ollama/types/model/name.go

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// Package model contains types and utilities for parsing, validating, and
// working with model names and digests.
package model
import (
"cmp"
"errors"
"fmt"
"log/slog"
"path/filepath"
"strings"
)
// Errors
var (
// ErrUnqualifiedName represents an error where a name is not fully
// qualified. It is not used directly in this package, but is here
// to avoid other packages inventing their own error type.
// Additionally, it can be conveniently used via [Unqualified].
ErrUnqualifiedName = errors.New("unqualified name")
)
// Unqualified is a helper function that returns an error with
// ErrUnqualifiedName as the cause and the name as the message.
func Unqualified(n Name) error {
return fmt.Errorf("%w: %s", ErrUnqualifiedName, n)
}
// MissingPart is used to indicate any part of a name that was "promised" by
// the presence of a separator, but is missing.
//
// The value was chosen because it is deemed unlikely to be set by a user,
// not a valid part name valid when checked by [Name.IsValid], and easy to
// spot in logs.
const MissingPart = "!MISSING!"
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const (
defaultHost = "registry.ollama.ai"
defaultNamespace = "library"
defaultTag = "latest"
)
// DefaultName returns a name with the default values for the host, namespace,
// and tag parts. The model and digest parts are empty.
//
// - The default host is ("registry.ollama.ai")
// - The default namespace is ("library")
// - The default tag is ("latest")
func DefaultName() Name {
return Name{
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Host: defaultHost,
Namespace: defaultNamespace,
Tag: defaultTag,
}
}
type partKind int
const (
kindHost partKind = iota
kindNamespace
kindModel
kindTag
kindDigest
)
func (k partKind) String() string {
switch k {
case kindHost:
return "host"
case kindNamespace:
return "namespace"
case kindModel:
return "model"
case kindTag:
return "tag"
case kindDigest:
return "digest"
default:
return "unknown"
}
}
// Name is a structured representation of a model name string, as defined by
// [ParseNameNoDefaults].
//
// It is not guaranteed to be valid. Use [Name.IsValid] to check if the name
// is valid.
type Name struct {
Host string
Namespace string
Model string
Tag string
}
// ParseName parses and assembles a Name from a name string. The
// format of a valid name string is:
//
// s:
// { host } "/" { namespace } "/" { model } ":" { tag } "@" { digest }
// { host } "/" { namespace } "/" { model } ":" { tag }
// { host } "/" { namespace } "/" { model } "@" { digest }
// { host } "/" { namespace } "/" { model }
// { namespace } "/" { model } ":" { tag } "@" { digest }
// { namespace } "/" { model } ":" { tag }
// { namespace } "/" { model } "@" { digest }
// { namespace } "/" { model }
// { model } ":" { tag } "@" { digest }
// { model } ":" { tag }
// { model } "@" { digest }
// { model }
// "@" { digest }
// host:
// pattern: { alphanum | "_" } { alphanum | "-" | "_" | "." | ":" }*
// length: [1, 350]
// namespace:
// pattern: { alphanum | "_" } { alphanum | "-" | "_" }*
// length: [1, 80]
// model:
// pattern: { alphanum | "_" } { alphanum | "-" | "_" | "." }*
// length: [1, 80]
// tag:
// pattern: { alphanum | "_" } { alphanum | "-" | "_" | "." }*
// length: [1, 80]
// digest:
// pattern: { alphanum | "_" } { alphanum | "-" | ":" }*
// length: [1, 80]
//
// Most users should use [ParseName] instead, unless need to support
// different defaults than DefaultName.
//
// The name returned is not guaranteed to be valid. If it is not valid, the
// field values are left in an undefined state. Use [Name.IsValid] to check
// if the name is valid.
func ParseName(s string) Name {
return Merge(ParseNameBare(s), DefaultName())
}
// ParseNameBare parses s as a name string and returns a Name. No merge with
// [DefaultName] is performed.
func ParseNameBare(s string) Name {
var n Name
var promised bool
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// "/" is an illegal tag character, so we can use it to split the host
if strings.LastIndex(s, ":") > strings.LastIndex(s, "/") {
s, n.Tag, _ = cutPromised(s, ":")
}
s, n.Model, promised = cutPromised(s, "/")
if !promised {
n.Model = s
return n
}
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s, n.Namespace, promised = cutPromised(s, "/")
if !promised {
n.Namespace = s
return n
}
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scheme, host, ok := strings.Cut(s, "://")
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if !ok {
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host = scheme
}
n.Host = host
return n
}
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// ParseNameFromFilepath parses a 4-part filepath as a Name. The parts are
// expected to be in the form:
//
// { host } "/" { namespace } "/" { model } "/" { tag }
func ParseNameFromFilepath(s string) (n Name) {
parts := strings.Split(s, string(filepath.Separator))
if len(parts) != 4 {
return Name{}
}
n.Host = parts[0]
n.Namespace = parts[1]
n.Model = parts[2]
n.Tag = parts[3]
if !n.IsFullyQualified() {
return Name{}
}
return n
}
// Merge merges the host, namespace, and tag parts of the two names,
// preferring the non-empty parts of a.
