#![allow(unused_mut)]
#![allow(unused_variables)]
#![allow(unused_imports)]
#![allow(clippy::redundant_clone)]
pub mod models;
#[derive(Clone)]
pub struct Client {
endpoint: String,
credential: std::sync::Arc<dyn azure_core::auth::TokenCredential>,
scopes: Vec<String>,
pipeline: azure_core::Pipeline,
}
#[derive(Clone)]
pub struct ClientBuilder {
credential: std::sync::Arc<dyn azure_core::auth::TokenCredential>,
endpoint: Option<String>,
scopes: Option<Vec<String>>,
options: azure_core::ClientOptions,
}
pub const DEFAULT_ENDPOINT: &str = azure_core::resource_manager_endpoint::AZURE_PUBLIC_CLOUD;
impl ClientBuilder {
#[doc = "Create a new instance of `ClientBuilder`."]
#[must_use]
pub fn new(credential: std::sync::Arc<dyn azure_core::auth::TokenCredential>) -> Self {
Self {
credential,
endpoint: None,
scopes: None,
options: azure_core::ClientOptions::default(),
}
}
#[doc = "Set the endpoint."]
#[must_use]
pub fn endpoint(mut self, endpoint: impl Into<String>) -> Self {
self.endpoint = Some(endpoint.into());
self
}
#[doc = "Set the scopes."]
#[must_use]
pub fn scopes(mut self, scopes: &[&str]) -> Self {
self.scopes = Some(scopes.iter().map(|scope| (*scope).to_owned()).collect());
self
}
#[doc = "Set the retry options."]
#[must_use]
pub fn retry(mut self, retry: impl Into<azure_core::RetryOptions>) -> Self {
self.options = self.options.retry(retry);
self
}
#[doc = "Set the transport options."]
#[must_use]
pub fn transport(mut self, transport: impl Into<azure_core::TransportOptions>) -> Self {
self.options = self.options.transport(transport);
self
}
#[doc = "Convert the builder into a `Client` instance."]
#[must_use]
pub fn build(self) -> Client {
let endpoint = self.endpoint.unwrap_or_else(|| DEFAULT_ENDPOINT.to_owned());
let scopes = self.scopes.unwrap_or_else(|| vec![format!("{}/", endpoint)]);
Client::new(endpoint, self.credential, scopes, self.options)
}
}
impl Client {
pub(crate) fn endpoint(&self) -> &str {
self.endpoint.as_str()
}
pub(crate) fn token_credential(&self) -> &dyn azure_core::auth::TokenCredential {
self.credential.as_ref()
}
pub(crate) fn scopes(&self) -> Vec<&str> {
self.scopes.iter().map(String::as_str).collect()
}
pub(crate) async fn send(&self, request: &mut azure_core::Request) -> azure_core::Result<azure_core::Response> {
let mut context = azure_core::Context::default();
self.pipeline.send(&mut context, request).await
}
#[doc = "Create a new `ClientBuilder`."]
#[must_use]
pub fn builder(credential: std::sync::Arc<dyn azure_core::auth::TokenCredential>) -> ClientBuilder {
ClientBuilder::new(credential)
}
#[doc = "Create a new `Client`."]
#[must_use]
pub fn new(
endpoint: impl Into<String>,
credential: std::sync::Arc<dyn azure_core::auth::TokenCredential>,
scopes: Vec<String>,
options: azure_core::ClientOptions,
) -> Self {
let endpoint = endpoint.into();
let pipeline = azure_core::Pipeline::new(
option_env!("CARGO_PKG_NAME"),
option_env!("CARGO_PKG_VERSION"),
options,
Vec::new(),
Vec::new(),
);
Self {
endpoint,
credential,
scopes,
pipeline,
}
}
pub fn operations_client(&self) -> operations::Client {
operations::Client(self.clone())
}
pub fn web_services_client(&self) -> web_services::Client {
web_services::Client(self.clone())
}
}
pub mod operations {
use super::models;
pub struct Client(pub(crate) super::Client);
impl Client {
#[doc = "Lists all the available REST API operations."]
