// // Copyright 2014, 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 ListPortForwardingRulesParams struct { p map[string]interface{} } func (p *ListPortForwardingRulesParams) 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["fordisplay"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("fordisplay", vv) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["ipaddressid"]; found { u.Set("ipaddressid", v.(string)) } if v, found := p.p["isrecursive"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("isrecursive", 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["networkid"]; found { u.Set("networkid", 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["projectid"]; found { u.Set("projectid", v.(string)) } 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++ } } return u } func (p *ListPortForwardingRulesParams) SetAccount(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["account"] = v return } func (p *ListPortForwardingRulesParams) SetDomainid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["domainid"] = v return } func (p *ListPortForwardingRulesParams) SetFordisplay(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fordisplay"] = v return } func (p *ListPortForwardingRulesParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *ListPortForwardingRulesParams) SetIpaddressid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["ipaddressid"] = v return } func (p *ListPortForwardingRulesParams) SetIsrecursive(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["isrecursive"] = v return } func (p *ListPortForwardingRulesParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListPortForwardingRulesParams) SetListall(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["listall"] = v return } func (p *ListPortForwardingRulesParams) SetNetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["networkid"] = v return } func (p *ListPortForwardingRulesParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListPortForwardingRulesParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } func (p *ListPortForwardingRulesParams) SetProjectid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["projectid"] = v return } func (p *ListPortForwardingRulesParams) SetTags(v map[string]string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["tags"] = v return } // You should always use this function to get a new ListPortForwardingRulesParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewListPortForwardingRulesParams() *ListPortForwardingRulesParams { p := &ListPortForwardingRulesParams{} 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 *FirewallService) GetPortForwardingRuleByID(id string) (*PortForwardingRule, int, error) { p := &ListPortForwardingRulesParams{} p.p = make(map[string]interface{}) p.p["id"] = id l, err := s.ListPortForwardingRules(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 { // If no matches, search all projects p.p["projectid"] = "-1" l, err = s.ListPortForwardingRules(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.PortForwardingRules[0], l.Count, nil } return nil, l.Count, fmt.Errorf("There is more then one result for PortForwardingRule UUID: %s!", id) } // Lists all port forwarding rules for an IP address. func (s *FirewallService) ListPortForwardingRules(p *ListPortForwardingRulesParams) (*ListPortForwardingRulesResponse, error) { resp, err := s.cs.newRequest("listPortForwardingRules", p.toURLValues()) if err != nil { return nil, err } var r ListPortForwardingRulesResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListPortForwardingRulesResponse struct { Count int `json:"count"` PortForwardingRules []*PortForwardingRule `json:"portforwardingrule"` } type PortForwardingRule struct { Cidrlist string `json:"cidrlist,omitempty"` Fordisplay bool `json:"fordisplay,omitempty"` Id string `json:"id,omitempty"` Ipaddress string `json:"ipaddress,omitempty"` Ipaddressid string `json:"ipaddressid,omitempty"` Networkid string `json:"networkid,omitempty"` Privateendport string `json:"privateendport,omitempty"` Privateport string `json:"privateport,omitempty"` Protocol string `json:"protocol,omitempty"` Publicendport string `json:"publicendport,omitempty"` Publicport string `json:"publicport,omitempty"` State string `json:"state,omitempty"` Tags []struct { Account string `json:"account,omitempty"` Customer string `json:"customer,omitempty"` Domain string `json:"domain,omitempty"` Domainid string `json:"domainid,omitempty"` Key string `json:"key,omitempty"` Project string `json:"project,omitempty"` Projectid string `json:"projectid,omitempty"` Resourceid string `json:"resourceid,omitempty"` Resourcetype string `json:"resourcetype,omitempty"` Value string `json:"value,omitempty"` } `json:"tags,omitempty"` Virtualmachinedisplayname string `json:"virtualmachinedisplayname,omitempty"` Virtualmachineid string `json:"virtualmachineid,omitempty"` Virtualmachinename string `json:"virtualmachinename,omitempty"` Vmguestip string `json:"vmguestip,omitempty"` } type CreatePortForwardingRuleParams struct { p map[string]interface{} } func (p *CreatePortForwardingRuleParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["cidrlist"]; found { vv := strings.Join(v.([]string), ",") u.Set("cidrlist", vv) } if v, found := p.p["fordisplay"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("fordisplay", vv) } if v, found := p.p["ipaddressid"]; found { u.Set("ipaddressid", v.(string)) } if v, found := p.p["networkid"]; found { u.Set("networkid", v.(string)) } if v, found := p.p["openfirewall"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("openfirewall", vv) } if v, found := p.p["privateendport"]; found { vv := strconv.Itoa(v.(int)) u.Set("privateendport", vv) } if v, found := p.p["privateport"]; found { vv := strconv.Itoa(v.(int)) u.Set("privateport", vv) } if v, found := p.p["protocol"]; found { u.Set("protocol", v.(string)) } if v, found := p.p["publicendport"]; found { vv := strconv.Itoa(v.