// // Copyright 2018, Sander van Harmelen // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // package cloudstack import ( "encoding/json" "fmt" "net/url" "strconv" "strings" ) type AddNetworkServiceProviderParams struct { p map[string]interface{} } func (p *AddNetworkServiceProviderParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["destinationphysicalnetworkid"]; found { u.Set("destinationphysicalnetworkid", v.(string)) } if v, found := p.p["name"]; found { u.Set("name", v.(string)) } if v, found := p.p["physicalnetworkid"]; found { u.Set("physicalnetworkid", v.(string)) } if v, found := p.p["servicelist"]; found { vv := strings.Join(v.([]string), ",") u.Set("servicelist", vv) } return u } func (p *AddNetworkServiceProviderParams) SetDestinationphysicalnetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["destinationphysicalnetworkid"] = v return } func (p *AddNetworkServiceProviderParams) SetName(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["name"] = v return } func (p *AddNetworkServiceProviderParams) SetPhysicalnetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["physicalnetworkid"] = v return } func (p *AddNetworkServiceProviderParams) SetServicelist(v []string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["servicelist"] = v return } // You should always use this function to get a new AddNetworkServiceProviderParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewAddNetworkServiceProviderParams(name string, physicalnetworkid string) *AddNetworkServiceProviderParams { p := &AddNetworkServiceProviderParams{} p.p = make(map[string]interface{}) p.p["name"] = name p.p["physicalnetworkid"] = physicalnetworkid return p } // Adds a network serviceProvider to a physical network func (s *NetworkService) AddNetworkServiceProvider(p *AddNetworkServiceProviderParams) (*AddNetworkServiceProviderResponse, error) { resp, err := s.cs.newRequest("addNetworkServiceProvider", p.toURLValues()) if err != nil { return nil, err } var r AddNetworkServiceProviderResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } b, err = getRawValue(b) if err != nil { return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type AddNetworkServiceProviderResponse struct { JobID string `json:"jobid"` Canenableindividualservice bool `json:"canenableindividualservice"` Destinationphysicalnetworkid string `json:"destinationphysicalnetworkid"` Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Servicelist []string `json:"servicelist"` State string `json:"state"` } type AddOpenDaylightControllerParams struct { p map[string]interface{} } func (p *AddOpenDaylightControllerParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["password"]; found { u.Set("password", v.(string)) } if v, found := p.p["physicalnetworkid"]; found { u.Set("physicalnetworkid", v.(string)) } if v, found := p.p["url"]; found { u.Set("url", v.(string)) } if v, found := p.p["username"]; found { u.Set("username", v.(string)) } return u } func (p *AddOpenDaylightControllerParams) SetPassword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["password"] = v return } func (p *AddOpenDaylightControllerParams) SetPhysicalnetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["physicalnetworkid"] = v return } func (p *AddOpenDaylightControllerParams) SetUrl(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["url"] = v return } func (p *AddOpenDaylightControllerParams) SetUsername(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["username"] = v return } // You should always use this function to get a new AddOpenDaylightControllerParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewAddOpenDaylightControllerParams(password string, physicalnetworkid string, url string, username string) *AddOpenDaylightControllerParams { p := &AddOpenDaylightControllerParams{} p.p = make(map[string]interface{}) p.p["password"] = password p.p["physicalnetworkid"] = physicalnetworkid p.p["url"] = url p.p["username"] = username return p } // Adds an OpenDyalight controler func (s *NetworkService) AddOpenDaylightController(p *AddOpenDaylightControllerParams) (*AddOpenDaylightControllerResponse, error) { resp, err := s.cs.newRequest("addOpenDaylightController", p.toURLValues()) if err != nil { return nil, err } var r AddOpenDaylightControllerResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } b, err = getRawValue(b) if err != nil { return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type AddOpenDaylightControllerResponse struct { JobID string `json:"jobid"` Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Url string `json:"url"` Username string `json:"username"` } type CreateNetworkParams struct { p map[string]interface{} } func (p *CreateNetworkParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["account"]; found { u.Set("account", v.(string)) } if v, found := p.p["aclid"]; found { u.Set("aclid", v.(string)) } if v, found := p.p["acltype"]; found { u.Set("acltype", v.(string)) } if v, found := p.p["bypassvlanoverlapcheck"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("bypassvlanoverlapcheck", vv) } if v, found := p.p["displaynetwork"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("displaynetwork", vv) } if v, found := p.p["displaytext"]; found { u.Set("displaytext", v.(string)) } if v, found := p.p["domainid"]; found { u.Set("domainid", v.(string)) } if v, found := p.p["endip"]; found { u.Set("endip", v.(string)) } if v, found := p.p["endipv6"]; found { u.Set("endipv6", v.(string)) } if v, found := p.p["externalid"]; found { u.Set("externalid", v.(string)) } if v, found := p.p["gateway"]; found { u.Set("gateway", v.(string)) } if v, found := p.p["ip6cidr"]; found { u.Set("ip6cidr", v.(string)) } if v, found := p.p["ip6gateway"]; found { u.Set("ip6gateway", v.(string)) } if v, found := p.p["isolatedpvlan"]; found { u.Set("isolatedpvlan", v.(string)) } if v, found := p.p["name"]; found { u.Set("name", v.(string)) } if v, found := p.p["netmask"]; found { u.Set("netmask", v.(string)) } if v, found := p.p["networkdomain"]; found { u.Set("networkdomain", v.(string)) } if v, found := p.p["networkofferingid"]; found { u.Set("networkofferingid", v.(string)) } if v, found := p.p["physicalnetworkid"]; found { u.Set("physicalnetworkid", v.(string)) } if v, found := p.p["projectid"]; found { u.Set("projectid", v.(string)) } if v, found := p.p["startip"]; found { u.Set("startip", v.(string)) } if v, found := p.p["startipv6"]; found { u.Set("startipv6", v.(string)) } if v, found := p.p["subdomainaccess"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("subdomainaccess", vv) } if v, found := p.p["vlan"]; found { u.Set("vlan", v.(string)) } if v, found := p.p["vpcid"]; found { u.Set("vpcid", v.(string)) } if v, found := p.p["zoneid"]; found { u.Set("zoneid", v.(string)) } return u } func (p *CreateNetworkParams) SetAccount(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["account"] = v return } func (p *CreateNetworkParams) SetAclid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["aclid"] = v return } func (p *CreateNetworkParams) SetAcltype(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["acltype"] = v return } func (p *CreateNetworkParams) SetBypassvlanoverlapcheck(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["bypassvlanoverlapcheck"] = v return } func (p *CreateNetworkParams) SetDisplaynetwork(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["displaynetwork"] = v return } func (p *CreateNetworkParams) SetDisplaytext(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["displaytext"] = v return } func (p *CreateNetworkParams) SetDomainid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["domainid"] = v return } func (p *CreateNetworkParams) SetEndip(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["endip"] = v return } func (p *CreateNetworkParams) SetEndipv6(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["endipv6"] = v return } func (p *CreateNetworkParams) SetExternalid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["externalid"] = v return } func (p *CreateNetworkParams) SetGateway(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["gateway"] = v return } func (p *CreateNetworkParams) SetIp6cidr(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["ip6cidr"] = v return } func (p *CreateNetworkParams) SetIp6gateway(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["ip6gateway"] = v return } func (p *CreateNetworkParams) SetIsolatedpvlan(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["isolatedpvlan"] = v return } func (p *CreateNetworkParams) SetName(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["name"] = v return } func (p *CreateNetworkParams) SetNetmask(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["netmask"] = v return } func (p *CreateNetworkParams) SetNetworkdomain(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["networkdomain"] = v return } func (p *CreateNetworkParams) SetNetworkofferingid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["networkofferingid"] = v return } func (p *CreateNetworkParams) SetPhysicalnetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["physicalnetworkid"] = v return } func (p *CreateNetworkParams) SetProjectid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["projectid"] = v return } func (p *CreateNetworkParams) SetStartip(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["startip"] = v return } func (p *CreateNetworkParams) SetStartipv6(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["startipv6"] = v return } func (p *CreateNetworkParams) SetSubdomainaccess(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["subdomainaccess"] = v return } func (p *CreateNetworkParams) SetVlan(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["vlan"] = v return } func (p *CreateNetworkParams) SetVpcid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["vpcid"] = v return } func (p *CreateNetworkParams) SetZoneid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["zoneid"] = v return } // You should always use this function to get a new CreateNetworkParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewCreateNetworkParams(displaytext string, name string, networkofferingid string, zoneid string) *CreateNetworkParams { p := &CreateNetworkParams{} p.p = make(map[string]interface{}) p.p["displaytext"] = displaytext p.p["name"] = name p.p["networkofferingid"] = networkofferingid p.p["zoneid"] = zoneid return p } // Creates a network func (s *NetworkService) CreateNetwork(p *CreateNetworkParams) (*CreateNetworkResponse, error) { resp, err := s.cs.newRequest("createNetwork", p.toURLValues()) if err != nil { return nil, err } if resp, err = getRawValue(resp); err != nil { return nil, err } var r CreateNetworkResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type CreateNetworkResponse struct { Account string `json:"account"` Aclid string `json:"aclid"` Acltype string `json:"acltype"` Broadcastdomaintype string `json:"broadcastdomaintype"` Broadcasturi string `json:"broadcasturi"` Canusefordeploy bool `json:"canusefordeploy"` Cidr string `json:"cidr"` Displaynetwork bool `json:"displaynetwork"` Displaytext string `json:"displaytext"` Dns1 string `json:"dns1"` Dns2 string `json:"dns2"` Domain string `json:"domain"` Domainid string `json:"domainid"` Externalid string `json:"externalid"` Gateway string `json:"gateway"` Id string `json:"id"` Ip6cidr string `json:"ip6cidr"` Ip6gateway