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/*
3gpp-am-policyauthorization
API for AM policy authorization. © 2022, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TSDSI, TTA, TTC). All rights reserved.
API version: 1.0.2
*/
// Code generated by OpenAPI Generator (https://openapi-generator.tech); DO NOT EDIT.
package OpenAPI_AMPolicyAuthorization
import (
"encoding/json"
"fmt"
)
// checks if the AppAmContextData type satisfies the MappedNullable interface at compile time
var _ MappedNullable = &AppAmContextData{}
// AppAmContextData Represents an Individual Application AM Context resource.
type AppAmContextData struct {
// String identifying a Supi that shall contain either an IMSI, a network specific identifier, a Global Cable Identifier (GCI) or a Global Line Identifier (GLI) as specified in clause 2.2A of 3GPP TS 23.003. It shall be formatted as follows - for an IMSI \"imsi-<imsi>\", where <imsi> shall be formatted according to clause 2.2 of 3GPP TS 23.003 that describes an IMSI. - for a network specific identifier \"nai-<nai>, where <nai> shall be formatted according to clause 28.7.2 of 3GPP TS 23.003 that describes an NAI. - for a GCI \"gci-<gci>\", where <gci> shall be formatted according to clause 28.15.2 of 3GPP TS 23.003. - for a GLI \"gli-<gli>\", where <gli> shall be formatted according to clause 28.16.2 of 3GPP TS 23.003.To enable that the value is used as part of an URI, the string shall only contain characters allowed according to the \"lower-with-hyphen\" naming convention defined in 3GPP TS 29.501.
Supi string `json:"supi"`
// String identifying a Gpsi shall contain either an External Id or an MSISDN. It shall be formatted as follows -External Identifier= \"extid-'extid', where 'extid' shall be formatted according to clause 19.7.2 of 3GPP TS 23.003 that describes an External Identifier.
Gpsi *string `json:"gpsi,omitempty"`
// String providing an URI formatted according to RFC 3986.
TermNotifUri string `json:"termNotifUri"`
EvSubsc *AmEventsSubscData `json:"evSubsc,omitempty"`
// A string used to indicate the features supported by an API that is used as defined in clause 6.6 in 3GPP TS 29.500. The string shall contain a bitmask indicating supported features in hexadecimal representation Each character in the string shall take a value of \"0\" to \"9\", \"a\" to \"f\" or \"A\" to \"F\" and shall represent the support of 4 features as described in table 5.2.2-3. The most significant character representing the highest-numbered features shall appear first in the string, and the character representing features 1 to 4 shall appear last in the string. The list of features and their numbering (starting with 1) are defined separately for each API. If the string contains a lower number of characters than there are defined features for an API, all features that would be represented by characters that are not present in the string are not supported.
SuppFeat *string `json:"suppFeat,omitempty"`
// indicating a time in seconds.
Expiry *int32 `json:"expiry,omitempty"`
// Indicates whether high throughput is desired for the indicated UE traffic.
HighThruInd *bool `json:"highThruInd,omitempty"`
// Identifies a list of Tracking Areas per serving network where service is allowed.
CovReq []ServiceAreaCoverageInfo `json:"covReq,omitempty"`
AsTimeDisParam NullableAsTimeDistributionParam `json:"asTimeDisParam,omitempty"`
}
type _AppAmContextData AppAmContextData
// NewAppAmContextData instantiates a new AppAmContextData object
// This constructor will assign default values to properties that have it defined,
// and makes sure properties required by API are set, but the set of arguments
// will change when the set of required properties is changed
func NewAppAmContextData(supi string, termNotifUri string) *AppAmContextData {
this := AppAmContextData{}
return &this
}
// NewAppAmContextDataWithDefaults instantiates a new AppAmContextData object
// This constructor will only assign default values to properties that have it defined,
// but it doesn't guarantee that properties required by API are set
func NewAppAmContextDataWithDefaults() *AppAmContextData {
this := AppAmContextData{}
return &this
}
// GetSupi returns the Supi field value
func (o *AppAmContextData) GetSupi() string {
if o == nil {
var ret string
return ret
}
return o.Supi
}
// GetSupiOk returns a tuple with the Supi field value
// and a boolean to check if the value has been set.
func (o *AppAmContextData) GetSupiOk() (*string, bool) {
if o == nil {
return nil, false
}
return &o.Supi, true
}
// SetSupi sets field value
func (o *AppAmContextData) SetSupi(v string) {
o.Supi = v
}
// GetGpsi returns the Gpsi field value if set, zero value otherwise.
func (o *AppAmContextData) GetGpsi() string {
if o == nil || IsNil(o.Gpsi) {
var ret string
return ret
}
return *o.Gpsi
}
// GetGpsiOk returns a tuple with the Gpsi field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *AppAmContextData) GetGpsiOk() (*string, bool) {
if o == nil || IsNil(o.Gpsi) {
return nil, false
}
return o.Gpsi, true
}
// HasGpsi returns a boolean if a field has been set.
func (o *AppAmContextData) HasGpsi() bool {
if o != nil && !IsNil(o.Gpsi) {
return true
}
return false
}
// SetGpsi gets a reference to the given string and assigns it to the Gpsi field.