(int)) u.Set("publicendport", vv) } if v, found := p.p["publicport"]; found { vv := strconv.Itoa(v.(int)) u.Set("publicport", vv) } if v, found := p.p["virtualmachineid"]; found { u.Set("virtualmachineid", v.(string)) } if v, found := p.p["vmguestip"]; found { u.Set("vmguestip", v.(string)) } return u } func (p *CreatePortForwardingRuleParams) SetCidrlist(v []string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["cidrlist"] = v return } func (p *CreatePortForwardingRuleParams) SetFordisplay(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fordisplay"] = v return } func (p *CreatePortForwardingRuleParams) SetIpaddressid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["ipaddressid"] = v return } func (p *CreatePortForwardingRuleParams) SetNetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["networkid"] = v return } func (p *CreatePortForwardingRuleParams) SetOpenfirewall(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["openfirewall"] = v return } func (p *CreatePortForwardingRuleParams) SetPrivateendport(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["privateendport"] = v return } func (p *CreatePortForwardingRuleParams) SetPrivateport(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["privateport"] = v return } func (p *CreatePortForwardingRuleParams) SetProtocol(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["protocol"] = v return } func (p *CreatePortForwardingRuleParams) SetPublicendport(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["publicendport"] = v return } func (p *CreatePortForwardingRuleParams) SetPublicport(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["publicport"] = v return } func (p *CreatePortForwardingRuleParams) SetVirtualmachineid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["virtualmachineid"] = v return } func (p *CreatePortForwardingRuleParams) SetVmguestip(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["vmguestip"] = v return } // You should always use this function to get a new CreatePortForwardingRuleParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewCreatePortForwardingRuleParams(ipaddressid string, privateport int, protocol string, publicport int, virtualmachineid string) *CreatePortForwardingRuleParams { p := &CreatePortForwardingRuleParams{} p.p = make(map[string]interface{}) p.p["ipaddressid"] = ipaddressid p.p["privateport"] = privateport p.p["protocol"] = protocol p.p["publicport"] = publicport p.p["virtualmachineid"] = virtualmachineid return p } // Creates a port forwarding rule func (s *FirewallService) CreatePortForwardingRule(p *CreatePortForwardingRuleParams) (*CreatePortForwardingRuleResponse, error) { resp, err := s.cs.newRequest("createPortForwardingRule", p.toURLValues()) if err != nil { return nil, err } var r CreatePortForwardingRuleResponse 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 CreatePortForwardingRuleResponse struct { JobID string `json:"jobid,omitempty"` Cidrlist string `json:"cidrlist,omitempty"` Fordisplay bool `json:"fordisplay,omitempty"` Id string `json:"id,omitempty"` Ipaddress string `json:"ipaddress,omitempty"` Ipaddressid string `json:"ipaddressid,omitempty"` Networkid string `json:"networkid,omitempty"` Privateendport string `json:"privateendport,omitempty"` Privateport string `json:"privateport,omitempty"` Protocol string `json:"protocol,omitempty"` Publicendport string `json:"publicendport,omitempty"` Publicport string `json:"publicport,omitempty"` State string `json:"state,omitempty"` Tags []struct { Account string `json:"account,omitempty"` Customer string `json:"customer,omitempty"` Domain string `json:"domain,omitempty"` Domainid string `json:"domainid,omitempty"` Key string `json:"key,omitempty"` Project string `json:"project,omitempty"` Projectid string `json:"projectid,omitempty"` Resourceid string `json:"resourceid,omitempty"` Resourcetype string `json:"resourcetype,omitempty"` Value string `json:"value,omitempty"` } `json:"tags,omitempty"` Virtualmachinedisplayname string `json:"virtualmachinedisplayname,omitempty"` Virtualmachineid string `json:"virtualmachineid,omitempty"` Virtualmachinename string `json:"virtualmachinename,omitempty"` Vmguestip string `json:"vmguestip,omitempty"` } type DeletePortForwardingRuleParams struct { p map[string]interface{} } func (p *DeletePortForwardingRuleParams) 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 *DeletePortForwardingRuleParams) 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 DeletePortForwardingRuleParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewDeletePortForwardingRuleParams(id string) *DeletePortForwardingRuleParams { p := &DeletePortForwardingRuleParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Deletes a port forwarding rule func (s *FirewallService) DeletePortForwardingRule(p *DeletePortForwardingRuleParams) (*DeletePortForwardingRuleResponse, error) { resp, err := s.cs.newRequest("deletePortForwardingRule", p.toURLValues()) if err != nil { return nil, err } var r DeletePortForwardingRuleResponse 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 DeletePortForwardingRuleResponse struct { JobID string `json:"jobid,omitempty"` Displaytext string `json:"displaytext,omitempty"` Success bool `json:"success,omitempty"` } type UpdatePortForwardingRuleParams struct { p map[string]interface{} } func (p *UpdatePortForwardingRuleParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["customid"]; found { u.Set("customid", v.(string)) } if v, found := p.p["fordisplay"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("fordisplay", vv) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["ipaddressid"]; found { u.Set("ipaddressid", v.(string)) } if v, found := p.p["privateip"]; found { u.Set("privateip", v.(string)) } if v, found := p.p["privateport"]; found { u.Set("privateport", v.(string)) } if v, found := p.p["protocol"]; found { u.Set("protocol", v.(string)) } if v, found := p.p["publicport"]; found { u.Set("publicport", v.