string `json:"ip6gateway"` Isdefault bool `json:"isdefault"` Ispersistent bool `json:"ispersistent"` Issystem bool `json:"issystem"` Name string `json:"name"` Netmask string `json:"netmask"` Networkcidr string `json:"networkcidr"` Networkdomain string `json:"networkdomain"` Networkofferingavailability string `json:"networkofferingavailability"` Networkofferingconservemode bool `json:"networkofferingconservemode"` Networkofferingdisplaytext string `json:"networkofferingdisplaytext"` Networkofferingid string `json:"networkofferingid"` Networkofferingname string `json:"networkofferingname"` Physicalnetworkid string `json:"physicalnetworkid"` Project string `json:"project"` Projectid string `json:"projectid"` Redundantrouter bool `json:"redundantrouter"` Related string `json:"related"` Reservediprange string `json:"reservediprange"` Restartrequired bool `json:"restartrequired"` Service []CreateNetworkResponseService `json:"service"` Specifyipranges bool `json:"specifyipranges"` State string `json:"state"` Strechedl2subnet bool `json:"strechedl2subnet"` Subdomainaccess bool `json:"subdomainaccess"` Tags []Tags `json:"tags"` Traffictype string `json:"traffictype"` Type string `json:"type"` Vlan string `json:"vlan"` Vpcid string `json:"vpcid"` Zoneid string `json:"zoneid"` Zonename string `json:"zonename"` Zonesnetworkspans []interface{} `json:"zonesnetworkspans"` } type CreateNetworkResponseService struct { Capability []CreateNetworkResponseServiceCapability `json:"capability"` Name string `json:"name"` Provider []CreateNetworkResponseServiceProvider `json:"provider"` } type CreateNetworkResponseServiceProvider struct { Canenableindividualservice bool `json:"canenableindividualservice"` Destinationphysicalnetworkid string `json:"destinationphysicalnetworkid"` Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Servicelist []string `json:"servicelist"` State string `json:"state"` } type CreateNetworkResponseServiceCapability struct { Canchooseservicecapability bool `json:"canchooseservicecapability"` Name string `json:"name"` Value string `json:"value"` } type CreatePhysicalNetworkParams struct { p map[string]interface{} } func (p *CreatePhysicalNetworkParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["broadcastdomainrange"]; found { u.Set("broadcastdomainrange", v.(string)) } if v, found := p.p["domainid"]; found { u.Set("domainid", v.(string)) } if v, found := p.p["isolationmethods"]; found { vv := strings.Join(v.([]string), ",") u.Set("isolationmethods", vv) } if v, found := p.p["name"]; found { u.Set("name", v.(string)) } if v, found := p.p["networkspeed"]; found { u.Set("networkspeed", v.(string)) } if v, found := p.p["tags"]; found { vv := strings.Join(v.([]string), ",") u.Set("tags", vv) } if v, found := p.p["vlan"]; found { u.Set("vlan", v.(string)) } if v, found := p.p["zoneid"]; found { u.Set("zoneid", v.(string)) } return u } func (p *CreatePhysicalNetworkParams) SetBroadcastdomainrange(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["broadcastdomainrange"] = v return } func (p *CreatePhysicalNetworkParams) SetDomainid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["domainid"] = v return } func (p *CreatePhysicalNetworkParams) SetIsolationmethods(v []string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["isolationmethods"] = v return } func (p *CreatePhysicalNetworkParams) SetName(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["name"] = v return } func (p *CreatePhysicalNetworkParams) SetNetworkspeed(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["networkspeed"] = v return } func (p *CreatePhysicalNetworkParams) SetTags(v []string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["tags"] = v return } func (p *CreatePhysicalNetworkParams) SetVlan(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["vlan"] = v return } func (p *CreatePhysicalNetworkParams) SetZoneid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["zoneid"] = v return } // You should always use this function to get a new CreatePhysicalNetworkParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewCreatePhysicalNetworkParams(name string, zoneid string) *CreatePhysicalNetworkParams { p := &CreatePhysicalNetworkParams{} p.p = make(map[string]interface{}) p.p["name"] = name p.p["zoneid"] = zoneid return p } // Creates a physical network func (s *NetworkService) CreatePhysicalNetwork(p *CreatePhysicalNetworkParams) (*CreatePhysicalNetworkResponse, error) { resp, err := s.cs.newRequest("createPhysicalNetwork", p.toURLValues()) if err != nil { return nil, err } var r CreatePhysicalNetworkResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } b, err = getRawValue(b) if err != nil { return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type CreatePhysicalNetworkResponse struct { JobID string `json:"jobid"` Broadcastdomainrange string `json:"broadcastdomainrange"` Domainid string `json:"domainid"` Id string `json:"id"` Isolationmethods string `json:"isolationmethods"` Name string `json:"name"` Networkspeed string `json:"networkspeed"` State string `json:"state"` Tags string `json:"tags"` Vlan string `json:"vlan"` Zoneid string `json:"zoneid"` } type CreateServiceInstanceParams struct { p map[string]interface{} } func (p *CreateServiceInstanceParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["account"]; found { u.Set("account", v.(string)) } if v, found := p.p["domainid"]; found { u.Set("domainid", v.(string)) } if v, found := p.p["leftnetworkid"]; found { u.Set("leftnetworkid", v.(string)) } if v, found := p.p["name"]; found { u.Set("name", v.(string)) } if v, found := p.p["projectid"]; found { u.Set("projectid", v.(string)) } if v, found := p.p["rightnetworkid"]; found { u.Set("rightnetworkid", v.(string)) } if v, found := p.p["serviceofferingid"]; found { u.Set("serviceofferingid", v.(string)) } if v, found := p.p["templateid"]; found { u.Set("templateid", v.(string)) } if v, found := p.p["zoneid"]; found { u.Set("zoneid", v.(string)) } return u } func (p *CreateServiceInstanceParams) SetAccount(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["account"] = v return } func (p *CreateServiceInstanceParams) SetDomainid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["domainid"] = v return } func (p *CreateServiceInstanceParams) SetLeftnetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["leftnetworkid"] = v return } func (p *CreateServiceInstanceParams) SetName(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["name"] = v return } func (p *CreateServiceInstanceParams) SetProjectid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["projectid"] = v return } func (p *CreateServiceInstanceParams) SetRightnetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["rightnetworkid"] = v return } func (p *CreateServiceInstanceParams) SetServiceofferingid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["serviceofferingid"] = v return } func (p *CreateServiceInstanceParams) SetTemplateid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["templateid"] = v return } func (p *CreateServiceInstanceParams) SetZoneid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["zoneid"] = v return } // You should always use this function to get a new CreateServiceInstanceParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewCreateServiceInstanceParams(leftnetworkid string, name string, rightnetworkid string, serviceofferingid string, templateid string, zoneid string) *CreateServiceInstanceParams { p := &CreateServiceInstanceParams{} p.p = make(map[string]interface{}) p.p["leftnetworkid"] = leftnetworkid p.p["name"] = name p.p["rightnetworkid"] = rightnetworkid p.p["serviceofferingid"] = serviceofferingid p.p["templateid"] = templateid p.p["zoneid"] = zoneid return p } // Creates a system virtual-machine that implements network services func (s *NetworkService) CreateServiceInstance(p *CreateServiceInstanceParams) (*CreateServiceInstanceResponse, error) { resp, err := s.cs.newRequest("createServiceInstance", p.toURLValues()) if err != nil { return nil, err } var r CreateServiceInstanceResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } b, err = getRawValue(b) if err != nil { return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type CreateServiceInstanceResponse struct { JobID string `json:"jobid"` Account string `json:"account"` Displayname string `json:"displayname"` Domain string `json:"domain"` Domainid string `json:"domainid"` Id string `json:"id"` Name string `json:"name"` Project string `json:"project"` Projectid string `json:"projectid"` } type CreateStorageNetworkIpRangeParams struct { p map[string]interface{} } func (p *CreateStorageNetworkIpRangeParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["endip"]; found { u.Set("endip", v.(string)) } if v, found := p.p["gateway"]; found { u.Set("gateway", v.(string)) } if v, found := p.p["netmask"]; found { u.Set("netmask", v.(string)) } if v, found := p.p["podid"]; found { u.Set("podid", v.(string)) } if v, found := p.p["startip"]; found { u.Set("startip", v.(string)) } if v, found := p.p["vlan"]; found { vv := strconv.Itoa(v.(int)) u.Set("vlan", vv) } return u } func (p *CreateStorageNetworkIpRangeParams) SetEndip(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["endip"] = v return } func (p *CreateStorageNetworkIpRangeParams) SetGateway(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["gateway"] = v return } func (p *CreateStorageNetworkIpRangeParams) SetNetmask(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["netmask"] = v return } func (p *CreateStorageNetworkIpRangeParams) SetPodid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["podid"] = v return } func (p *CreateStorageNetworkIpRangeParams) SetStartip(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["startip"] = v return } func (p *CreateStorageNetworkIpRangeParams) SetVlan(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["vlan"] = v return } // You should always use this function to get a new CreateStorageNetworkIpRangeParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewCreateStorageNetworkIpRangeParams(gateway string, netmask string, podid string, startip string) *CreateStorageNetworkIpRangeParams { p := &CreateStorageNetworkIpRangeParams{} p.p = make(map[string]interface{}) p.p["gateway"] = gateway p.p["netmask"] = netmask p.p["podid"] = podid p.p["startip"] = startip return p } // Creates a Storage network IP range. func (s *NetworkService) CreateStorageNetworkIpRange(p *CreateStorageNetworkIpRangeParams) (*CreateStorageNetworkIpRangeResponse, error) { resp, err := s.cs.newRequest("createStorageNetworkIpRange", p.toURLValues()) if err != nil { return nil, err } var r CreateStorageNetworkIpRangeResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } b, err = getRawValue(b) if err != nil { return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type CreateStorageNetworkIpRangeResponse struct { JobID string `json:"jobid"` Endip string `json:"endip"` Gateway string `json:"gateway"` Id string `json:"id"` Netmask string `json:"netmask"` Networkid string `json:"networkid"` Podid string `json:"podid"` Startip string `json:"startip"` Vlan int `json:"vlan"` Zoneid string `json:"zoneid"` } type DedicatePublicIpRangeParams struct { p map[string]interface{} } func (p *DedicatePublicIpRangeParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["account"]; found { u.Set("account", v.