53a6f7d7aa
Current registry reference use a subset of dns and IPv4 addresses to represent a registry domain. Since registries are mostly compatible with rfc3986, that defines the URI generic syntax, this adds support for IPv6 enclosed in squared brackets based on the mentioned rfc. The regexp is only expanded to match on IPv6 addreses enclosed between square brackets, considering only regular IPv6 addresses represented as compressed or uncompressed, excluding special IPv6 address representations. Signed-off-by: Antonio Ojea <antonio.ojea.garcia@gmail.com>
181 lines
6.7 KiB
Go
181 lines
6.7 KiB
Go
package reference
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import "regexp"
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var (
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// alphaNumeric defines the alpha numeric atom, typically a
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// component of names. This only allows lower case characters and digits.
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alphaNumeric = `[a-z0-9]+`
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// separator defines the separators allowed to be embedded in name
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// components. This allow one period, one or two underscore and multiple
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// dashes. Repeated dashes and underscores are intentionally treated
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// differently. In order to support valid hostnames as name components,
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// supporting repeated dash was added. Additionally double underscore is
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// now allowed as a separator to loosen the restriction for previously
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// supported names.
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separator = `(?:[._]|__|[-]*)`
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// nameComponent restricts registry path component names to start
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// with at least one letter or number, with following parts able to be
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// separated by one period, one or two underscore and multiple dashes.
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nameComponent = expression(
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alphaNumeric,
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optional(repeated(separator, alphaNumeric)))
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// domainNameComponent restricts the registry domain component of a
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// repository name to start with a component as defined by DomainRegexp.
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domainNameComponent = `(?:[a-zA-Z0-9]|[a-zA-Z0-9][a-zA-Z0-9-]*[a-zA-Z0-9])`
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// ipv6address are enclosed between square brackets and may be represented
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// in many ways, see rfc5952. Only IPv6 in compressed or uncompressed format
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// are allowed, IPv6 zone identifiers (rfc6874) or Special addresses such as
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// IPv4-Mapped are deliberately excluded.
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ipv6address = expression(
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literal(`[`), `(?:[a-fA-F0-9:]+)`, literal(`]`),
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)
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// domainName defines the structure of potential domain components
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// that may be part of image names. This is purposely a subset of what is
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// allowed by DNS to ensure backwards compatibility with Docker image
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// names. This includes IPv4 addresses on decimal format.
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domainName = expression(
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domainNameComponent,
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optional(repeated(literal(`.`), domainNameComponent)),
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)
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// host defines the structure of potential domains based on the URI
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// Host subcomponent on rfc3986. It may be a subset of DNS domain name,
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// or an IPv4 address in decimal format, or an IPv6 address between square
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// brackets (excluding zone identifiers as defined by rfc6874 or special
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// addresses such as IPv4-Mapped).
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host = `(?:` + domainName + `|` + ipv6address + `)`
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// allowed by the URI Host subcomponent on rfc3986 to ensure backwards
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// compatibility with Docker image names.
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domain = expression(
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host,
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optional(literal(`:`), `[0-9]+`))
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// DomainRegexp defines the structure of potential domain components
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// that may be part of image names. This is purposely a subset of what is
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// allowed by DNS to ensure backwards compatibility with Docker image
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// names.
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DomainRegexp = regexp.MustCompile(domain)
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tag = `[\w][\w.-]{0,127}`
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// TagRegexp matches valid tag names. From docker/docker:graph/tags.go.
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TagRegexp = regexp.MustCompile(tag)
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anchoredTag = anchored(tag)
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// anchoredTagRegexp matches valid tag names, anchored at the start and
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// end of the matched string.
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anchoredTagRegexp = regexp.MustCompile(anchoredTag)
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digestPat = `[A-Za-z][A-Za-z0-9]*(?:[-_+.][A-Za-z][A-Za-z0-9]*)*[:][[:xdigit:]]{32,}`
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// DigestRegexp matches valid digests.
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DigestRegexp = regexp.MustCompile(digestPat)
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anchoredDigest = anchored(digestPat)
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// anchoredDigestRegexp matches valid digests, anchored at the start and
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// end of the matched string.
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anchoredDigestRegexp = regexp.MustCompile(anchoredDigest)
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namePat = expression(
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optional(domain, literal(`/`)),
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nameComponent,
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optional(repeated(literal(`/`), nameComponent)))
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// NameRegexp is the format for the name component of references. The
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// regexp has capturing groups for the domain and name part omitting
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// the separating forward slash from either.
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NameRegexp = regexp.MustCompile(namePat)
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anchoredName = anchored(
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optional(capture(domain), literal(`/`)),
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capture(nameComponent,
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optional(repeated(literal(`/`), nameComponent))))
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// anchoredNameRegexp is used to parse a name value, capturing the
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// domain and trailing components.
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anchoredNameRegexp = regexp.MustCompile(anchoredName)
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referencePat = anchored(capture(namePat),
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optional(literal(":"), capture(tag)),
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optional(literal("@"), capture(digestPat)))
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// ReferenceRegexp is the full supported format of a reference. The regexp
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// is anchored and has capturing groups for name, tag, and digest
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// components.
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ReferenceRegexp = regexp.MustCompile(referencePat)
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identifier = `([a-f0-9]{64})`
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// IdentifierRegexp is the format for string identifier used as a
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// content addressable identifier using sha256. These identifiers
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// are like digests without the algorithm, since sha256 is used.
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IdentifierRegexp = regexp.MustCompile(identifier)
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shortIdentifier = `([a-f0-9]{6,64})`
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// ShortIdentifierRegexp is the format used to represent a prefix
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// of an identifier. A prefix may be used to match a sha256 identifier
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// within a list of trusted identifiers.
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ShortIdentifierRegexp = regexp.MustCompile(shortIdentifier)
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anchoredIdentifier = anchored(identifier)
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// anchoredIdentifierRegexp is used to check or match an
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// identifier value, anchored at start and end of string.
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anchoredIdentifierRegexp = regexp.MustCompile(anchoredIdentifier)
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anchoredShortIdentifier = anchored(shortIdentifier)
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// anchoredShortIdentifierRegexp is used to check if a value
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// is a possible identifier prefix, anchored at start and end
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// of string.
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anchoredShortIdentifierRegexp = regexp.MustCompile(anchoredShortIdentifier)
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)
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// literal compiles s into a literal regular expression, escaping any regexp
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// reserved characters.
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func literal(s string) string {
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re := regexp.MustCompile(regexp.QuoteMeta(s))
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if _, complete := re.LiteralPrefix(); !complete {
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panic("must be a literal")
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}
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return re.String()
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}
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// expression defines a full expression, where each regular expression must
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// follow the previous.
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func expression(res ...string) string {
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var s string
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for _, re := range res {
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s += re
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}
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return s
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}
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// optional wraps the expression in a non-capturing group and makes the
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// production optional.
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func optional(res ...string) string {
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return group(expression(res...)) + `?`
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}
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// repeated wraps the regexp in a non-capturing group to get one or more
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// matches.
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func repeated(res ...string) string {
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return group(expression(res...)) + `+`
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}
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// group wraps the regexp in a non-capturing group.
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func group(res ...string) string {
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return `(?:` + expression(res...) + `)`
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}
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// capture wraps the expression in a capturing group.
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func capture(res ...string) string {
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return `(` + expression(res...) + `)`
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}
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// anchored anchors the regular expression by adding start and end delimiters.
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func anchored(res ...string) string {
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return `^` + expression(res...) + `$`
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}
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