(string)) } if v, found := p.p["virtualmachineid"]; found { u.Set("virtualmachineid", v.(string)) } return u } func (p *UpdatePortForwardingRuleParams) SetCustomid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["customid"] = v return } func (p *UpdatePortForwardingRuleParams) SetFordisplay(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fordisplay"] = v return } func (p *UpdatePortForwardingRuleParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *UpdatePortForwardingRuleParams) SetIpaddressid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["ipaddressid"] = v return } func (p *UpdatePortForwardingRuleParams) SetPrivateip(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["privateip"] = v return } func (p *UpdatePortForwardingRuleParams) SetPrivateport(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["privateport"] = v return } func (p *UpdatePortForwardingRuleParams) SetProtocol(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["protocol"] = v return } func (p *UpdatePortForwardingRuleParams) SetPublicport(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["publicport"] = v return } func (p *UpdatePortForwardingRuleParams) SetVirtualmachineid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["virtualmachineid"] = v return } // You should always use this function to get a new UpdatePortForwardingRuleParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewUpdatePortForwardingRuleParams(id string) *UpdatePortForwardingRuleParams { p := &UpdatePortForwardingRuleParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Updates a port forwarding rule. Only the private port and the virtual machine can be updated. func (s *FirewallService) UpdatePortForwardingRule(p *UpdatePortForwardingRuleParams) (*UpdatePortForwardingRuleResponse, error) { resp, err := s.cs.newRequest("updatePortForwardingRule", p.toURLValues()) if err != nil { return nil, err } var r UpdatePortForwardingRuleResponse 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 UpdatePortForwardingRuleResponse struct { JobID string `json:"jobid,omitempty"` Cidrlist string `json:"cidrlist,omitempty"` Fordisplay bool `json:"fordisplay,omitempty"` Id string `json:"id,omitempty"` Ipaddress string `json:"ipaddress,omitempty"` Ipaddressid string `json:"ipaddressid,omitempty"` Networkid string `json:"networkid,omitempty"` Privateendport string `json:"privateendport,omitempty"` Privateport string `json:"privateport,omitempty"` Protocol string `json:"protocol,omitempty"` Publicendport string `json:"publicendport,omitempty"` Publicport string `json:"publicport,omitempty"` State string `json:"state,omitempty"` Tags []struct { Account string `json:"account,omitempty"` Customer string `json:"customer,omitempty"` Domain string `json:"domain,omitempty"` Domainid string `json:"domainid,omitempty"` Key string `json:"key,omitempty"` Project string `json:"project,omitempty"` Projectid string `json:"projectid,omitempty"` Resourceid string `json:"resourceid,omitempty"` Resourcetype string `json:"resourcetype,omitempty"` Value string `json:"value,omitempty"` } `json:"tags,omitempty"` Virtualmachinedisplayname string `json:"virtualmachinedisplayname,omitempty"` Virtualmachineid string `json:"virtualmachineid,omitempty"` Virtualmachinename string `json:"virtualmachinename,omitempty"` Vmguestip string `json:"vmguestip,omitempty"` } type CreateFirewallRuleParams struct { p map[string]interface{} } func (p *CreateFirewallRuleParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["cidrlist"]; found { vv := strings.Join(v.([]string), ",") u.Set("cidrlist", vv) } if v, found := p.p["endport"]; found { vv := strconv.Itoa(v.(int)) u.Set("endport", vv) } if v, found := p.p["fordisplay"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("fordisplay", vv) } if v, found := p.p["icmpcode"]; found { vv := strconv.Itoa(v.(int)) u.Set("icmpcode", vv) } if v, found := p.p["icmptype"]; found { vv := strconv.Itoa(v.(int)) u.Set("icmptype", vv) } if v, found := p.p["ipaddressid"]; found { u.Set("ipaddressid", v.(string)) } if v, found := p.p["protocol"]; found { u.Set("protocol", v.(string)) } if v, found := p.p["startport"]; found { vv := strconv.Itoa(v.(int)) u.Set("startport", vv) } if v, found := p.p["type"]; found { u.Set("type", v.(string)) } return u } func (p *CreateFirewallRuleParams) SetCidrlist(v []string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["cidrlist"] = v return } func (p *CreateFirewallRuleParams) SetEndport(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["endport"] = v return } func (p *CreateFirewallRuleParams) SetFordisplay(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fordisplay"] = v return } func (p *CreateFirewallRuleParams) SetIcmpcode(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["icmpcode"] = v return } func (p *CreateFirewallRuleParams) SetIcmptype(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["icmptype"] = v return } func (p *CreateFirewallRuleParams) SetIpaddressid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["ipaddressid"] = v return } func (p *CreateFirewallRuleParams) SetProtocol(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["protocol"] = v return } func (p *CreateFirewallRuleParams) SetStartport(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["startport"] = v return } func (p *CreateFirewallRuleParams) SetType(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["firewallType"] = v return } // You should always use this function to get a new CreateFirewallRuleParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewCreateFirewallRuleParams(ipaddressid string, protocol string) *CreateFirewallRuleParams { p := &CreateFirewallRuleParams{} p.p = make(map[string]interface{}) p.p["ipaddressid"] = ipaddressid p.p["protocol"] = protocol return p } // Creates a firewall rule for a given ip address func (s *FirewallService) CreateFirewallRule(p *CreateFirewallRuleParams) (*CreateFirewallRuleResponse, error) { resp, err := s.cs.newRequest("createFirewallRule", p.toURLValues()) if err != nil { return nil, err } var r CreateFirewallRuleResponse 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 CreateFirewallRuleResponse struct { JobID string `json:"jobid,omitempty"` Cidrlist string `json:"cidrlist,omitempty"` Endport string `json:"endport,omitempty"` Fordisplay bool `json:"fordisplay,omitempty"` Icmpcode int `json:"icmpcode,omitempty"` Icmptype int `json:"icmptype,omitempty"` Id string `json:"id,omitempty"` Ipaddress string `json:"ipaddress,omitempty"` Ipaddressid string `json:"ipaddressid,omitempty"` Networkid string `json:"networkid,omitempty"` Protocol string `json:"protocol,omitempty"` Startport string `json:"startport,omitempty"` State string `json:"state,omitempty"` Tags []struct { Account string `json:"account,omitempty"` Customer string `json:"customer,omitempty"` Domain string `json:"domain,omitempty"` Domainid string `json:"domainid,omitempty"` Key string `json:"key,omitempty"` Project string `json:"project,omitempty"` Projectid string `json:"projectid,omitempty"` Resourceid string `json:"resourceid,omitempty"` Resourcetype string `json:"resourcetype,omitempty"` Value string `json:"value,omitempty"` } `json:"tags,omitempty"` } type DeleteFirewallRuleParams struct { p map[string]interface{} } func (p *DeleteFirewallRuleParams) 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 *DeleteFirewallRuleParams) 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 DeleteFirewallRuleParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewDeleteFirewallRuleParams(id string) *DeleteFirewallRuleParams { p := &DeleteFirewallRuleParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Deletes a firewall rule func (s *FirewallService) DeleteFirewallRule(p *DeleteFirewallRuleParams) (*DeleteFirewallRuleResponse, error) { resp, err := s.cs.newRequest("deleteFirewallRule", p.toURLValues()) if err != nil { return nil, err } var r DeleteFirewallRuleResponse 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 DeleteFirewallRuleResponse struct { JobID string `json:"jobid,omitempty"` Displaytext string `json:"displaytext,omitempty"` Success bool `json:"success,omitempty"` } type ListFirewallRulesParams struct { p map[string]interface{} } func (p *ListFirewallRulesParams) 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["fordisplay"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("fordisplay", vv) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["ipaddressid"]; found { u.Set("ipaddressid", v.(string)) } if v, found := p.p["isrecursive"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("isrecursive", 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["networkid"]; found { u.Set("networkid", 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["projectid"]; found { u.Set("projectid", v.(string)) } 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++ } } return u } func (p *ListFirewallRulesParams) SetAccount(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["account"] = v return } func (p *ListFirewallRulesParams) SetDomainid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["domainid"] = v return } func (p *ListFirewallRulesParams) SetFordisplay(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fordisplay"] = v return } func (p *ListFirewallRulesParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *ListFirewallRulesParams) SetIpaddressid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["ipaddressid"] = v return } func (p *ListFirewallRulesParams) SetIsrecursive(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["isrecursive"] = v return } func (p *ListFirewallRulesParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListFirewallRulesParams) SetListall(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["listall"] = v return } func (p *ListFirewallRulesParams) SetNetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["networkid"] = v return } func (p *ListFirewallRulesParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListFirewallRulesParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } func (p *ListFirewallRulesParams) SetProjectid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["projectid"] = v return } func (p *ListFirewallRulesParams) SetTags(v map[string]string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["tags"] = v return } // You should always use this function to get a new ListFirewallRulesParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewListFirewallRulesParams() *ListFirewallRulesParams { p := &ListFirewallRulesParams{} 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 *FirewallService) GetFirewallRuleByID(id string) (*FirewallRule, int, error) { p := &ListFirewallRulesParams{} p.p = make(map[string]interface{}) p.p["id"] = id l, err := s.ListFirewallRules(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 { // If no matches, search all projects p.p["projectid"] = "-1" l, err = s.ListFirewallRules(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.FirewallRules[0], l.Count, nil } return nil, l.Count, fmt.Errorf("There is more then one result for FirewallRule UUID: %s!", id) } // Lists all firewall rules for an IP address. func (s *FirewallService) ListFirewallRules(p *ListFirewallRulesParams) (*ListFirewallRulesResponse, error) { resp, err := s.cs.newRequest("listFirewallRules", p.toURLValues()) if err != nil { return nil, err } var r ListFirewallRulesResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListFirewallRulesResponse struct { Count int `json:"count"` FirewallRules []*FirewallRule `json:"firewallrule"` } type FirewallRule struct { Cidrlist string `json:"cidrlist,omitempty"` Endport string `json:"endport,omitempty"` Fordisplay bool `json:"fordisplay,omitempty"` Icmpcode int `json:"icmpcode,omitempty"` Icmptype int `json:"icmptype,omitempty"` Id string `json:"id,omitempty"` Ipaddress string `json:"ipaddress,omitempty"` Ipaddressid string `json:"ipaddressid,omitempty"` Networkid string `json:"networkid,omitempty"` Protocol string `json:"protocol,omitempty"` Startport string `json:"startport,omitempty"` State string `json:"state,omitempty"` Tags []struct { Account string `json:"account,omitempty"` Customer string `json:"customer,omitempty"` Domain string `json:"domain,omitempty"` Domainid string `json:"domainid,omitempty"` Key string `json:"key,omitempty"` Project string `json:"project,omitempty"` Projectid string `json:"projectid,omitempty"` Resourceid string `json:"resourceid,omitempty"` Resourcetype string `json:"resourcetype,omitempty"` Value string `json:"value,omitempty"` } `json:"tags,omitempty"` } type UpdateFirewallRuleParams struct { p map[string]interface{} } func (p *UpdateFirewallRuleParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["customid"]; found { u.Set("customid", v.