(string)) } if v, found := p.p["domainid"]; found { u.Set("domainid", v.(string)) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["projectid"]; found { u.Set("projectid", v.(string)) } return u } func (p *DedicatePublicIpRangeParams) SetAccount(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["account"] = v return } func (p *DedicatePublicIpRangeParams) SetDomainid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["domainid"] = v return } func (p *DedicatePublicIpRangeParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *DedicatePublicIpRangeParams) SetProjectid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["projectid"] = v return } // You should always use this function to get a new DedicatePublicIpRangeParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewDedicatePublicIpRangeParams(domainid string, id string) *DedicatePublicIpRangeParams { p := &DedicatePublicIpRangeParams{} p.p = make(map[string]interface{}) p.p["domainid"] = domainid p.p["id"] = id return p } // Dedicates a Public IP range to an account func (s *NetworkService) DedicatePublicIpRange(p *DedicatePublicIpRangeParams) (*DedicatePublicIpRangeResponse, error) { resp, err := s.cs.newRequest("dedicatePublicIpRange", p.toURLValues()) if err != nil { return nil, err } var r DedicatePublicIpRangeResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type DedicatePublicIpRangeResponse struct { Account string `json:"account"` Description string `json:"description"` Domain string `json:"domain"` Domainid string `json:"domainid"` Endip string `json:"endip"` Endipv6 string `json:"endipv6"` Forsystemvms bool `json:"forsystemvms"` Forvirtualnetwork bool `json:"forvirtualnetwork"` Gateway string `json:"gateway"` Id string `json:"id"` Ip6cidr string `json:"ip6cidr"` Ip6gateway string `json:"ip6gateway"` Netmask string `json:"netmask"` Networkid string `json:"networkid"` Physicalnetworkid string `json:"physicalnetworkid"` Podid string `json:"podid"` Podname string `json:"podname"` Project string `json:"project"` Projectid string `json:"projectid"` Startip string `json:"startip"` Startipv6 string `json:"startipv6"` Vlan string `json:"vlan"` Zoneid string `json:"zoneid"` } type DeleteNetworkParams struct { p map[string]interface{} } func (p *DeleteNetworkParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["forced"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("forced", vv) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } return u } func (p *DeleteNetworkParams) SetForced(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["forced"] = v return } func (p *DeleteNetworkParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } // You should always use this function to get a new DeleteNetworkParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewDeleteNetworkParams(id string) *DeleteNetworkParams { p := &DeleteNetworkParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Deletes a network func (s *NetworkService) DeleteNetwork(p *DeleteNetworkParams) (*DeleteNetworkResponse, error) { resp, err := s.cs.newRequest("deleteNetwork", p.toURLValues()) if err != nil { return nil, err } var r DeleteNetworkResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type DeleteNetworkResponse struct { JobID string `json:"jobid"` Displaytext string `json:"displaytext"` Success bool `json:"success"` } type DeleteNetworkServiceProviderParams struct { p map[string]interface{} } func (p *DeleteNetworkServiceProviderParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } return u } func (p *DeleteNetworkServiceProviderParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } // You should always use this function to get a new DeleteNetworkServiceProviderParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewDeleteNetworkServiceProviderParams(id string) *DeleteNetworkServiceProviderParams { p := &DeleteNetworkServiceProviderParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Deletes a Network Service Provider. func (s *NetworkService) DeleteNetworkServiceProvider(p *DeleteNetworkServiceProviderParams) (*DeleteNetworkServiceProviderResponse, error) { resp, err := s.cs.newRequest("deleteNetworkServiceProvider", p.toURLValues()) if err != nil { return nil, err } var r DeleteNetworkServiceProviderResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type DeleteNetworkServiceProviderResponse struct { JobID string `json:"jobid"` Displaytext string `json:"displaytext"` Success bool `json:"success"` } type DeleteOpenDaylightControllerParams struct { p map[string]interface{} } func (p *DeleteOpenDaylightControllerParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } return u } func (p *DeleteOpenDaylightControllerParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } // You should always use this function to get a new DeleteOpenDaylightControllerParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewDeleteOpenDaylightControllerParams(id string) *DeleteOpenDaylightControllerParams { p := &DeleteOpenDaylightControllerParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Removes an OpenDyalight controler func (s *NetworkService) DeleteOpenDaylightController(p *DeleteOpenDaylightControllerParams) (*DeleteOpenDaylightControllerResponse, error) { resp, err := s.cs.newRequest("deleteOpenDaylightController", p.toURLValues()) if err != nil { return nil, err } var r DeleteOpenDaylightControllerResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } b, err = getRawValue(b) if err != nil { return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type DeleteOpenDaylightControllerResponse struct { JobID string `json:"jobid"` Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Url string `json:"url"` Username string `json:"username"` } type DeletePhysicalNetworkParams struct { p map[string]interface{} } func (p *DeletePhysicalNetworkParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } return u } func (p *DeletePhysicalNetworkParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } // You should always use this function to get a new DeletePhysicalNetworkParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewDeletePhysicalNetworkParams(id string) *DeletePhysicalNetworkParams { p := &DeletePhysicalNetworkParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Deletes a Physical Network. func (s *NetworkService) DeletePhysicalNetwork(p *DeletePhysicalNetworkParams) (*DeletePhysicalNetworkResponse, error) { resp, err := s.cs.newRequest("deletePhysicalNetwork", p.toURLValues()) if err != nil { return nil, err } var r DeletePhysicalNetworkResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type DeletePhysicalNetworkResponse struct { JobID string `json:"jobid"` Displaytext string `json:"displaytext"` Success bool `json:"success"` } type DeleteStorageNetworkIpRangeParams struct { p map[string]interface{} } func (p *DeleteStorageNetworkIpRangeParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } return u } func (p *DeleteStorageNetworkIpRangeParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } // You should always use this function to get a new DeleteStorageNetworkIpRangeParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewDeleteStorageNetworkIpRangeParams(id string) *DeleteStorageNetworkIpRangeParams { p := &DeleteStorageNetworkIpRangeParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Deletes a storage network IP Range. func (s *NetworkService) DeleteStorageNetworkIpRange(p *DeleteStorageNetworkIpRangeParams) (*DeleteStorageNetworkIpRangeResponse, error) { resp, err := s.cs.newRequest("deleteStorageNetworkIpRange", p.toURLValues()) if err != nil { return nil, err } var r DeleteStorageNetworkIpRangeResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type DeleteStorageNetworkIpRangeResponse struct { JobID string `json:"jobid"` Displaytext string `json:"displaytext"` Success bool `json:"success"` } type ListNetscalerLoadBalancerNetworksParams struct { p map[string]interface{} } func (p *ListNetscalerLoadBalancerNetworksParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["keyword"]; found { u.Set("keyword", v.(string)) } if v, found := p.p["lbdeviceid"]; found { u.Set("lbdeviceid", v.(string)) } if v, found := p.p["page"]; found { vv := strconv.Itoa(v.(int)) u.Set("page", vv) } if v, found := p.p["pagesize"]; found { vv := strconv.Itoa(v.(int)) u.Set("pagesize", vv) } return u } func (p *ListNetscalerLoadBalancerNetworksParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListNetscalerLoadBalancerNetworksParams) SetLbdeviceid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["lbdeviceid"] = v return } func (p *ListNetscalerLoadBalancerNetworksParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListNetscalerLoadBalancerNetworksParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } // You should always use this function to get a new ListNetscalerLoadBalancerNetworksParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewListNetscalerLoadBalancerNetworksParams(lbdeviceid string) *ListNetscalerLoadBalancerNetworksParams { p := &ListNetscalerLoadBalancerNetworksParams{} p.p = make(map[string]interface{}) p.p["lbdeviceid"] = lbdeviceid return p } // This is a courtesy helper function, which in some cases may not work as expected! func (s *NetworkService) GetNetscalerLoadBalancerNetworkID(keyword string, lbdeviceid string, opts ...OptionFunc) (string, int, error) { p := &ListNetscalerLoadBalancerNetworksParams{} p.p = make(map[string]interface{}) p.p["keyword"] = keyword p.p["lbdeviceid"] = lbdeviceid for _, fn := range append(s.cs.options, opts...) { if err := fn(s.cs, p); err != nil { return "", -1, err } } l, err := s.ListNetscalerLoadBalancerNetworks(p) if err != nil { return "", -1, err } if l.Count == 0 { return "", l.Count, fmt.Errorf("No match found for %s: %+v", keyword, l) } if l.Count == 1 { return l.NetscalerLoadBalancerNetworks[0].Id, l.Count, nil } if l.Count > 1 { for _, v := range l.NetscalerLoadBalancerNetworks { if v.Name == keyword { return v.Id, l.Count, nil } } } return "", l.Count, fmt.Errorf("Could not find an exact match for %s: %+v", keyword, l) } // lists network that are using a netscaler load balancer device func (s *NetworkService) ListNetscalerLoadBalancerNetworks(p *ListNetscalerLoadBalancerNetworksParams) (*ListNetscalerLoadBalancerNetworksResponse, error) { resp, err := s.cs.newRequest("listNetscalerLoadBalancerNetworks", p.toURLValues()) if err != nil { return nil, err } var r ListNetscalerLoadBalancerNetworksResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListNetscalerLoadBalancerNetworksResponse struct { Count int `json:"count"` NetscalerLoadBalancerNetworks []*NetscalerLoadBalancerNetwork `json:"netscalerloadbalancernetwork"` } type NetscalerLoadBalancerNetwork struct { Account string `json:"account"` Aclid string `json:"aclid"` Acltype string `json:"acltype"` Broadcastdomaintype string `json:"broadcastdomaintype"` Broadcasturi string `json:"broadcasturi"` Canusefordeploy bool `json:"canusefordeploy"` Cidr string `json:"cidr"` Displaynetwork bool `json:"displaynetwork"` Displaytext string `json:"displaytext"` Dns1 string `json:"dns1"` Dns2 string `json:"dns2"` Domain string `json:"domain"` Domainid string `json:"domainid"` Externalid string `json:"externalid"` Gateway string `json:"gateway"` Id string `json:"id"` Ip6cidr string `json:"ip6cidr"` Ip6gateway string `json:"ip6gateway"` Isdefault bool `json:"isdefault"` Ispersistent bool `json:"ispersistent"` Issystem bool `json:"issystem"` Name