pub fn list(&self) -> list::RequestBuilder {
list::RequestBuilder { client: self.0.clone() }
}
}
pub mod list {
use super::models;
pub struct Response(azure_core::Response);
impl Response {
pub async fn into_body(self) -> azure_core::Result<models::OperationEntityListResult> {
let bytes = self.0.into_body().collect().await?;
let body: models::OperationEntityListResult = serde_json::from_slice(&bytes)?;
Ok(body)
}
pub fn into_raw_response(self) -> azure_core::Response {
self.0
}
pub fn as_raw_response(&self) -> &azure_core::Response {
&self.0
}
}
impl From<Response> for azure_core::Response {
fn from(rsp: Response) -> Self {
rsp.into_raw_response()
}
}
impl AsRef<azure_core::Response> for Response {
fn as_ref(&self) -> &azure_core::Response {
self.as_raw_response()
}
}
#[derive(Clone)]
pub struct RequestBuilder {
pub(crate) client: super::super::Client,
}
impl RequestBuilder {
#[doc = "only the first response will be fetched as the continuation token is not part of the response schema"]
#[doc = "Send the request and returns the response."]
pub fn send(self) -> futures::future::BoxFuture<'static, azure_core::Result<Response>> {
Box::pin({
let this = self.clone();
async move {
let url = azure_core::Url::parse(&format!(
"{}/providers/Microsoft.MachineLearning/operations",
this.client.endpoint(),
))?;
let mut req = azure_core::Request::new(url, azure_core::Method::Get);
let credential = this.client.token_credential();
let token_response = credential.get_token(&this.client.scopes().join(" ")).await?;
req.insert_header(
azure_core::headers::AUTHORIZATION,
format!("Bearer {}", token_response.token.secret()),
);
req.url_mut()
.query_pairs_mut()
.append_pair(azure_core::query_param::API_VERSION, "2017-01-01");
let req_body = azure_core::EMPTY_BODY;
req.set_body(req_body);
Ok(Response(this.client.send(&mut req).await?))
}
})
}
#[doc = "Send the request and return the response body."]
pub fn into_future(self) -> futures::future::BoxFuture<'static, azure_core::Result<models::OperationEntityListResult>> {
Box::pin(async move { self.send().await?.into_body().await })
}
}
}
}
pub mod web_services {
use super::models;
pub struct Client(pub(crate) super::Client);
impl Client {
#[doc = "Gets the Web Service Definition as specified by a subscription, resource group, and name. Note that the storage credentials and web service keys are not returned by this call. To get the web service access keys, call List Keys."]
#[doc = ""]
#[doc = "Arguments:"]
#[doc = "* `resource_group_name`: Name of the resource group in which the web service is located."]
#[doc = "* `web_service_name`: The name of the web service."]
#[doc = "* `subscription_id`: The Azure subscription ID."]
pub fn get(
&self,
resource_group_name: impl Into<String>,
web_service_name: impl Into<String>,
subscription_id: impl Into<String>,
) -> get::RequestBuilder {
get::RequestBuilder {
client: self.0.clone(),
resource_group_name: resource_group_name.into(),
web_service_name: web_service_name.into(),
subscription_id: subscription_id.into(),
region: None,
}
}
#[doc = "Create or update a web service. This call will overwrite an existing web service. Note that there is no warning or confirmation. This is a nonrecoverable operation. If your intent is to create a new web service, call the Get operation first to verify that it does not exist."]
#[doc = ""]
#[doc = "Arguments:"]
#[doc = "* `resource_group_name`: Name of the resource group in which the web service is located."]
#[doc = "* `web_service_name`: The name of the web service."]
#[doc = "* `create_or_update_payload`: The payload that is used to create or update the web service."]