(string)) } if v, found := p.p["fordisplay"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("fordisplay", vv) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } return u } func (p *UpdateFirewallRuleParams) SetCustomid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["customid"] = v return } func (p *UpdateFirewallRuleParams) SetFordisplay(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fordisplay"] = v return } func (p *UpdateFirewallRuleParams) 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 UpdateFirewallRuleParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewUpdateFirewallRuleParams(id string) *UpdateFirewallRuleParams { p := &UpdateFirewallRuleParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Updates firewall rule func (s *FirewallService) UpdateFirewallRule(p *UpdateFirewallRuleParams) (*UpdateFirewallRuleResponse, error) { resp, err := s.cs.newRequest("updateFirewallRule", p.toURLValues()) if err != nil { return nil, err } var r UpdateFirewallRuleResponse 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 UpdateFirewallRuleResponse struct { JobID string `json:"jobid,omitempty"` Cidrlist string `json:"cidrlist,omitempty"` Endport string `json:"endport,omitempty"` Fordisplay bool `json:"fordisplay,omitempty"` Icmpcode int `json:"icmpcode,omitempty"` Icmptype int `json:"icmptype,omitempty"` Id string `json:"id,omitempty"` Ipaddress string `json:"ipaddress,omitempty"` Ipaddressid string `json:"ipaddressid,omitempty"` Networkid string `json:"networkid,omitempty"` Protocol string `json:"protocol,omitempty"` Startport string `json:"startport,omitempty"` State string `json:"state,omitempty"` Tags []struct { Account string `json:"account,omitempty"` Customer string `json:"customer,omitempty"` Domain string `json:"domain,omitempty"` Domainid string `json:"domainid,omitempty"` Key string `json:"key,omitempty"` Project string `json:"project,omitempty"` Projectid string `json:"projectid,omitempty"` Resourceid string `json:"resourceid,omitempty"` Resourcetype string `json:"resourcetype,omitempty"` Value string `json:"value,omitempty"` } `json:"tags,omitempty"` } type CreateEgressFirewallRuleParams struct { p map[string]interface{} } func (p *CreateEgressFirewallRuleParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["cidrlist"]; found { vv := strings.Join(v.([]string), ",") u.Set("cidrlist", vv) } if v, found := p.p["endport"]; found { vv := strconv.Itoa(v.(int)) u.Set("endport", vv) } if v, found := p.p["fordisplay"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("fordisplay", vv) } if v, found := p.p["icmpcode"]; found { vv := strconv.Itoa(v.(int)) u.Set("icmpcode", vv) } if v, found := p.p["icmptype"]; found { vv := strconv.Itoa(v.(int)) u.Set("icmptype", vv) } if v, found := p.p["networkid"]; found { u.Set("networkid", v.(string)) } if v, found := p.p["protocol"]; found { u.Set("protocol", v.(string)) } if v, found := p.p["startport"]; found { vv := strconv.Itoa(v.(int)) u.Set("startport", vv) } if v, found := p.p["type"]; found { u.Set("type", v.(string)) } return u } func (p *CreateEgressFirewallRuleParams) SetCidrlist(v []string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["cidrlist"] = v return } func (p *CreateEgressFirewallRuleParams) SetEndport(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["endport"] = v return } func (p *CreateEgressFirewallRuleParams) SetFordisplay(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fordisplay"] = v return } func (p *CreateEgressFirewallRuleParams) SetIcmpcode(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["icmpcode"] = v return } func (p *CreateEgressFirewallRuleParams) SetIcmptype(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["icmptype"] = v return } func (p *CreateEgressFirewallRuleParams) SetNetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["networkid"] = v return } func (p *CreateEgressFirewallRuleParams) SetProtocol(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["protocol"] = v return } func (p *CreateEgressFirewallRuleParams) SetStartport(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["startport"] = v return } func (p *CreateEgressFirewallRuleParams) SetType(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["firewallType"] = v return } // You should always use this function to get a new CreateEgressFirewallRuleParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewCreateEgressFirewallRuleParams(networkid string, protocol string) *CreateEgressFirewallRuleParams { p := &CreateEgressFirewallRuleParams{} p.p = make(map[string]interface{}) p.p["networkid"] = networkid p.p["protocol"] = protocol return p } // Creates a egress firewall rule for a given network func (s *FirewallService) CreateEgressFirewallRule(p *CreateEgressFirewallRuleParams) (*CreateEgressFirewallRuleResponse, error) { resp, err := s.cs.newRequest("createEgressFirewallRule", p.toURLValues()) if err != nil { return nil, err } var r CreateEgressFirewallRuleResponse 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 CreateEgressFirewallRuleResponse struct { JobID string `json:"jobid,omitempty"` Cidrlist string `json:"cidrlist,omitempty"` Endport