts {
if !containsOnly(p, allowed) {
return ErrInvalidMetadata
}
}
return nil
}

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