#[doc = "* `subscription_id`: The Azure subscription ID."]
pub fn create_or_update(
&self,
resource_group_name: impl Into<String>,
web_service_name: impl Into<String>,
create_or_update_payload: impl Into<models::WebService>,
subscription_id: impl Into<String>,
) -> create_or_update::RequestBuilder {
create_or_update::RequestBuilder {
client: self.0.clone(),
resource_group_name: resource_group_name.into(),
web_service_name: web_service_name.into(),
create_or_update_payload: create_or_update_payload.into(),
subscription_id: subscription_id.into(),
}
}
#[doc = "Modifies an existing web service resource. The PATCH API call is an asynchronous operation. To determine whether it has completed successfully, you must perform a Get operation."]
#[doc = ""]
#[doc = "Arguments:"]
#[doc = "* `resource_group_name`: Name of the resource group in which the web service is located."]
#[doc = "* `web_service_name`: The name of the web service."]
#[doc = "* `patch_payload`: The payload to use to patch the web service."]
#[doc = "* `subscription_id`: The Azure subscription ID."]
pub fn patch(
&self,
resource_group_name: impl Into<String>,
web_service_name: impl Into<String>,
patch_payload: impl Into<models::PatchedWebService>,
subscription_id: impl Into<String>,
) -> patch::RequestBuilder {
patch::RequestBuilder {
client: self.0.clone(),
resource_group_name: resource_group_name.into(),
web_service_name: web_service_name.into(),
patch_payload: patch_payload.into(),
subscription_id: subscription_id.into(),
}
}
#[doc = "Deletes the specified web service."]
#[doc = ""]
#[doc = "Arguments:"]
#[doc = "* `resource_group_name`: Name of the resource group in which the web service is located."]
#[doc = "* `web_service_name`: The name of the web service."]
#[doc = "* `subscription_id`: The Azure subscription ID."]
pub fn remove(
&self,
resource_group_name: impl Into<String>,
web_service_name: impl Into<String>,
subscription_id: impl Into<String>,
) -> remove::RequestBuilder {
remove::RequestBuilder {
client: self.0.clone(),
resource_group_name: resource_group_name.into(),
web_service_name: web_service_name.into(),
subscription_id: subscription_id.into(),
}
}
#[doc = "Creates an encrypted credentials parameter blob for the specified region. To get the web service from a region other than the region in which it has been created, you must first call Create Regional Web Services Properties to create a copy of the encrypted credential parameter blob in that region. You only need to do this before the first time that you get the web service in the new region."]
#[doc = ""]
#[doc = "Arguments:"]
#[doc = "* `resource_group_name`: Name of the resource group in which the web service is located."]
#[doc = "* `web_service_name`: The name of the web service."]
#[doc = "* `region`: The region for which encrypted credential parameters are created."]
#[doc = "* `subscription_id`: The Azure subscription ID."]
pub fn create_regional_properties(
&self,
resource_group_name: impl Into<String>,
web_service_name: impl Into<String>,
region: impl Into<String>,
subscription_id: impl Into<String>,
) -> create_regional_properties::RequestBuilder {
create_regional_properties::RequestBuilder {
client: self.0.clone(),
resource_group_name: resource_group_name.into(),
web_service_name: web_service_name.into(),
region: region.into(),
subscription_id: subscription_id.into(),
}
}
#[doc = "Gets the access keys for the specified web service."]
#[doc = ""]
#[doc = "Arguments:"]
#[doc = "* `resource_group_name`: Name of the resource group in which the web service is located."]
#[doc = "* `web_service_name`: The name of the web service."]
#[doc = "* `subscription_id`: The Azure subscription ID."]
pub fn list_keys(
&self,
resource_group_name: impl Into<String>,
web_service_name: impl Into<String>,
subscription_id: impl Into<String>,
) -> list_keys::RequestBuilder {
list_keys::RequestBuilder {
client: self.0.clone(),
resource_group_name: resource_group_name.into(),
web_service_name: web_service_name.into(),
subscription_id: subscription_id.into(),
}
}
#[doc = "Gets the web services in the specified resource group."]
#[doc = ""]
#[doc = "Arguments:"]
#[doc = "* `resource_group_name`: Name of the resource group in which the web service is located."]