string `json:"endport,omitempty"` Fordisplay bool `json:"fordisplay,omitempty"` Icmpcode int `json:"icmpcode,omitempty"` Icmptype int `json:"icmptype,omitempty"` Id string `json:"id,omitempty"` Ipaddress string `json:"ipaddress,omitempty"` Ipaddressid string `json:"ipaddressid,omitempty"` Networkid string `json:"networkid,omitempty"` Protocol string `json:"protocol,omitempty"` Startport string `json:"startport,omitempty"` State string `json:"state,omitempty"` Tags []struct { Account string `json:"account,omitempty"` Customer string `json:"customer,omitempty"` Domain string `json:"domain,omitempty"` Domainid string `json:"domainid,omitempty"` Key string `json:"key,omitempty"` Project string `json:"project,omitempty"` Projectid string `json:"projectid,omitempty"` Resourceid string `json:"resourceid,omitempty"` Resourcetype string `json:"resourcetype,omitempty"` Value string `json:"value,omitempty"` } `json:"tags,omitempty"` } type DeleteEgressFirewallRuleParams struct { p map[string]interface{} } func (p *DeleteEgressFirewallRuleParams) 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 *DeleteEgressFirewallRuleParams) 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 DeleteEgressFirewallRuleParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewDeleteEgressFirewallRuleParams(id string) *DeleteEgressFirewallRuleParams { p := &DeleteEgressFirewallRuleParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Deletes an ggress firewall rule func (s *FirewallService) DeleteEgressFirewallRule(p *DeleteEgressFirewallRuleParams) (*DeleteEgressFirewallRuleResponse, error) { resp, err := s.cs.newRequest("deleteEgressFirewallRule", p.toURLValues()) if err != nil { return nil, err } var r DeleteEgressFirewallRuleResponse 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 DeleteEgressFirewallRuleResponse struct { JobID string `json:"jobid,omitempty"` Displaytext string `json:"displaytext,omitempty"` Success bool `json:"success,omitempty"` } type ListEgressFirewallRulesParams struct { p map[string]interface{} } func (p *ListEgressFirewallRulesParams) 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["fordisplay"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("fordisplay", vv) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } if v, found := p.p["ipaddressid"]; found { u.Set("ipaddressid", v.(string)) } if v, found := p.p["isrecursive"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("isrecursive", 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["networkid"]; found { u.Set("networkid", v.(string)) } if v, found := p.p["networkid"]; found { u.Set("networkid", 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["projectid"]; found { u.Set("projectid", v.(string)) } 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++ } } return u } func (p *ListEgressFirewallRulesParams) SetAccount(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["account"] = v return } func (p *ListEgressFirewallRulesParams) SetDomainid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["domainid"] = v return } func (p *ListEgressFirewallRulesParams) SetFordisplay(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fordisplay"] = v return } func (p *ListEgressFirewallRulesParams) SetId(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["id"] = v return } func (p *ListEgressFirewallRulesParams) SetIpaddressid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["ipaddressid"] = v return } func (p *ListEgressFirewallRulesParams) SetIsrecursive(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["isrecursive"] = v return } func (p *ListEgressFirewallRulesParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListEgressFirewallRulesParams) SetListall(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["listall"] = v return } func (p *ListEgressFirewallRulesParams) SetNetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["networkid"] = v return } func (p *ListEgressFirewallRulesParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListEgressFirewallRulesParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } func (p *ListEgressFirewallRulesParams) SetProjectid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["projectid"] = v return } func (p *ListEgressFirewallRulesParams) SetTags(v map[string]string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["tags"] = v return } // You should always use this function to get a new ListEgressFirewallRulesParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewListEgressFirewallRulesParams() *ListEgressFirewallRulesParams { p := &ListEgressFirewallRulesParams{} 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 *FirewallService) GetEgressFirewallRuleByID(id string) (*EgressFirewallRule, int, error) { p := &ListEgressFirewallRulesParams{} p.p = make(map[string]interface{}) p.p["id"] = id l, err := s.ListEgressFirewallRules(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 { // If no matches, search all projects p.p["projectid"] = "-1" l, err = s.ListEgressFirewallRules(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.EgressFirewallRules[0], l.Count, nil } return nil, l.Count, fmt.Errorf("There is more then one result for EgressFirewallRule UUID: %s!", id) } // Lists all egress firewall rules for network id. func (s *FirewallService) ListEgressFirewallRules(p *ListEgressFirewallRulesParams) (*ListEgressFirewallRulesResponse, error) { resp, err := s.cs.newRequest("listEgressFirewallRules", p.toURLValues()) if err != nil { return nil, err } var r ListEgressFirewallRulesResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListEgressFirewallRulesResponse struct { Count int `json:"count"` EgressFirewallRules []*EgressFirewallRule `json:"firewallrule"` } type EgressFirewallRule struct { Cidrlist string `json:"cidrlist,omitempty"` Endport string `json:"endport,omitempty"` Fordisplay bool `json:"fordisplay,omitempty"` Icmpcode int `json:"icmpcode,omitempty"` Icmptype int `json:"icmptype,omitempty"` Id