string `json:"name"` Netmask string `json:"netmask"` Networkcidr string `json:"networkcidr"` Networkdomain string `json:"networkdomain"` Networkofferingavailability string `json:"networkofferingavailability"` Networkofferingconservemode bool `json:"networkofferingconservemode"` Networkofferingdisplaytext string `json:"networkofferingdisplaytext"` Networkofferingid string `json:"networkofferingid"` Networkofferingname string `json:"networkofferingname"` Physicalnetworkid string `json:"physicalnetworkid"` Project string `json:"project"` Projectid string `json:"projectid"` Redundantrouter bool `json:"redundantrouter"` Related string `json:"related"` Reservediprange string `json:"reservediprange"` Restartrequired bool `json:"restartrequired"` Service []NetscalerLoadBalancerNetworkService `json:"service"` Specifyipranges bool `json:"specifyipranges"` State string `json:"state"` Strechedl2subnet bool `json:"strechedl2subnet"` Subdomainaccess bool `json:"subdomainaccess"` Tags []Tags `json:"tags"` Traffictype string `json:"traffictype"` Type string `json:"type"` Vlan string `json:"vlan"` Vpcid string `json:"vpcid"` Zoneid string `json:"zoneid"` Zonename string `json:"zonename"` Zonesnetworkspans []interface{} `json:"zonesnetworkspans"` } type NetscalerLoadBalancerNetworkService struct { Capability []NetscalerLoadBalancerNetworkServiceCapability `json:"capability"` Name string `json:"name"` Provider []NetscalerLoadBalancerNetworkServiceProvider `json:"provider"` } type NetscalerLoadBalancerNetworkServiceProvider struct { Canenableindividualservice bool `json:"canenableindividualservice"` Destinationphysicalnetworkid string `json:"destinationphysicalnetworkid"` Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Servicelist []string `json:"servicelist"` State string `json:"state"` } type NetscalerLoadBalancerNetworkServiceCapability struct { Canchooseservicecapability bool `json:"canchooseservicecapability"` Name string `json:"name"` Value string `json:"value"` } type ListNetworkIsolationMethodsParams struct { p map[string]interface{} } func (p *ListNetworkIsolationMethodsParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["keyword"]; found { u.Set("keyword", v.(string)) } if v, found := p.p["page"]; found { vv := strconv.Itoa(v.(int)) u.Set("page", vv) } if v, found := p.p["pagesize"]; found { vv := strconv.Itoa(v.(int)) u.Set("pagesize", vv) } return u } func (p *ListNetworkIsolationMethodsParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListNetworkIsolationMethodsParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListNetworkIsolationMethodsParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } // You should always use this function to get a new ListNetworkIsolationMethodsParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewListNetworkIsolationMethodsParams() *ListNetworkIsolationMethodsParams { p := &ListNetworkIsolationMethodsParams{} p.p = make(map[string]interface{}) return p } // Lists supported methods of network isolation func (s *NetworkService) ListNetworkIsolationMethods(p *ListNetworkIsolationMethodsParams) (*ListNetworkIsolationMethodsResponse, error) { resp, err := s.cs.newRequest("listNetworkIsolationMethods", p.toURLValues()) if err != nil { return nil, err } var r ListNetworkIsolationMethodsResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListNetworkIsolationMethodsResponse struct { Count int `json:"count"` NetworkIsolationMethods []*NetworkIsolationMethod `json:"networkisolationmethod"` } type NetworkIsolationMethod struct { Name string `json:"name"` } type ListNetworkServiceProvidersParams struct { p map[string]interface{} } func (p *ListNetworkServiceProvidersParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["keyword"]; found { u.Set("keyword", v.(string)) } if v, found := p.p["name"]; found { u.Set("name", v.(string)) } if v, found := p.p["page"]; found { vv := strconv.Itoa(v.(int)) u.Set("page", vv) } if v, found := p.p["pagesize"]; found { vv := strconv.Itoa(v.(int)) u.Set("pagesize", vv) } if v, found := p.p["physicalnetworkid"]; found { u.Set("physicalnetworkid", v.(string)) } if v, found := p.p["state"]; found { u.Set("state", v.(string)) } return u } func (p *ListNetworkServiceProvidersParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListNetworkServiceProvidersParams) SetName(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["name"] = v return } func (p *ListNetworkServiceProvidersParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListNetworkServiceProvidersParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } func (p *ListNetworkServiceProvidersParams) SetPhysicalnetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["physicalnetworkid"] = v return } func (p *ListNetworkServiceProvidersParams) SetState(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["state"] = v return } // You should always use this function to get a new ListNetworkServiceProvidersParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewListNetworkServiceProvidersParams() *ListNetworkServiceProvidersParams { p := &ListNetworkServiceProvidersParams{} p.p = make(map[string]interface{}) return p } // This is a courtesy helper function, which in some cases may not work as expected! func (s *NetworkService) GetNetworkServiceProviderID(name string, opts ...OptionFunc) (string, int, error) { p := &ListNetworkServiceProvidersParams{} p.p = make(map[string]interface{}) p.p["name"] = name for _, fn := range append(s.cs.options, opts...) { if err := fn(s.cs, p); err != nil { return "", -1, err } } l, err := s.ListNetworkServiceProviders(p) if err != nil { return "", -1, err } if l.Count == 0 { return "", l.Count, fmt.Errorf("No match found for %s: %+v", name, l) } if l.Count == 1 { return l.NetworkServiceProviders[0].Id, l.Count, nil } if l.Count > 1 { for _, v := range l.NetworkServiceProviders { if v.Name == name { return v.Id, l.Count, nil } } } return "", l.Count, fmt.Errorf("Could not find an exact match for %s: %+v", name, l) } // Lists network serviceproviders for a given physical network. func (s *NetworkService) ListNetworkServiceProviders(p *ListNetworkServiceProvidersParams) (*ListNetworkServiceProvidersResponse, error) { resp, err := s.cs.newRequest("listNetworkServiceProviders", p.toURLValues()) if err != nil { return nil, err } var r ListNetworkServiceProvidersResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListNetworkServiceProvidersResponse struct { Count int `json:"count"` NetworkServiceProviders []*NetworkServiceProvider `json:"networkserviceprovider"` } type NetworkServiceProvider struct { Canenableindividualservice bool `json:"canenableindividualservice"` Destinationphysicalnetworkid string `json:"destinationphysicalnetworkid"` Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Servicelist []string `json:"servicelist"` State string `json:"state"` } type ListNetworksParams struct { p map[string]interface{} } func (p *ListNetworksParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["account"]; found { u.Set("account", v.(string)) } if v, found := p.p["acltype"]; found { u.Set("acltype", v.(string)) } if v, found := p.p["canusefordeploy"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("canusefordeploy", vv) } if v, found := p.p["displaynetwork"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("displaynetwork", vv) } if v, found := p.p["domainid"]; found { u.Set("domainid", v.(string)) } if v, found := p.p["forvpc"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("forvpc", vv) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["isrecursive"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("isrecursive", vv) } if v, found := p.p["issystem"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("issystem", vv) } if v, found := p.p["keyword"]; found { u.Set("keyword", v.(string)) } if v, found := p.p["listall"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("listall", vv) } if v, found := p.p["page"]; found { vv := strconv.Itoa(v.(int)) u.Set("page", vv) } if v, found := p.p["pagesize"]; found { vv := strconv.Itoa(v.(int)) u.Set("pagesize", vv) } if v, found := p.p["physicalnetworkid"]; found { u.Set("physicalnetworkid", v.(string)) } if v, found := p.p["projectid"]; found { u.Set("projectid", v.(string)) } if v, found := p.p["restartrequired"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("restartrequired", vv) } if v, found := p.p["specifyipranges"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("specifyipranges", vv) } if v, found := p.p["supportedservices"]; found { vv := strings.Join(v.([]string), ",") u.Set("supportedservices", vv) } if v, found := p.p["tags"]; found { i := 0 for k, vv := range v.(map[string]string) { u.Set(fmt.Sprintf("tags[%d].key", i), k) u.Set(fmt.Sprintf("tags[%d].value", i), vv) i++ } } if v, found := p.p["traffictype"]; found { u.Set("traffictype", v.(string)) } if v, found := p.p["type"]; found { u.Set("type", v.(string)) } if v, found := p.p["vpcid"]; found { u.Set("vpcid", v.(string)) } if v, found := p.p["zoneid"]; found { u.Set("zoneid", v.(string)) } return u } func (p *ListNetworksParams) SetAccount(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["account"] = v return } func (p *ListNetworksParams) SetAcltype(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["acltype"] = v return } func (p *ListNetworksParams) SetCanusefordeploy(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["canusefordeploy"] = v return } func (p *ListNetworksParams) SetDisplaynetwork(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["displaynetwork"] = v return } func (p *ListNetworksParams) SetDomainid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["domainid"] = v return } func (p *ListNetworksParams) SetForvpc(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["forvpc"] = v return } func (p *ListNetworksParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *ListNetworksParams) SetIsrecursive(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["isrecursive"] = v return } func (p *ListNetworksParams) SetIssystem(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["issystem"] = v return } func (p *ListNetworksParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListNetworksParams) SetListall(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["listall"] = v return } func (p *ListNetworksParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListNetworksParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } func (p *ListNetworksParams) SetPhysicalnetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["physicalnetworkid"] = v return } func (p *ListNetworksParams) SetProjectid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["projectid"] = v return } func (p *ListNetworksParams) SetRestartrequired(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["restartrequired"] = v return } func (p *ListNetworksParams) SetSpecifyipranges(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["specifyipranges"] = v return } func (p *ListNetworksParams) SetSupportedservices(v []string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["supportedservices"] = v return } func (p *ListNetworksParams) SetTags(v map[string]string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["tags"] = v return } func (p *ListNetworksParams) SetTraffictype(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["traffictype"] = v return } func (p *ListNetworksParams) SetType(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["type"] = v return } func (p *ListNetworksParams) SetVpcid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["vpcid"] = v return } func (p *ListNetworksParams) SetZoneid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["zoneid"] = v return } // You should always use this function to get a new ListNetworksParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewListNetworksParams() *ListNetworksParams { p := &ListNetworksParams{} p.p = make(map[string]interface{}) return p } // This is a courtesy helper function, which in some cases may not work as expected! func (s *NetworkService) GetNetworkID(keyword string, opts ...OptionFunc) (string, int, error) { p := &ListNetworksParams{} p.p = make(map[string]interface{}) p.p["keyword"] = keyword for _, fn := range append(s.cs.options, opts...) { if err := fn(s.cs, p); err != nil { return "", -1, err } } l, err := s.ListNetworks(p) if err != nil { return "", -1, err } if l.Count == 0 { return "", l.Count, fmt.Errorf("No match found for %s: %+v", keyword, l) } if l.Count == 1 { return l.Networks[0].Id, l.Count, nil } if l.Count > 1 { for _, v := range l.Networks { if v.Name == keyword { return v.Id, l.Count, nil } } } return "", l.Count, fmt.Errorf("Could not find an exact match for %s: %+v", keyword, l) } // This is a courtesy helper function, which in some cases may not work as expected! func (s *NetworkService) GetNetworkByName(name string, opts ...OptionFunc) (*Network, int, error) { id, count, err := s.GetNetworkID(name, opts...) if err != nil { return nil, count, err } r, count, err := s.GetNetworkByID(id, opts...) if err != nil { return nil, count, err } return r, count, nil } // This is a courtesy helper function, which in some cases may not work as expected! func (s *NetworkService) GetNetworkByID(id string, opts ...OptionFunc) (*Network, int, error) { p := &ListNetworksParams{} p.p = make(map[string]interface{}) p.p["id"] = id for _, fn := range append(s.cs.options, opts...) { if err := fn(s.cs, p); err != nil { return nil, -1, err } } l, err := s.ListNetworks(p) if err != nil { if strings.Contains(err.Error(), fmt.Sprintf( "Invalid parameter id value=%s due to incorrect long value format, "+ "or entity does not exist", id)) { return nil, 0, fmt.Errorf("No match found for %s: %+v", id, l) } return nil, -1, err } if l.Count == 0 { return nil, l.Count, fmt.Errorf("No match found for %s: %+v", id, l) } if l.Count == 1 { return l.Networks[0], l.Count, nil } return nil, l.Count, fmt.Errorf("There is more then one result for Network UUID: %s!", id) } // Lists all available networks. func (s *NetworkService) ListNetworks(p *ListNetworksParams) (*ListNetworksResponse, error) { resp, err := s.cs.newRequest("listNetworks", p.toURLValues()) if err != nil { return nil, err } var r ListNetworksResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListNetworksResponse struct { Count int `json:"count"` Networks []*Network `json:"network"` } type Network struct { Account string `json:"account"` Aclid string `json:"aclid"` Acltype string `json:"acltype"` Broadcastdomaintype string `json:"broadcastdomaintype"` Broadcasturi string `json:"broadcasturi"` Canusefordeploy bool `json:"canusefordeploy"` Cidr string `json:"cidr"` Displaynetwork bool `json:"displaynetwork"` Displaytext string `json:"displaytext"` Dns1 string `json:"dns1"` Dns2 string `json:"dns2"` Domain string `json:"domain"` Domainid string `json:"domainid"` Externalid string `json:"externalid"` Gateway string `json:"gateway"` Id string `json:"id"` Ip6cidr string `json:"ip6cidr"` Ip6gateway string `json:"ip6gateway"` Isdefault bool `json:"isdefault"` Ispersistent bool `json:"ispersistent"` Issystem bool `json:"issystem"` Name string `json:"name"` Netmask string `json:"netmask"` Networkcidr string `json:"networkcidr"` Networkdomain string `json:"networkdomain"` Networkofferingavailability string `json:"networkofferingavailability"` Networkofferingconservemode bool `json:"networkofferingconservemode"` Networkofferingdisplaytext string `json:"networkofferingdisplaytext"` Networkofferingid string `json:"networkofferingid"` Networkofferingname string `json:"networkofferingname"` Physicalnetworkid string `json:"physicalnetworkid"` Project string `json:"project"` Projectid string `json:"projectid"` Redundantrouter bool `json:"redundantrouter"` Related string `json:"related"` Reservediprange string `json:"reservediprange"` Restartrequired bool `json:"restartrequired"` Service []NetworkServiceInternal `json:"service"` Specifyipranges bool `json:"specifyipranges"` State string `json:"state"` Strechedl2subnet bool `json:"strechedl2subnet"` Subdomainaccess bool `json:"subdomainaccess"` Tags []Tags `json:"tags"` Traffictype string `json:"traffictype"` Type string `json:"type"` Vlan string `json:"vlan"` Vpcid string `json:"vpcid"` Zoneid string `json:"zoneid"` Zonename string `json:"zonename"` Zonesnetworkspans []interface{} `json:"zonesnetworkspans"` } type NetworkServiceInternal struct { Capability []NetworkServiceInternalCapability `json:"capability"` Name string `json:"name"` Provider []NetworkServiceInternalProvider `json:"provider"` } type NetworkServiceInternalProvider struct { Canenableindividualservice bool `json:"canenableindividualservice"` Destinationphysicalnetworkid string `json:"destinationphysicalnetworkid"` Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Servicelist []string `json:"servicelist"` State string `json:"state"` } type NetworkServiceInternalCapability struct { Canchooseservicecapability bool `json:"canchooseservicecapability"` Name string `json:"name"` Value string `json:"value"` } type ListNiciraNvpDeviceNetworksParams struct { p map[string]interface{} } func (p *ListNiciraNvpDeviceNetworksParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["keyword"]; found { u.Set("keyword", v.(string)) } if v, found := p.p["nvpdeviceid"]; found { u.Set("nvpdeviceid", v.(string)) } if v, found := p.p["page"]; found { vv := strconv.Itoa(v.(int)) u.Set("page", vv) } if v, found := p.p["pagesize"]; found { vv := strconv.Itoa(v.(int)) u.Set("pagesize", vv) } return u } func (p *ListNiciraNvpDeviceNetworksParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListNiciraNvpDeviceNetworksParams) SetNvpdeviceid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["nvpdeviceid"] = v return } func (p *ListNiciraNvpDeviceNetworksParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListNiciraNvpDeviceNetworksParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } // You should always use this function to get a new ListNiciraNvpDeviceNetworksParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewListNiciraNvpDeviceNetworksParams(nvpdeviceid string) *ListNiciraNvpDeviceNetworksParams { p := &ListNiciraNvpDeviceNetworksParams{} p.p = make(map[string]interface{}) p.p["nvpdeviceid"] = nvpdeviceid return p } // This is a courtesy helper function, which in some cases may not work as expected! func (s *NetworkService) GetNiciraNvpDeviceNetworkID(keyword string, nvpdeviceid string, opts ...OptionFunc) (string, int, error) { p := &ListNiciraNvpDeviceNetworksParams{} p.p = make(map[string]interface{}) p.p["keyword"] = keyword p.p["nvpdeviceid"] = nvpdeviceid for _, fn := range append(s.cs.options, opts...) { if err := fn(s.cs, p); err != nil { return "", -1, err } } l, err := s.ListNiciraNvpDeviceNetworks(p) if err != nil { return "", -1, err } if l.Count == 0 { return "", l.Count, fmt.Errorf("No match found for %s: %+v", keyword, l) } if l.Count == 1 { return l.NiciraNvpDeviceNetworks[0].Id, l.Count, nil } if l.Count > 1 { for _, v := range l.NiciraNvpDeviceNetworks { if v.Name == keyword { return v.Id, l.Count, nil } } } return "", l.Count, fmt.Errorf("Could not find an exact match for %s: %+v", keyword, l) } // lists network that are using a nicira nvp device func (s *NetworkService) ListNiciraNvpDeviceNetworks(p *ListNiciraNvpDeviceNetworksParams) (*ListNiciraNvpDeviceNetworksResponse, error) { resp, err := s.cs.newRequest("listNiciraNvpDeviceNetworks", p.toURLValues()) if err != nil { return nil, err } var r ListNiciraNvpDeviceNetworksResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListNiciraNvpDeviceNetworksResponse struct { Count int `json:"count"` NiciraNvpDeviceNetworks []*NiciraNvpDeviceNetwork `json:"niciranvpdevicenetwork"` } type NiciraNvpDeviceNetwork struct { Account string `json:"account"` Aclid string `json:"aclid"` Acltype string `json:"acltype"` Broadcastdomaintype string `json:"broadcastdomaintype"` Broadcasturi string `json:"broadcasturi"` Canusefordeploy bool `json:"canusefordeploy"` Cidr string `json:"cidr"` Displaynetwork bool `json:"displaynetwork"` Displaytext string `json:"displaytext"` Dns1 string `json:"dns1"` Dns2 string `json:"dns2"` Domain string `json:"domain"` Domainid string `json:"domainid"` Externalid string `json:"externalid"` Gateway string `json:"gateway"` Id string `json:"id"` Ip6cidr string `json:"ip6cidr"` Ip6gateway string `json:"ip6gateway"` Isdefault bool `json:"isdefault"` Ispersistent bool `json:"ispersistent"` Issystem bool `json:"issystem"` Name string `json:"name"` Netmask string `json:"netmask"` Networkcidr string `json:"networkcidr"` Networkdomain string `json:"networkdomain"` Networkofferingavailability string `json:"networkofferingavailability"` Networkofferingconservemode bool `json:"networkofferingconservemode"` Networkofferingdisplaytext string `json:"networkofferingdisplaytext"` Networkofferingid string `json:"networkofferingid"` Networkofferingname string `json:"networkofferingname"` Physicalnetworkid string `json:"physicalnetworkid"` Project string `json:"project"` Projectid string `json:"projectid"` Redundantrouter bool `json:"redundantrouter"` Related string `json:"related"` Reservediprange string `json:"reservediprange"` Restartrequired bool `json:"restartrequired"` Service []NiciraNvpDeviceNetworkService `json:"service"` Specifyipranges bool `json:"specifyipranges"` State string `json:"state"` Strechedl2subnet bool `json:"strechedl2subnet"` Subdomainaccess bool `json:"subdomainaccess"` Tags []Tags `json:"tags"` Traffictype string `json:"traffictype"` Type string `json:"type"` Vlan string `json:"vlan"` Vpcid string `json:"vpcid"` Zoneid string `json:"zoneid"` Zonename string `json:"zonename"` Zonesnetworkspans []interface{} `json:"zonesnetworkspans"` } type NiciraNvpDeviceNetworkService struct { Capability []NiciraNvpDeviceNetworkServiceCapability `json:"capability"` Name string `json:"name"` Provider []NiciraNvpDeviceNetworkServiceProvider `json:"provider"` } type NiciraNvpDeviceNetworkServiceProvider struct { Canenableindividualservice bool `json:"canenableindividualservice"` Destinationphysicalnetworkid string `json:"destinationphysicalnetworkid"` Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Servicelist []string `json:"servicelist"` State string `json:"state"` } type NiciraNvpDeviceNetworkServiceCapability struct { Canchooseservicecapability bool `json:"canchooseservicecapability"` Name string `json:"name"` Value string `json:"value"` } type ListOpenDaylightControllersParams struct { p map[string]interface{} } func (p *ListOpenDaylightControllersParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["physicalnetworkid"]; found { u.Set("physicalnetworkid", v.