func Merge(a, b Name) Name {
a.Host = cmp.Or(a.Host, b.Host)
a.Namespace = cmp.Or(a.Namespace, b.Namespace)
a.Tag = cmp.Or(a.Tag, b.Tag)
return a
}
// String returns the name string, in the format that [ParseNameNoDefaults]
// accepts as valid, if [Name.IsValid] reports true; otherwise the empty
// string is returned.
func (n Name) String() string {
var b strings.Builder
if n.Host != "" {
b.WriteString(n.Host)
b.WriteByte('/')
}
if n.Namespace != "" {
b.WriteString(n.Namespace)
b.WriteByte('/')
}
b.WriteString(n.Model)
if n.Tag != "" {
b.WriteByte(':')
b.WriteString(n.Tag)
}
return b.String()
}
// DisplayShortest returns a short string version of the name.
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func (n Name) DisplayShortest() string {
var sb strings.Builder
if n.Host != defaultHost {
sb.WriteString(n.Host)
sb.WriteByte('/')
sb.WriteString(n.Namespace)
sb.WriteByte('/')
} else if n.Namespace != defaultNamespace {
sb.WriteString(n.Namespace)
sb.WriteByte('/')
}
// always include model and tag
sb.WriteString(n.Model)
sb.WriteString(":")
sb.WriteString(n.Tag)
return sb.String()
}
// IsValidNamespace reports whether the provided string is a valid
// namespace.
func IsValidNamespace(s string) bool {
return isValidPart(kindNamespace, s)
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}
// IsValid reports whether all parts of the name are present and valid. The
// digest is a special case, and is checked for validity only if present.
//
// Note: The digest check has been removed as is planned to be added back in
// at a later time.
func (n Name) IsValid() bool {
return n.IsFullyQualified()
}
// IsFullyQualified returns true if all parts of the name are present and
// valid without the digest.
func (n Name) IsFullyQualified() bool {
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parts := []string{
n.Host,
n.Namespace,
n.Model,
n.Tag,
}
for i, part := range parts {
if !isValidPart(partKind(i), part) {
return false
}
}
return true
}
// Filepath returns a canonical filepath that represents the name with each part from
// host to tag as a directory in the form:
//
// {host}/{namespace}/{model}/{tag}
//
// It uses the system's filepath separator and ensures the path is clean.
//
// It panics if the name is not fully qualified. Use [Name.IsFullyQualified]
// to check if the name is fully qualified.
func (n Name) Filepath() string {
if !n.IsFullyQualified() {
panic("illegal attempt to get filepath of invalid name")
}
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return filepath.Join(
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n.Host,
n.Namespace,
n.Model,
n.Tag,
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)
}
// LogValue returns a slog.Value that represents the name as a string.
func (n Name) LogValue() slog.Value {
return slog.StringValue(n.String())
}
func (n Name) EqualFold(o Name) bool {
return strings.EqualFold(n.Host, o.Host) &&
strings.EqualFold(n.Namespace, o.Namespace) &&
strings.EqualFold(n.Model, o.Model) &&
strings.EqualFold(n.Tag, o.Tag)
}
func isValidLen(kind partKind, s string) bool {
switch kind {
case kindHost:
return len(s) >= 1 && len(s) <= 350
case kindTag:
return len(s) >= 1 && len(s) <= 80
default:
return len(s) >= 1 && len(s) <= 80
}
}
func isValidPart(kind partKind, s string) bool {
if !isValidLen(kind, s) {
return false
}
for i := range s {
if i == 0 {
if !isAlphanumericOrUnderscore(s[i]) {
return false
}
continue
}
switch s[i] {
case '_', '-':
case '.':
if kind == kindNamespace {
return false
}
case ':':
if kind != kindHost && kind != kindDigest {
return false
}
default:
if !isAlphanumericOrUnderscore(s[i]) {
return false
}
}
}
return true
}
func isAlphanumericOrUnderscore(c byte) bool {
return c >= 'A' && c <= 'Z' || c >= 'a' && c <= 'z' || c >= '0' && c <= '9' || c == '_'
}
func cutLast(s, sep string) (before, after string, ok bool) {
i := strings.LastIndex(s, sep)
if i >= 0 {
return s[:i], s[i+len(sep):], true
}
return s, "", false
}
// cutPromised cuts the last part of s at the last occurrence of sep. If sep is
// found, the part before and after sep are returned as-is unless empty, in
// which case they are returned as MissingPart, which will cause
// [Name.IsValid] to return false.
func cutPromised(s, sep string) (before, after string, ok bool) {
before, after, ok = cutLast(s, sep)
if !ok {
return before, after, false
}
return cmp.Or(before, MissingPart), cmp.Or(after, MissingPart), true
}