string `json:"id,omitempty"` Ipaddress string `json:"ipaddress,omitempty"` Ipaddressid string `json:"ipaddressid,omitempty"` Networkid string `json:"networkid,omitempty"` Protocol string `json:"protocol,omitempty"` Startport string `json:"startport,omitempty"` State string `json:"state,omitempty"` Tags []struct { Account string `json:"account,omitempty"` Customer string `json:"customer,omitempty"` Domain string `json:"domain,omitempty"` Domainid string `json:"domainid,omitempty"` Key string `json:"key,omitempty"` Project string `json:"project,omitempty"` Projectid string `json:"projectid,omitempty"` Resourceid string `json:"resourceid,omitempty"` Resourcetype string `json:"resourcetype,omitempty"` Value string `json:"value,omitempty"` } `json:"tags,omitempty"` } type UpdateEgressFirewallRuleParams struct { p map[string]interface{} } func (p *UpdateEgressFirewallRuleParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["customid"]; found { u.Set("customid", v.(string)) } if v, found := p.p["fordisplay"]; found { vv := strconv.FormatBool(v.(bool)) u.Set("fordisplay", vv) } if v, found := p.p["id"]; found { u.Set("id", v.(string)) } return u } func (p *UpdateEgressFirewallRuleParams) SetCustomid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["customid"] = v return } func (p *UpdateEgressFirewallRuleParams) SetFordisplay(v bool) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fordisplay"] = v return } func (p *UpdateEgressFirewallRuleParams) 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 UpdateEgressFirewallRuleParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewUpdateEgressFirewallRuleParams(id string) *UpdateEgressFirewallRuleParams { p := &UpdateEgressFirewallRuleParams{} p.p = make(map[string]interface{}) p.p["id"] = id return p } // Updates egress firewall rule func (s *FirewallService) UpdateEgressFirewallRule(p *UpdateEgressFirewallRuleParams) (*UpdateEgressFirewallRuleResponse, error) { resp, err := s.cs.newRequest("updateEgressFirewallRule", p.toURLValues()) if err != nil { return nil, err } var r UpdateEgressFirewallRuleResponse 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 UpdateEgressFirewallRuleResponse struct { JobID string `json:"jobid,omitempty"` Cidrlist string `json:"cidrlist,omitempty"` Endport string `json:"endport,omitempty"` Fordisplay bool `json:"fordisplay,omitempty"` Icmpcode int `json:"icmpcode,omitempty"` Icmptype int `json:"icmptype,omitempty"` Id string `json:"id,omitempty"` Ipaddress string `json:"ipaddress,omitempty"` Ipaddressid string `json:"ipaddressid,omitempty"` Networkid string `json:"networkid,omitempty"` Protocol string `json:"protocol,omitempty"` Startport string `json:"startport,omitempty"` State string `json:"state,omitempty"` Tags []struct { Account string `json:"account,omitempty"` Customer string `json:"customer,omitempty"` Domain string `json:"domain,omitempty"` Domainid string `json:"domainid,omitempty"` Key string `json:"key,omitempty"` Project string `json:"project,omitempty"` Projectid string `json:"projectid,omitempty"` Resourceid string `json:"resourceid,omitempty"` Resourcetype string `json:"resourcetype,omitempty"` Value string `json:"value,omitempty"` } `json:"tags,omitempty"` } type AddPaloAltoFirewallParams struct { p map[string]interface{} } func (p *AddPaloAltoFirewallParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["networkdevicetype"]; found { u.Set("networkdevicetype", v.(string)) } 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 *AddPaloAltoFirewallParams) SetNetworkdevicetype(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["networkdevicetype"] = v return } func (p *AddPaloAltoFirewallParams) SetPassword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["password"] = v return } func (p *AddPaloAltoFirewallParams) SetPhysicalnetworkid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["physicalnetworkid"] = v return } func (p *AddPaloAltoFirewallParams) SetUrl(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["url"] = v return } func (p *AddPaloAltoFirewallParams) 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 AddPaloAltoFirewallParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewAddPaloAltoFirewallParams(networkdevicetype string, password string, physicalnetworkid string, url string, username string) *AddPaloAltoFirewallParams { p := &AddPaloAltoFirewallParams{} p.p = make(map[string]interface{}) p.p["networkdevicetype"] = networkdevicetype p.p["password"] = password p.p["physicalnetworkid"] = physicalnetworkid p.p["url"] = url p.p["username"] = username return p } // Adds a Palo Alto firewall device func (s *FirewallService) AddPaloAltoFirewall(p *AddPaloAltoFirewallParams) (*AddPaloAltoFirewallResponse, error) { resp, err := s.cs.newRequest("addPaloAltoFirewall", p.toURLValues()) if err != nil { return nil, err } var r AddPaloAltoFirewallResponse 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 AddPaloAltoFirewallResponse struct { JobID string `json:"jobid,omitempty"` Fwdevicecapacity int64 `json:"fwdevicecapacity,omitempty"` Fwdeviceid string `json:"fwdeviceid,omitempty"` Fwdevicename string `json:"fwdevicename,omitempty"` Fwdevicestate string `json:"fwdevicestate,omitempty"` Ipaddress string `json:"ipaddress,omitempty"` Numretries string `json:"numretries,omitempty"` Physicalnetworkid string `json:"physicalnetworkid,omitempty"` Privateinterface string `json:"privateinterface,omitempty"` Privatezone string `json:"privatezone,omitempty"` Provider string `json:"provider,omitempty"` Publicinterface string `json:"publicinterface,omitempty"` Publiczone string `json:"publiczone,omitempty"` Timeout string `json:"timeout,omitempty"` Usageinterface string `json:"usageinterface,omitempty"` Username string `json:"username,omitempty"` Zoneid string `json:"zoneid,omitempty"` } type DeletePaloAltoFirewallParams struct { p map[string]interface{} } func (p *DeletePaloAltoFirewallParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["fwdeviceid"]; found { u.Set("fwdeviceid", v.