(string)) } return u } func (p *ListOpenDaylightControllersParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *ListOpenDaylightControllersParams) SetPhysicalnetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["physicalnetworkid"] = v return } // You should always use this function to get a new ListOpenDaylightControllersParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewListOpenDaylightControllersParams() *ListOpenDaylightControllersParams { p := &ListOpenDaylightControllersParams{} p.p = make(map[string]interface{}) return p } // This is a courtesy helper function, which in some cases may not work as expected! func (s *NetworkService) GetOpenDaylightControllerByID(id string, opts ...OptionFunc) (*OpenDaylightController, int, error) { p := &ListOpenDaylightControllersParams{} p.p = make(map[string]interface{}) p.p["id"] = id for _, fn := range append(s.cs.options, opts...) { if err := fn(s.cs, p); err != nil { return nil, -1, err } } l, err := s.ListOpenDaylightControllers(p) if err != nil { if strings.Contains(err.Error(), fmt.Sprintf( "Invalid parameter id value=%s due to incorrect long value format, "+ "or entity does not exist", id)) { return nil, 0, fmt.Errorf("No match found for %s: %+v", id, l) } return nil, -1, err } if l.Count == 0 { return nil, l.Count, fmt.Errorf("No match found for %s: %+v", id, l) } if l.Count == 1 { return l.OpenDaylightControllers[0], l.Count, nil } return nil, l.Count, fmt.Errorf("There is more then one result for OpenDaylightController UUID: %s!", id) } // Lists OpenDyalight controllers func (s *NetworkService) ListOpenDaylightControllers(p *ListOpenDaylightControllersParams) (*ListOpenDaylightControllersResponse, error) { resp, err := s.cs.newRequest("listOpenDaylightControllers", p.toURLValues()) if err != nil { return nil, err } var r ListOpenDaylightControllersResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListOpenDaylightControllersResponse struct { Count int `json:"count"` OpenDaylightControllers []*OpenDaylightController `json:"opendaylightcontroller"` } type OpenDaylightController struct { Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Url string `json:"url"` Username string `json:"username"` } type ListPaloAltoFirewallNetworksParams struct { p map[string]interface{} } func (p *ListPaloAltoFirewallNetworksParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["keyword"]; found { u.Set("keyword", v.(string)) } if v, found := p.p["lbdeviceid"]; found { u.Set("lbdeviceid", v.(string)) } if v, found := p.p["page"]; found { vv := strconv.Itoa(v.(int)) u.Set("page", vv) } if v, found := p.p["pagesize"]; found { vv := strconv.Itoa(v.(int)) u.Set("pagesize", vv) } return u } func (p *ListPaloAltoFirewallNetworksParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListPaloAltoFirewallNetworksParams) SetLbdeviceid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["lbdeviceid"] = v return } func (p *ListPaloAltoFirewallNetworksParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListPaloAltoFirewallNetworksParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } // You should always use this function to get a new ListPaloAltoFirewallNetworksParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewListPaloAltoFirewallNetworksParams(lbdeviceid string) *ListPaloAltoFirewallNetworksParams { p := &ListPaloAltoFirewallNetworksParams{} p.p = make(map[string]interface{}) p.p["lbdeviceid"] = lbdeviceid return p } // This is a courtesy helper function, which in some cases may not work as expected! func (s *NetworkService) GetPaloAltoFirewallNetworkID(keyword string, lbdeviceid string, opts ...OptionFunc) (string, int, error) { p := &ListPaloAltoFirewallNetworksParams{} p.p = make(map[string]interface{}) p.p["keyword"] = keyword p.p["lbdeviceid"] = lbdeviceid for _, fn := range append(s.cs.options, opts...) { if err := fn(s.cs, p); err != nil { return "", -1, err } } l, err := s.ListPaloAltoFirewallNetworks(p) if err != nil { return "", -1, err } if l.Count == 0 { return "", l.Count, fmt.Errorf("No match found for %s: %+v", keyword, l) } if l.Count == 1 { return l.PaloAltoFirewallNetworks[0].Id, l.Count, nil } if l.Count > 1 { for _, v := range l.PaloAltoFirewallNetworks { if v.Name == keyword { return v.Id, l.Count, nil } } } return "", l.Count, fmt.Errorf("Could not find an exact match for %s: %+v", keyword, l) } // lists network that are using Palo Alto firewall device func (s *NetworkService) ListPaloAltoFirewallNetworks(p *ListPaloAltoFirewallNetworksParams) (*ListPaloAltoFirewallNetworksResponse, error) { resp, err := s.cs.newRequest("listPaloAltoFirewallNetworks", p.toURLValues()) if err != nil { return nil, err } var r ListPaloAltoFirewallNetworksResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListPaloAltoFirewallNetworksResponse struct { Count int `json:"count"` PaloAltoFirewallNetworks []*PaloAltoFirewallNetwork `json:"paloaltofirewallnetwork"` } type PaloAltoFirewallNetwork struct { Account string `json:"account"` Aclid string `json:"aclid"` Acltype string `json:"acltype"` Broadcastdomaintype string `json:"broadcastdomaintype"` Broadcasturi string `json:"broadcasturi"` Canusefordeploy bool `json:"canusefordeploy"` Cidr string `json:"cidr"` Displaynetwork bool `json:"displaynetwork"` Displaytext string `json:"displaytext"` Dns1 string `json:"dns1"` Dns2 string `json:"dns2"` Domain string `json:"domain"` Domainid string `json:"domainid"` Externalid string `json:"externalid"` Gateway string `json:"gateway"` Id string `json:"id"` Ip6cidr string `json:"ip6cidr"` Ip6gateway string `json:"ip6gateway"` Isdefault bool `json:"isdefault"` Ispersistent bool `json:"ispersistent"` Issystem bool `json:"issystem"` Name string `json:"name"` Netmask string `json:"netmask"` Networkcidr string `json:"networkcidr"` Networkdomain string `json:"networkdomain"` Networkofferingavailability string `json:"networkofferingavailability"` Networkofferingconservemode bool `json:"networkofferingconservemode"` Networkofferingdisplaytext string `json:"networkofferingdisplaytext"` Networkofferingid string `json:"networkofferingid"` Networkofferingname string `json:"networkofferingname"` Physicalnetworkid string `json:"physicalnetworkid"` Project string `json:"project"` Projectid string `json:"projectid"` Redundantrouter bool `json:"redundantrouter"` Related string `json:"related"` Reservediprange string `json:"reservediprange"` Restartrequired bool `json:"restartrequired"` Service []PaloAltoFirewallNetworkService `json:"service"` Specifyipranges bool `json:"specifyipranges"` State string `json:"state"` Strechedl2subnet bool `json:"strechedl2subnet"` Subdomainaccess bool `json:"subdomainaccess"` Tags []Tags `json:"tags"` Traffictype string `json:"traffictype"` Type string `json:"type"` Vlan string `json:"vlan"` Vpcid string `json:"vpcid"` Zoneid string `json:"zoneid"` Zonename string `json:"zonename"` Zonesnetworkspans []interface{} `json:"zonesnetworkspans"` } type PaloAltoFirewallNetworkService struct { Capability []PaloAltoFirewallNetworkServiceCapability `json:"capability"` Name string `json:"name"` Provider []PaloAltoFirewallNetworkServiceProvider `json:"provider"` } type PaloAltoFirewallNetworkServiceProvider struct { Canenableindividualservice bool `json:"canenableindividualservice"` Destinationphysicalnetworkid string `json:"destinationphysicalnetworkid"` Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Servicelist []string `json:"servicelist"` State string `json:"state"` } type PaloAltoFirewallNetworkServiceCapability struct { Canchooseservicecapability bool `json:"canchooseservicecapability"` Name string `json:"name"` Value string `json:"value"` } type ListPhysicalNetworksParams struct { p map[string]interface{} } func (p *ListPhysicalNetworksParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["keyword"]; found { u.Set("keyword", v.(string)) } if v, found := p.p["name"]; found { u.Set("name", v.(string)) } if v, found := p.p["page"]; found { vv := strconv.Itoa(v.(int)) u.Set("page", vv) } if v, found := p.p["pagesize"]; found { vv := strconv.Itoa(v.(int)) u.Set("pagesize", vv) } if v, found := p.p["zoneid"]; found { u.Set("zoneid", v.(string)) } return u } func (p *ListPhysicalNetworksParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *ListPhysicalNetworksParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListPhysicalNetworksParams) SetName(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["name"] = v return } func (p *ListPhysicalNetworksParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListPhysicalNetworksParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } func (p *ListPhysicalNetworksParams) SetZoneid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["zoneid"] = v return } // You should always use this function to get a new ListPhysicalNetworksParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewListPhysicalNetworksParams() *ListPhysicalNetworksParams { p := &ListPhysicalNetworksParams{} p.p = make(map[string]interface{}) return p } // This is a courtesy helper function, which in some cases may not work as expected! func (s *NetworkService) GetPhysicalNetworkID(name string, opts ...OptionFunc) (string, int, error) { p := &ListPhysicalNetworksParams{} p.p = make(map[string]interface{}) p.p["name"] = name for _, fn := range append(s.cs.options, opts...) { if err := fn(s.cs, p); err != nil { return "", -1, err } } l, err := s.ListPhysicalNetworks(p) if err != nil { return "", -1, err } if l.Count == 0 { return "", l.Count, fmt.Errorf("No match found for %s: %+v", name, l) } if l.Count == 1 { return l.PhysicalNetworks[0].Id, l.Count, nil } if l.Count > 1 { for _, v := range l.PhysicalNetworks { if v.Name == name { return v.Id, l.Count, nil } } } return "", l.Count, fmt.Errorf("Could not find an exact match for %s: %+v", name, l) } // This is a courtesy helper function, which in some cases may not work as expected! func (s *NetworkService) GetPhysicalNetworkByName(name string, opts ...OptionFunc) (*PhysicalNetwork, int, error) { id, count, err := s.GetPhysicalNetworkID(name, opts...) if err != nil { return nil, count, err } r, count, err := s.GetPhysicalNetworkByID(id, opts...) if err != nil { return nil, count, err } return r, count, nil } // This is a courtesy helper function, which in some cases may not work as expected! func (s *NetworkService) GetPhysicalNetworkByID(id string, opts ...OptionFunc) (*PhysicalNetwork, int, error) { p := &ListPhysicalNetworksParams{} p.p = make(map[string]interface{}) p.p["id"] = id for _, fn := range append(s.cs.options, opts...) { if err := fn(s.cs, p); err != nil { return nil, -1, err } } l, err := s.ListPhysicalNetworks(p) if err != nil { if strings.Contains(err.Error(), fmt.Sprintf( "Invalid parameter id value=%s due to incorrect long value format, "+ "or entity does not exist", id)) { return nil, 0, fmt.Errorf("No match found for %s: %+v", id, l) } return nil, -1, err } if l.Count == 0 { return nil, l.Count, fmt.Errorf("No match found for %s: %+v", id, l) } if l.Count == 1 { return l.PhysicalNetworks[0], l.Count, nil } return nil, l.Count, fmt.Errorf("There is more then one result for PhysicalNetwork UUID: %s!", id) } // Lists physical networks func (s *NetworkService) ListPhysicalNetworks(p *ListPhysicalNetworksParams) (*ListPhysicalNetworksResponse, error) { resp, err := s.cs.newRequest("listPhysicalNetworks", p.toURLValues()) if err != nil { return nil, err } var r ListPhysicalNetworksResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListPhysicalNetworksResponse struct { Count int `json:"count"` PhysicalNetworks []*PhysicalNetwork `json:"physicalnetwork"` } type PhysicalNetwork struct { Broadcastdomainrange string `json:"broadcastdomainrange"` Domainid string `json:"domainid"` Id string `json:"id"` Isolationmethods string `json:"isolationmethods"` Name string `json:"name"` Networkspeed string `json:"networkspeed"` State string `json:"state"` Tags string `json:"tags"` Vlan string `json:"vlan"` Zoneid string `json:"zoneid"` } type ListStorageNetworkIpRangeParams struct { p map[string]interface{} } func (p *ListStorageNetworkIpRangeParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["keyword"]; found { u.Set("keyword", v.