#[doc = "* `subscription_id`: The Azure subscription ID."]
pub fn list_by_resource_group(
&self,
resource_group_name: impl Into<String>,
subscription_id: impl Into<String>,
) -> list_by_resource_group::RequestBuilder {
list_by_resource_group::RequestBuilder {
client: self.0.clone(),
resource_group_name: resource_group_name.into(),
subscription_id: subscription_id.into(),
skiptoken: None,
}
}
#[doc = "Gets the web services in the specified subscription."]
#[doc = ""]
#[doc = "Arguments:"]
#[doc = "* `subscription_id`: The Azure subscription ID."]
pub fn list_by_subscription_id(&self, subscription_id: impl Into<String>) -> list_by_subscription_id::RequestBuilder {
list_by_subscription_id::RequestBuilder {
client: self.0.clone(),
subscription_id: subscription_id.into(),
skiptoken: None,
}
}
}
pub mod get {
use super::models;
pub struct Response(azure_core::Response);
impl Response {
pub async fn into_body(self) -> azure_core::Result<models::WebService> {
let bytes = self.0.into_body().collect().await?;
let body: models::WebService = serde_json::from_slice(&bytes)?;
Ok(body)
}
pub fn into_raw_response(self) -> azure_core::Response {
self.0
}
pub fn as_raw_response(&self) -> &azure_core::Response {
&self.0
}
}
impl From<Response> for azure_core::Response {
fn from(rsp: Response) -> Self {
rsp.into_raw_response()
}
}
impl AsRef<azure_core::Response> for Response {
fn as_ref(&self) -> &azure_core::Response {
self.as_raw_response()
}
}
#[derive(Clone)]
pub struct RequestBuilder {
pub(crate) client: super::super::Client,
pub(crate) resource_group_name: String,
pub(crate) web_service_name: String,
pub(crate) subscription_id: String,
pub(crate) region: Option<String>,
}
impl RequestBuilder {
#[doc = "The region for which encrypted credential parameters are valid."]
pub fn region(mut self, region: impl Into<String>) -> Self {
self.region = Some(region.into());
self
}
#[doc = "Send the request and returns the response."]
pub fn send(self) -> futures::future::BoxFuture<'static, azure_core::Result<Response>> {
Box::pin({
let this = self.clone();
async move {
let url = azure_core::Url::parse(&format!(
"{}/subscriptions/{}/resourceGroups/{}/providers/Microsoft.MachineLearning/webServices/{}",
this.client.endpoint(),
&this.subscription_id,
&this.resource_group_name,
&this.web_service_name
))?;
let mut req = azure_core::Request::new(url, azure_core::Method::Get);
let credential = this.client.token_credential();
let token_response = credential.get_token(&this.client.scopes().join(" ")).await?;
req.insert_header(
azure_core::headers::AUTHORIZATION,
format!("Bearer {}", token_response.token.secret()),
);
req.url_mut()
.query_pairs_mut()
.append_pair(azure_core::query_param::API_VERSION, "2017-01-01");
if let Some(region) = &this.region {
req.url_mut().query_pairs_mut().append_pair("region", region);
}
let req_body = azure_core::EMPTY_BODY;
req.set_body(req_body);
Ok(Response(this.client.send(&mut req).await?))
}
})
}
#[doc = "Send the request and return the response body."]
pub fn into_future(self) -> futures::future::BoxFuture<'static, azure_core::Result<models::WebService>> {
Box::pin(async move { self.send().await?.into_body().await })
}
}
}
pub mod create_or_update {
use super::models;
pub struct Response(azure_core::Response);
impl Response {
pub async fn into_body(self) -> azure_core::Result<models::WebService> {
let bytes = self.0.into_body().collect().await?;
let body: models::WebService = serde_json::from_slice(&bytes)?;
Ok(body)
}
pub fn into_raw_response(self) -> azure_core::Response {
self.0
}
pub fn as_raw_response(&self) -> &azure_core::Response {
&self.0
}
}
impl From<Response> for azure_core::Response {
fn from(rsp: Response) -> Self {
rsp.into_raw_response()
}
}
impl AsRef<azure_core::Response> for Response {
fn as_ref(&self) -> &azure_core::Response {
self.as_raw_response()
}
}
#[derive(Clone)]
pub struct RequestBuilder {
pub(crate) client: super::super::Client,
pub(crate) resource_group_name: String,
pub(crate) web_service_name: String,
pub(crate) create_or_update_payload: models::WebService,
pub(crate) subscription_id: String,
}
impl RequestBuilder {
#[doc = "only the first response will be fetched as long running operations are not supported yet"]
#[doc = "Send the request and returns the response."]
