示例#1
0
文件: links.go 项目: CheggEng/docker
// Default port rules
func (l *Link) getDefaultPort() *nat.Port {
	var p nat.Port
	i := len(l.Ports)

	if i == 0 {
		return nil
	} else if i > 1 {
		nat.Sort(l.Ports, func(ip, jp nat.Port) bool {
			// If the two ports have the same number, tcp takes priority
			// Sort in desc order
			return ip.Int() < jp.Int() || (ip.Int() == jp.Int() && strings.ToLower(ip.Proto()) == "tcp")
		})
	}
	p = l.Ports[0]
	return &p
}
示例#2
0
文件: links.go 项目: CheggEng/docker
// ToEnv creates a string's slice containing child container informations in
// the form of environment variables which will be later exported on container
// startup.
func (l *Link) ToEnv() []string {
	env := []string{}

	_, n := path.Split(l.Name)
	alias := strings.Replace(strings.ToUpper(n), "-", "_", -1)

	if p := l.getDefaultPort(); p != nil {
		env = append(env, fmt.Sprintf("%s_PORT=%s://%s:%s", alias, p.Proto(), l.ChildIP, p.Port()))
	}

	//sort the ports so that we can bulk the continuous ports together
	nat.Sort(l.Ports, func(ip, jp nat.Port) bool {
		// If the two ports have the same number, tcp takes priority
		// Sort in desc order
		return ip.Int() < jp.Int() || (ip.Int() == jp.Int() && strings.ToLower(ip.Proto()) == "tcp")
	})

	for i := 0; i < len(l.Ports); {
		p := l.Ports[i]
		j := nextContiguous(l.Ports, p.Int(), i)
		if j > i+1 {
			env = append(env, fmt.Sprintf("%s_PORT_%s_%s_START=%s://%s:%s", alias, p.Port(), strings.ToUpper(p.Proto()), p.Proto(), l.ChildIP, p.Port()))
			env = append(env, fmt.Sprintf("%s_PORT_%s_%s_ADDR=%s", alias, p.Port(), strings.ToUpper(p.Proto()), l.ChildIP))
			env = append(env, fmt.Sprintf("%s_PORT_%s_%s_PROTO=%s", alias, p.Port(), strings.ToUpper(p.Proto()), p.Proto()))
			env = append(env, fmt.Sprintf("%s_PORT_%s_%s_PORT_START=%s", alias, p.Port(), strings.ToUpper(p.Proto()), p.Port()))

			q := l.Ports[j]
			env = append(env, fmt.Sprintf("%s_PORT_%s_%s_END=%s://%s:%s", alias, p.Port(), strings.ToUpper(q.Proto()), q.Proto(), l.ChildIP, q.Port()))
			env = append(env, fmt.Sprintf("%s_PORT_%s_%s_PORT_END=%s", alias, p.Port(), strings.ToUpper(q.Proto()), q.Port()))

			i = j + 1
			continue
		} else {
			i++
		}
	}
	for _, p := range l.Ports {
		env = append(env, fmt.Sprintf("%s_PORT_%s_%s=%s://%s:%s", alias, p.Port(), strings.ToUpper(p.Proto()), p.Proto(), l.ChildIP, p.Port()))
		env = append(env, fmt.Sprintf("%s_PORT_%s_%s_ADDR=%s", alias, p.Port(), strings.ToUpper(p.Proto()), l.ChildIP))
		env = append(env, fmt.Sprintf("%s_PORT_%s_%s_PORT=%s", alias, p.Port(), strings.ToUpper(p.Proto()), p.Port()))
		env = append(env, fmt.Sprintf("%s_PORT_%s_%s_PROTO=%s", alias, p.Port(), strings.ToUpper(p.Proto()), p.Proto()))
	}

	// Load the linked container's name into the environment
	env = append(env, fmt.Sprintf("%s_NAME=%s", alias, l.Name))

	if l.ChildEnvironment != nil {
		for _, v := range l.ChildEnvironment {
			parts := strings.SplitN(v, "=", 2)
			if len(parts) < 2 {
				continue
			}
			// Ignore a few variables that are added during docker build (and not really relevant to linked containers)
			if parts[0] == "HOME" || parts[0] == "PATH" {
				continue
			}
			env = append(env, fmt.Sprintf("%s_ENV_%s=%s", alias, parts[0], parts[1]))
		}
	}
	return env
}