(string)) } if v, found := p.p["page"]; found { vv := strconv.Itoa(v.(int)) u.Set("page", vv) } if v, found := p.p["pagesize"]; found { vv := strconv.Itoa(v.(int)) u.Set("pagesize", vv) } if v, found := p.p["podid"]; found { u.Set("podid", v.(string)) } if v, found := p.p["zoneid"]; found { u.Set("zoneid", v.(string)) } return u } func (p *ListStorageNetworkIpRangeParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *ListStorageNetworkIpRangeParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListStorageNetworkIpRangeParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListStorageNetworkIpRangeParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } func (p *ListStorageNetworkIpRangeParams) SetPodid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["podid"] = v return } func (p *ListStorageNetworkIpRangeParams) SetZoneid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["zoneid"] = v return } // You should always use this function to get a new ListStorageNetworkIpRangeParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewListStorageNetworkIpRangeParams() *ListStorageNetworkIpRangeParams { p := &ListStorageNetworkIpRangeParams{} p.p = make(map[string]interface{}) return p } // This is a courtesy helper function, which in some cases may not work as expected! func (s *NetworkService) GetStorageNetworkIpRangeByID(id string, opts ...OptionFunc) (*StorageNetworkIpRange, int, error) { p := &ListStorageNetworkIpRangeParams{} p.p = make(map[string]interface{}) p.p["id"] = id for _, fn := range append(s.cs.options, opts...) { if err := fn(s.cs, p); err != nil { return nil, -1, err } } l, err := s.ListStorageNetworkIpRange(p) if err != nil { if strings.Contains(err.Error(), fmt.Sprintf( "Invalid parameter id value=%s due to incorrect long value format, "+ "or entity does not exist", id)) { return nil, 0, fmt.Errorf("No match found for %s: %+v", id, l) } return nil, -1, err } if l.Count == 0 { return nil, l.Count, fmt.Errorf("No match found for %s: %+v", id, l) } if l.Count == 1 { return l.StorageNetworkIpRange[0], l.Count, nil } return nil, l.Count, fmt.Errorf("There is more then one result for StorageNetworkIpRange UUID: %s!", id) } // List a storage network IP range. func (s *NetworkService) ListStorageNetworkIpRange(p *ListStorageNetworkIpRangeParams) (*ListStorageNetworkIpRangeResponse, error) { resp, err := s.cs.newRequest("listStorageNetworkIpRange", p.toURLValues()) if err != nil { return nil, err } var r ListStorageNetworkIpRangeResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListStorageNetworkIpRangeResponse struct { Count int `json:"count"` StorageNetworkIpRange []*StorageNetworkIpRange `json:"storagenetworkiprange"` } type StorageNetworkIpRange struct { Endip string `json:"endip"` Gateway string `json:"gateway"` Id string `json:"id"` Netmask string `json:"netmask"` Networkid string `json:"networkid"` Podid string `json:"podid"` Startip string `json:"startip"` Vlan int `json:"vlan"` Zoneid string `json:"zoneid"` } type ListSupportedNetworkServicesParams struct { p map[string]interface{} } func (p *ListSupportedNetworkServicesParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["keyword"]; found { u.Set("keyword", v.(string)) } if v, found := p.p["page"]; found { vv := strconv.Itoa(v.(int)) u.Set("page", vv) } if v, found := p.p["pagesize"]; found { vv := strconv.Itoa(v.(int)) u.Set("pagesize", vv) } if v, found := p.p["provider"]; found { u.Set("provider", v.(string)) } if v, found := p.p["service"]; found { u.Set("service", v.(string)) } return u } func (p *ListSupportedNetworkServicesParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListSupportedNetworkServicesParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListSupportedNetworkServicesParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } func (p *ListSupportedNetworkServicesParams) SetProvider(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["provider"] = v return } func (p *ListSupportedNetworkServicesParams) SetService(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["service"] = v return } // You should always use this function to get a new ListSupportedNetworkServicesParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewListSupportedNetworkServicesParams() *ListSupportedNetworkServicesParams { p := &ListSupportedNetworkServicesParams{} p.p = make(map[string]interface{}) return p } // Lists all network services provided by CloudStack or for the given Provider. func (s *NetworkService) ListSupportedNetworkServices(p *ListSupportedNetworkServicesParams) (*ListSupportedNetworkServicesResponse, error) { resp, err := s.cs.newRequest("listSupportedNetworkServices", p.toURLValues()) if err != nil { return nil, err } var r ListSupportedNetworkServicesResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListSupportedNetworkServicesResponse struct { Count int `json:"count"` SupportedNetworkServices []*SupportedNetworkService `json:"supportednetworkservice"` } type SupportedNetworkService struct { Capability []SupportedNetworkServiceCapability `json:"capability"` Name string `json:"name"` Provider []SupportedNetworkServiceProvider `json:"provider"` } type SupportedNetworkServiceProvider struct { Canenableindividualservice bool `json:"canenableindividualservice"` Destinationphysicalnetworkid string `json:"destinationphysicalnetworkid"` Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Servicelist []string `json:"servicelist"` State string `json:"state"` } type SupportedNetworkServiceCapability struct { Canchooseservicecapability bool `json:"canchooseservicecapability"` Name string `json:"name"` Value string `json:"value"` } type ReleasePublicIpRangeParams struct { p map[string]interface{} } func (p *ReleasePublicIpRangeParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } return u } func (p *ReleasePublicIpRangeParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } // You should always use this function to get a new ReleasePublicIpRangeParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewReleasePublicIpRangeParams(id string) *ReleasePublicIpRangeParams { p := &ReleasePublicIpRangeParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Releases a Public IP range back to the system pool func (s *NetworkService) ReleasePublicIpRange(p *ReleasePublicIpRangeParams) (*ReleasePublicIpRangeResponse, error) { resp, err := s.cs.newRequest("releasePublicIpRange", p.toURLValues()) if err != nil { return nil, err } var r ReleasePublicIpRangeResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ReleasePublicIpRangeResponse struct { Displaytext string `json:"displaytext"` Success bool `json:"success"` } func (r *ReleasePublicIpRangeResponse) UnmarshalJSON(b []byte) error { var m map[string]interface{} err := json.Unmarshal(b, &m) if err != nil { return err } if success, ok := m["success"].(string); ok { m["success"] = success == "true" b, err = json.Marshal(m) if err != nil { return err } } type alias ReleasePublicIpRangeResponse return json.Unmarshal(b, (*alias)(r)) } type RestartNetworkParams struct { p map[string]interface{} } func (p *RestartNetworkParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["cleanup"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("cleanup", vv) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["makeredundant"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("makeredundant", vv) } return u } func (p *RestartNetworkParams) SetCleanup(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["cleanup"] = v return } func (p *RestartNetworkParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *RestartNetworkParams) SetMakeredundant(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["makeredundant"] = v return } // You should always use this function to get a new RestartNetworkParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewRestartNetworkParams(id string) *RestartNetworkParams { p := &RestartNetworkParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Restarts the network; includes 1) restarting network elements - virtual routers, DHCP servers 2) reapplying all public IPs 3) reapplying loadBalancing/portForwarding rules func (s *NetworkService) RestartNetwork(p *RestartNetworkParams) (*RestartNetworkResponse, error) { resp, err := s.cs.newRequest("restartNetwork", p.toURLValues()) if err != nil { return nil, err } var r RestartNetworkResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } b, err = getRawValue(b) if err != nil { return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type RestartNetworkResponse struct { JobID string `json:"jobid"` Account string `json:"account"` Allocated string `json:"allocated"` Associatednetworkid string `json:"associatednetworkid"` Associatednetworkname string `json:"associatednetworkname"` Domain string `json:"domain"` Domainid string `json:"domainid"` Fordisplay bool `json:"fordisplay"` Forvirtualnetwork bool `json:"forvirtualnetwork"` Id string `json:"id"` Ipaddress string `json:"ipaddress"` Isportable bool `json:"isportable"` Issourcenat bool `json:"issourcenat"` Isstaticnat bool `json:"isstaticnat"` Issystem bool `json:"issystem"` Networkid string `json:"networkid"` Physicalnetworkid string `json:"physicalnetworkid"` Project string `json:"project"` Projectid string `json:"projectid"` Purpose string `json:"purpose"` State string `json:"state"` Tags []Tags `json:"tags"` Virtualmachinedisplayname string `json:"virtualmachinedisplayname"` Virtualmachineid string `json:"virtualmachineid"` Virtualmachinename string `json:"virtualmachinename"` Vlanid string `json:"vlanid"` Vlanname string `json:"vlanname"` Vmipaddress string `json:"vmipaddress"` Vpcid string `json:"vpcid"` Zoneid string `json:"zoneid"` Zonename string `json:"zonename"` } type UpdateNetworkParams struct { p map[string]interface{} } func (p *UpdateNetworkParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["changecidr"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("changecidr", vv) } if v, found := p.p["customid"]; found { u.Set("customid", v.(string)) } if v, found := p.p["displaynetwork"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("displaynetwork", vv) } if v, found := p.p["displaytext"]; found { u.Set("displaytext", v.(string)) } if v, found := p.p["forced"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("forced", vv) } if v, found := p.p["guestvmcidr"]; found { u.Set("guestvmcidr", v.(string)) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["name"]; found { u.Set("name", v.(string)) } if v, found := p.p["networkdomain"]; found { u.Set("networkdomain", v.(string)) } if v, found := p.p["networkofferingid"]; found { u.Set("networkofferingid", v.