func (o *AppAmContextData) SetGpsi(v string) {
o.Gpsi = &v
}
// GetTermNotifUri returns the TermNotifUri field value
func (o *AppAmContextData) GetTermNotifUri() string {
if o == nil {
var ret string
return ret
}
return o.TermNotifUri
}
// GetTermNotifUriOk returns a tuple with the TermNotifUri field value
// and a boolean to check if the value has been set.
func (o *AppAmContextData) GetTermNotifUriOk() (*string, bool) {
if o == nil {
return nil, false
}
return &o.TermNotifUri, true
}
// SetTermNotifUri sets field value
func (o *AppAmContextData) SetTermNotifUri(v string) {
o.TermNotifUri = v
}
// GetEvSubsc returns the EvSubsc field value if set, zero value otherwise.
func (o *AppAmContextData) GetEvSubsc() AmEventsSubscData {
if o == nil || IsNil(o.EvSubsc) {
var ret AmEventsSubscData
return ret
}
return *o.EvSubsc
}
// GetEvSubscOk returns a tuple with the EvSubsc field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *AppAmContextData) GetEvSubscOk() (*AmEventsSubscData, bool) {
if o == nil || IsNil(o.EvSubsc) {
return nil, false
}
return o.EvSubsc, true
}
// HasEvSubsc returns a boolean if a field has been set.
func (o *AppAmContextData) HasEvSubsc() bool {
if o != nil && !IsNil(o.EvSubsc) {
return true
}
return false
}
// SetEvSubsc gets a reference to the given AmEventsSubscData and assigns it to the EvSubsc field.
func (o *AppAmContextData) SetEvSubsc(v AmEventsSubscData) {
o.EvSubsc = &v
}
// GetSuppFeat returns the SuppFeat field value if set, zero value otherwise.
func (o *AppAmContextData) GetSuppFeat() string {
if o == nil || IsNil(o.SuppFeat) {
var ret string
return ret
}
return *o.SuppFeat
}
// GetSuppFeatOk returns a tuple with the SuppFeat field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *AppAmContextData) GetSuppFeatOk() (*string, bool) {
if o == nil || IsNil(o.SuppFeat) {
return nil, false
}
return o.SuppFeat, true
}
// HasSuppFeat returns a boolean if a field has been set.
func (o *AppAmContextData) HasSuppFeat() bool {
if o != nil && !IsNil(o.SuppFeat) {
return true
}
return false
}
// SetSuppFeat gets a reference to the given string and assigns it to the SuppFeat field.
func (o *AppAmContextData) SetSuppFeat(v string) {
o.SuppFeat = &v
}
// GetExpiry returns the Expiry field value if set, zero value otherwise.
func (o *AppAmContextData) GetExpiry() int32 {
if o == nil || IsNil(o.Expiry) {
var ret int32
return ret
}
return *o.Expiry
}
// GetExpiryOk returns a tuple with the Expiry field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *AppAmContextData) GetExpiryOk() (*int32, bool) {
if o == nil || IsNil(o.Expiry) {
return nil, false
}
return o.Expiry, true
}
// HasExpiry returns a boolean if a field has been set.
func (o *AppAmContextData) HasExpiry() bool {
if o != nil && !IsNil(o.Expiry) {
return true
}
return false
}
// SetExpiry gets a reference to the given int32 and assigns it to the Expiry field.
func (o *AppAmContextData) SetExpiry(v int32) {
o.Expiry = &v
}
// GetHighThruInd returns the HighThruInd field value if set, zero value otherwise.
func (o *AppAmContextData) GetHighThruInd() bool {
if o == nil || IsNil(o.HighThruInd) {
var ret bool
return ret
}
return *o.HighThruInd
}
// GetHighThruIndOk returns a tuple with the HighThruInd field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *AppAmContextData) GetHighThruIndOk() (*bool, bool) {
if o == nil || IsNil(o.HighThruInd) {
return nil, false
}
return o.HighThruInd, true
}
// HasHighThruInd returns a boolean if a field has been set.
func (o *AppAmContextData) HasHighThruInd() bool {
if o != nil && !IsNil(o.HighThruInd) {
return true
}
return false
}
// SetHighThruInd gets a reference to the given bool and assigns it to the HighThruInd field.
func (o *AppAmContextData) SetHighThruInd(v bool) {
o.HighThruInd = &v
}
// GetCovReq returns the CovReq field value if set, zero value otherwise.
func (o *AppAmContextData) GetCovReq() []ServiceAreaCoverageInfo {
if o == nil || IsNil(o.CovReq) {
var ret []ServiceAreaCoverageInfo
return ret
}
return o.CovReq
}
// GetCovReqOk returns a tuple with the CovReq field value if set, nil otherwise
// and a boolean to check if the value has been set.
func (o *AppAmContextData) GetCovReqOk() ([]ServiceAreaCoverageInfo, bool) {
if o == nil || IsNil(o.CovReq) {
return nil, false
}
return o.CovReq, true
}
// HasCovReq returns a boolean if a field has been set.