(string)) } return u } func (p *DeletePaloAltoFirewallParams) SetFwdeviceid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fwdeviceid"] = v return } // You should always use this function to get a new DeletePaloAltoFirewallParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewDeletePaloAltoFirewallParams(fwdeviceid string) *DeletePaloAltoFirewallParams { p := &DeletePaloAltoFirewallParams{} p.p = make(map[string]interface{}) p.p["fwdeviceid"] = fwdeviceid return p } // delete a Palo Alto firewall device func (s *FirewallService) DeletePaloAltoFirewall(p *DeletePaloAltoFirewallParams) (*DeletePaloAltoFirewallResponse, error) { resp, err := s.cs.newRequest("deletePaloAltoFirewall", p.toURLValues()) if err != nil { return nil, err } var r DeletePaloAltoFirewallResponse 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 DeletePaloAltoFirewallResponse struct { JobID string `json:"jobid,omitempty"` Displaytext string `json:"displaytext,omitempty"` Success bool `json:"success,omitempty"` } type ConfigurePaloAltoFirewallParams struct { p map[string]interface{} } func (p *ConfigurePaloAltoFirewallParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["fwdevicecapacity"]; found { vv := strconv.FormatInt(v.(int64), 10) u.Set("fwdevicecapacity", vv) } if v, found := p.p["fwdeviceid"]; found { u.Set("fwdeviceid", v.(string)) } return u } func (p *ConfigurePaloAltoFirewallParams) SetFwdevicecapacity(v int64) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fwdevicecapacity"] = v return } func (p *ConfigurePaloAltoFirewallParams) SetFwdeviceid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fwdeviceid"] = v return } // You should always use this function to get a new ConfigurePaloAltoFirewallParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewConfigurePaloAltoFirewallParams(fwdeviceid string) *ConfigurePaloAltoFirewallParams { p := &ConfigurePaloAltoFirewallParams{} p.p = make(map[string]interface{}) p.p["fwdeviceid"] = fwdeviceid return p } // Configures a Palo Alto firewall device func (s *FirewallService) ConfigurePaloAltoFirewall(p *ConfigurePaloAltoFirewallParams) (*ConfigurePaloAltoFirewallResponse, error) { resp, err := s.cs.newRequest("configurePaloAltoFirewall", p.toURLValues()) if err != nil { return nil, err } var r ConfigurePaloAltoFirewallResponse 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 ConfigurePaloAltoFirewallResponse struct { JobID string `json:"jobid,omitempty"` Fwdevicecapacity int64 `json:"fwdevicecapacity,omitempty"` Fwdeviceid string `json:"fwdeviceid,omitempty"` Fwdevicename string `json:"fwdevicename,omitempty"` Fwdevicestate string `json:"fwdevicestate,omitempty"` Ipaddress string `json:"ipaddress,omitempty"` Numretries string `json:"numretries,omitempty"` Physicalnetworkid string `json:"physicalnetworkid,omitempty"` Privateinterface string `json:"privateinterface,omitempty"` Privatezone string `json:"privatezone,omitempty"` Provider string `json:"provider,omitempty"` Publicinterface string `json:"publicinterface,omitempty"` Publiczone string `json:"publiczone,omitempty"` Timeout string `json:"timeout,omitempty"` Usageinterface string `json:"usageinterface,omitempty"` Username string `json:"username,omitempty"` Zoneid string `json:"zoneid,omitempty"` } type ListPaloAltoFirewallsParams struct { p map[string]interface{} } func (p *ListPaloAltoFirewallsParams) toURLValues() url.Values { u := url.Values{} if p.p == nil { return u } if v, found := p.p["fwdeviceid"]; found { u.Set("fwdeviceid", 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["physicalnetworkid"]; found { u.Set("physicalnetworkid", v.(string)) } return u } func (p *ListPaloAltoFirewallsParams) SetFwdeviceid(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["fwdeviceid"] = v return } func (p *ListPaloAltoFirewallsParams) SetKeyword(v string) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["keyword"] = v return } func (p *ListPaloAltoFirewallsParams) SetPage(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["page"] = v return } func (p *ListPaloAltoFirewallsParams) SetPagesize(v int) { if p.p == nil { p.p = make(map[string]interface{}) } p.p["pagesize"] = v return } func (p *ListPaloAltoFirewallsParams) 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 ListPaloAltoFirewallsParams instance, // as then you are sure you have configured all required params func (s *FirewallService) NewListPaloAltoFirewallsParams() *ListPaloAltoFirewallsParams { p := &ListPaloAltoFirewallsParams{} p.p = make(map[string]interface{}) return p } // lists Palo Alto firewall devices in a physical network func (s *FirewallService) ListPaloAltoFirewalls(p *ListPaloAltoFirewallsParams) (*ListPaloAltoFirewallsResponse, error) { resp, err := s.cs.newRequest("listPaloAltoFirewalls", p.toURLValues()) if err != nil { return nil, err } var r ListPaloAltoFirewallsResponse if err := json.Unmarshal(resp, &r); err != nil { return nil, err } return &r, nil } type ListPaloAltoFirewallsResponse struct { Count int `json:"count"` PaloAltoFirewalls []*PaloAltoFirewall `json:"paloaltofirewall"` } type PaloAltoFirewall struct { Fwdevicecapacity int64 `json:"fwdevicecapacity,omitempty"` Fwdeviceid string `json:"fwdeviceid,omitempty"` Fwdevicename string `json:"fwdevicename,omitempty"` Fwdevicestate string `json:"fwdevicestate,omitempty"` Ipaddress string `json:"ipaddress,omitempty"` Numretries string `json:"numretries,omitempty"` Physicalnetworkid string `json:"physicalnetworkid,omitempty"` Privateinterface string `json:"privateinterface,omitempty"` Privatezone string `json:"privatezone,omitempty"` Provider string `json:"provider,omitempty"` Publicinterface string `json:"publicinterface,omitempty"` Publiczone string `json:"publiczone,omitempty"` Timeout string `json:"timeout,omitempty"` Usageinterface string `json:"usageinterface,omitempty"` Username string `json:"username,omitempty"` Zoneid string `json:"zoneid,omitempty"` }