(string)) } if v, found := p.p["updateinsequence"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("updateinsequence", vv) } return u } func (p *UpdateNetworkParams) SetChangecidr(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["changecidr"] = v return } func (p *UpdateNetworkParams) SetCustomid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["customid"] = v return } func (p *UpdateNetworkParams) SetDisplaynetwork(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["displaynetwork"] = v return } func (p *UpdateNetworkParams) SetDisplaytext(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["displaytext"] = v return } func (p *UpdateNetworkParams) SetForced(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["forced"] = v return } func (p *UpdateNetworkParams) SetGuestvmcidr(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["guestvmcidr"] = v return } func (p *UpdateNetworkParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *UpdateNetworkParams) SetName(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["name"] = v return } func (p *UpdateNetworkParams) SetNetworkdomain(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["networkdomain"] = v return } func (p *UpdateNetworkParams) SetNetworkofferingid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["networkofferingid"] = v return } func (p *UpdateNetworkParams) SetUpdateinsequence(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["updateinsequence"] = v return } // You should always use this function to get a new UpdateNetworkParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewUpdateNetworkParams(id string) *UpdateNetworkParams { p := &UpdateNetworkParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Updates a network func (s *NetworkService) UpdateNetwork(p *UpdateNetworkParams) (*UpdateNetworkResponse, error) { resp, err := s.cs.newRequest("updateNetwork", p.toURLValues()) if err != nil { return nil, err } var r UpdateNetworkResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } b, err = getRawValue(b) if err != nil { return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type UpdateNetworkResponse struct { JobID string `json:"jobid"` Account string `json:"account"` Aclid string `json:"aclid"` Acltype string `json:"acltype"` Broadcastdomaintype string `json:"broadcastdomaintype"` Broadcasturi string `json:"broadcasturi"` Canusefordeploy bool `json:"canusefordeploy"` Cidr string `json:"cidr"` Displaynetwork bool `json:"displaynetwork"` Displaytext string `json:"displaytext"` Dns1 string `json:"dns1"` Dns2 string `json:"dns2"` Domain string `json:"domain"` Domainid string `json:"domainid"` Externalid string `json:"externalid"` Gateway string `json:"gateway"` Id string `json:"id"` Ip6cidr string `json:"ip6cidr"` Ip6gateway string `json:"ip6gateway"` Isdefault bool `json:"isdefault"` Ispersistent bool `json:"ispersistent"` Issystem bool `json:"issystem"` Name string `json:"name"` Netmask string `json:"netmask"` Networkcidr string `json:"networkcidr"` Networkdomain string `json:"networkdomain"` Networkofferingavailability string `json:"networkofferingavailability"` Networkofferingconservemode bool `json:"networkofferingconservemode"` Networkofferingdisplaytext string `json:"networkofferingdisplaytext"` Networkofferingid string `json:"networkofferingid"` Networkofferingname string `json:"networkofferingname"` Physicalnetworkid string `json:"physicalnetworkid"` Project string `json:"project"` Projectid string `json:"projectid"` Redundantrouter bool `json:"redundantrouter"` Related string `json:"related"` Reservediprange string `json:"reservediprange"` Restartrequired bool `json:"restartrequired"` Service []UpdateNetworkResponseService `json:"service"` Specifyipranges bool `json:"specifyipranges"` State string `json:"state"` Strechedl2subnet bool `json:"strechedl2subnet"` Subdomainaccess bool `json:"subdomainaccess"` Tags []Tags `json:"tags"` Traffictype string `json:"traffictype"` Type string `json:"type"` Vlan string `json:"vlan"` Vpcid string `json:"vpcid"` Zoneid string `json:"zoneid"` Zonename string `json:"zonename"` Zonesnetworkspans []interface{} `json:"zonesnetworkspans"` } type UpdateNetworkResponseService struct { Capability []UpdateNetworkResponseServiceCapability `json:"capability"` Name string `json:"name"` Provider []UpdateNetworkResponseServiceProvider `json:"provider"` } type UpdateNetworkResponseServiceProvider struct { Canenableindividualservice bool `json:"canenableindividualservice"` Destinationphysicalnetworkid string `json:"destinationphysicalnetworkid"` Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Servicelist []string `json:"servicelist"` State string `json:"state"` } type UpdateNetworkResponseServiceCapability struct { Canchooseservicecapability bool `json:"canchooseservicecapability"` Name string `json:"name"` Value string `json:"value"` } type UpdateNetworkServiceProviderParams struct { p map[string]interface{} } func (p *UpdateNetworkServiceProviderParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["servicelist"]; found { vv := strings.Join(v.([]string), ",") u.Set("servicelist", vv) } if v, found := p.p["state"]; found { u.Set("state", v.(string)) } return u } func (p *UpdateNetworkServiceProviderParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *UpdateNetworkServiceProviderParams) SetServicelist(v []string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["servicelist"] = v return } func (p *UpdateNetworkServiceProviderParams) SetState(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["state"] = v return } // You should always use this function to get a new UpdateNetworkServiceProviderParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewUpdateNetworkServiceProviderParams(id string) *UpdateNetworkServiceProviderParams { p := &UpdateNetworkServiceProviderParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Updates a network serviceProvider of a physical network func (s *NetworkService) UpdateNetworkServiceProvider(p *UpdateNetworkServiceProviderParams) (*UpdateNetworkServiceProviderResponse, error) { resp, err := s.cs.newRequest("updateNetworkServiceProvider", p.toURLValues()) if err != nil { return nil, err } var r UpdateNetworkServiceProviderResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } b, err = getRawValue(b) if err != nil { return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type UpdateNetworkServiceProviderResponse struct { JobID string `json:"jobid"` Canenableindividualservice bool `json:"canenableindividualservice"` Destinationphysicalnetworkid string `json:"destinationphysicalnetworkid"` Id string `json:"id"` Name string `json:"name"` Physicalnetworkid string `json:"physicalnetworkid"` Servicelist []string `json:"servicelist"` State string `json:"state"` } type UpdatePhysicalNetworkParams struct { p map[string]interface{} } func (p *UpdatePhysicalNetworkParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["networkspeed"]; found { u.Set("networkspeed", v.(string)) } if v, found := p.p["state"]; found { u.Set("state", v.(string)) } if v, found := p.p["tags"]; found { vv := strings.Join(v.([]string), ",") u.Set("tags", vv) } if v, found := p.p["vlan"]; found { u.Set("vlan", v.(string)) } return u } func (p *UpdatePhysicalNetworkParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *UpdatePhysicalNetworkParams) SetNetworkspeed(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["networkspeed"] = v return } func (p *UpdatePhysicalNetworkParams) SetState(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["state"] = v return } func (p *UpdatePhysicalNetworkParams) SetTags(v []string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["tags"] = v return } func (p *UpdatePhysicalNetworkParams) SetVlan(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["vlan"] = v return } // You should always use this function to get a new UpdatePhysicalNetworkParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewUpdatePhysicalNetworkParams(id string) *UpdatePhysicalNetworkParams { p := &UpdatePhysicalNetworkParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Updates a physical network func (s *NetworkService) UpdatePhysicalNetwork(p *UpdatePhysicalNetworkParams) (*UpdatePhysicalNetworkResponse, error) { resp, err := s.cs.newRequest("updatePhysicalNetwork", p.toURLValues()) if err != nil { return nil, err } var r UpdatePhysicalNetworkResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } b, err = getRawValue(b) if err != nil { return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type UpdatePhysicalNetworkResponse struct { JobID string `json:"jobid"` Broadcastdomainrange string `json:"broadcastdomainrange"` Domainid string `json:"domainid"` Id string `json:"id"` Isolationmethods string `json:"isolationmethods"` Name string `json:"name"` Networkspeed string `json:"networkspeed"` State string `json:"state"` Tags string `json:"tags"` Vlan string `json:"vlan"` Zoneid string `json:"zoneid"` } type UpdateStorageNetworkIpRangeParams struct { p map[string]interface{} } func (p *UpdateStorageNetworkIpRangeParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["endip"]; found { u.Set("endip", v.(string)) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["netmask"]; found { u.Set("netmask", v.(string)) } if v, found := p.p["startip"]; found { u.Set("startip", v.(string)) } if v, found := p.p["vlan"]; found { vv := strconv.Itoa(v.(int)) u.Set("vlan", vv) } return u } func (p *UpdateStorageNetworkIpRangeParams) SetEndip(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["endip"] = v return } func (p *UpdateStorageNetworkIpRangeParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *UpdateStorageNetworkIpRangeParams) SetNetmask(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["netmask"] = v return } func (p *UpdateStorageNetworkIpRangeParams) SetStartip(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["startip"] = v return } func (p *UpdateStorageNetworkIpRangeParams) SetVlan(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["vlan"] = v return } // You should always use this function to get a new UpdateStorageNetworkIpRangeParams instance, // as then you are sure you have configured all required params func (s *NetworkService) NewUpdateStorageNetworkIpRangeParams(id string) *UpdateStorageNetworkIpRangeParams { p := &UpdateStorageNetworkIpRangeParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Update a Storage network IP range, only allowed when no IPs in this range have been allocated. func (s *NetworkService) UpdateStorageNetworkIpRange(p *UpdateStorageNetworkIpRangeParams) (*UpdateStorageNetworkIpRangeResponse, error) { resp, err := s.cs.newRequest("updateStorageNetworkIpRange", p.toURLValues()) if err != nil { return nil, err } var r UpdateStorageNetworkIpRangeResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } // If we have a async client, we need to wait for the async result if s.cs.async { b, err := s.cs.GetAsyncJobResult(r.JobID, s.cs.timeout) if err != nil { if err == AsyncTimeoutErr { return &r, err } return nil, err } b, err = getRawValue(b) if err != nil { return nil, err } if err := json.Unmarshal(b, &r); err != nil { return nil, err } } return &r, nil } type UpdateStorageNetworkIpRangeResponse struct { JobID string `json:"jobid"` Endip string `json:"endip"` Gateway string `json:"gateway"` Id string `json:"id"` Netmask string `json:"netmask"` Networkid string `json:"networkid"` Podid string `json:"podid"` Startip string `json:"startip"` Vlan int `json:"vlan"` Zoneid string `json:"zoneid"` }