func (o *AppAmContextData) HasCovReq() bool {
if o != nil && !IsNil(o.CovReq) {
return true
}
return false
}
// SetCovReq gets a reference to the given []ServiceAreaCoverageInfo and assigns it to the CovReq field.
func (o *AppAmContextData) SetCovReq(v []ServiceAreaCoverageInfo) {
o.CovReq = v
}
// GetAsTimeDisParam returns the AsTimeDisParam field value if set, zero value otherwise (both if not set or set to explicit null).
func (o *AppAmContextData) GetAsTimeDisParam() AsTimeDistributionParam {
if o == nil || IsNil(o.AsTimeDisParam.Get()) {
var ret AsTimeDistributionParam
return ret
}
return *o.AsTimeDisParam.Get()
}
// GetAsTimeDisParamOk returns a tuple with the AsTimeDisParam field value if set, nil otherwise
// and a boolean to check if the value has been set.
// NOTE: If the value is an explicit nil, `nil, true` will be returned
func (o *AppAmContextData) GetAsTimeDisParamOk() (*AsTimeDistributionParam, bool) {
if o == nil {
return nil, false
}
return o.AsTimeDisParam.Get(), o.AsTimeDisParam.IsSet()
}
// HasAsTimeDisParam returns a boolean if a field has been set.
func (o *AppAmContextData) HasAsTimeDisParam() bool {
if o != nil && o.AsTimeDisParam.IsSet() {
return true
}
return false
}
// SetAsTimeDisParam gets a reference to the given NullableAsTimeDistributionParam and assigns it to the AsTimeDisParam field.
func (o *AppAmContextData) SetAsTimeDisParam(v AsTimeDistributionParam) {
o.AsTimeDisParam.Set(&v)
}
// SetAsTimeDisParamNil sets the value for AsTimeDisParam to be an explicit nil
func (o *AppAmContextData) SetAsTimeDisParamNil() {
o.AsTimeDisParam.Set(nil)
}
// UnsetAsTimeDisParam ensures that no value is present for AsTimeDisParam, not even an explicit nil
func (o *AppAmContextData) UnsetAsTimeDisParam() {
o.AsTimeDisParam.Unset()
}
func (o AppAmContextData) MarshalJSON() ([]byte, error) {
toSerialize, err := o.ToMap()
if err != nil {
return []byte{}, err
}
return json.Marshal(toSerialize)
}
func (o AppAmContextData) ToMap() (map[string]interface{}, error) {
toSerialize := map[string]interface{}{}
toSerialize["supi"] = o.Supi
if !IsNil(o.Gpsi) {
toSerialize["gpsi"] = o.Gpsi
}
toSerialize["termNotifUri"] = o.TermNotifUri
if !IsNil(o.EvSubsc) {
toSerialize["evSubsc"] = o.EvSubsc
}
if !IsNil(o.SuppFeat) {
toSerialize["suppFeat"] = o.SuppFeat
}
if !IsNil(o.Expiry) {
toSerialize["expiry"] = o.Expiry
}
if !IsNil(o.HighThruInd) {
toSerialize["highThruInd"] = o.HighThruInd
}
if !IsNil(o.CovReq) {
toSerialize["covReq"] = o.CovReq
}
if o.AsTimeDisParam.IsSet() {
toSerialize["asTimeDisParam"] = o.AsTimeDisParam.Get()
}
return toSerialize, nil
}
func (o *AppAmContextData) UnmarshalJSON(bytes []byte) (err error) {
// This validates that all required properties are included in the JSON object
// by unmarshalling the object into a generic map with string keys and checking
// that every required field exists as a key in the generic map.
requiredProperties := []string{
"supi",
"termNotifUri",
}
allProperties := make(map[string]interface{})
err = json.Unmarshal(bytes, &allProperties)
if err != nil {
return err
}
for _, requiredProperty := range requiredProperties {
if _, exists := allProperties[requiredProperty]; !exists {
return fmt.Errorf("no value given for required property %v", requiredProperty)
}
}
varAppAmContextData := _AppAmContextData{}
err = json.Unmarshal(bytes, &varAppAmContextData)
if err != nil {
return err
}
*o = AppAmContextData(varAppAmContextData)
return err
}
type NullableAppAmContextData struct {
value *AppAmContextData
isSet bool
}
func (v NullableAppAmContextData) Get() *AppAmContextData {
return v.value
}
func (v *NullableAppAmContextData) Set(val *AppAmContextData) {
v.value = val
v.isSet = true
}
func (v NullableAppAmContextData) IsSet() bool {
return v.isSet
}
func (v *NullableAppAmContextData) Unset() {
v.value = nil
v.isSet = false
}
func NewNullableAppAmContextData(val *AppAmContextData) *NullableAppAmContextData {
return &NullableAppAmContextData{value: val, isSet: true}
}
func (v NullableAppAmContextData) MarshalJSON() ([]byte, error) {
return json.Marshal(v.value)
}
func (v *NullableAppAmContextData) UnmarshalJSON(src []byte) error {
v.isSet = true
return json.Unmarshal(src, &v.value)
}
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