pub fn send(self) -> futures::future::BoxFuture<'static, azure_core::Result<Response>> {
Box::pin({
let this = self.clone();
async move {
let url = azure_core::Url::parse(&format!(
"{}/subscriptions/{}/resourceGroups/{}/providers/Microsoft.MachineLearning/webServices/{}",
this.client.endpoint(),
&this.subscription_id,
&this.resource_group_name,
&this.web_service_name
))?;
let mut req = azure_core::Request::new(url, azure_core::Method::Put);
let credential = this.client.token_credential();
let token_response = credential.get_token(&this.client.scopes().join(" ")).await?;
req.insert_header(
azure_core::headers::AUTHORIZATION,
format!("Bearer {}", token_response.token.secret()),
);
req.url_mut()
.query_pairs_mut()
.append_pair(azure_core::query_param::API_VERSION, "2017-01-01");
req.insert_header("content-type", "application/json");
let req_body = azure_core::to_json(&this.create_or_update_payload)?;
req.set_body(req_body);
Ok(Response(this.client.send(&mut req).await?))
}
})
}
#[doc = "Send the request and return the response body."]
pub fn into_future(self) -> futures::future::BoxFuture<'static, azure_core::Result<models::WebService>> {
Box::pin(async move { self.send().await?.into_body().await })
}
}
}
pub mod patch {
use super::models;
pub struct Response(azure_core::Response);
impl Response {
pub async fn into_body(self) -> azure_core::Result<models::WebService> {
let bytes = self.0.into_body().collect().await?;
let body: models::WebService = serde_json::from_slice(&bytes)?;
Ok(body)
}
pub fn into_raw_response(self) -> azure_core::Response {
self.0
}
pub fn as_raw_response(&self) -> &azure_core::Response {
&self.0
}
}
impl From<Response> for azure_core::Response {
fn from(rsp: Response) -> Self {
rsp.into_raw_response()
}
}
impl AsRef<azure_core::Response> for Response {
fn as_ref(&self) -> &azure_core::Response {
self.as_raw_response()
}
}
#[derive(Clone)]
pub struct RequestBuilder {
pub(crate) client: super::super::Client,
pub(crate) resource_group_name: String,
pub(crate) web_service_name: String,
pub(crate) patch_payload: models::PatchedWebService,
pub(crate) subscription_id: String,
}
impl RequestBuilder {
#[doc = "only the first response will be fetched as long running operations are not supported yet"]
#[doc = "Send the request and returns the response."]
pub fn send(self) -> futures::future::BoxFuture<'static, azure_core::Result<Response>> {
Box::pin({
let this = self.clone();
async move {
let url = azure_core::Url::parse(&format!(
"{}/subscriptions/{}/resourceGroups/{}/providers/Microsoft.MachineLearning/webServices/{}",
this.client.endpoint(),
&this.subscription_id,
&this.resource_group_name,
&this.web_service_name
))?;
let mut req = azure_core::Request::new(url, azure_core::Method::Patch);
let credential = this.client.token_credential();
let token_response = credential.get_token(&this.client.scopes().join(" ")).await?;
req.insert_header(
azure_core::headers::AUTHORIZATION,
format!("Bearer {}", token_response.token.secret()),
);
req.url_mut()
.query_pairs_mut()
.append_pair(azure_core::query_param::API_VERSION, "2017-01-01");
req.insert_header("content-type", "application/json");
let req_body = azure_core::to_json(&this.patch_payload)?;
req.set_body(req_body);
Ok(Response(this.client.send(&mut req).await?))
}
})
}
#[doc = "Send the request and return the response body."]
pub fn into_future(self) -> futures::future::BoxFuture<'static, azure_core::Result<models::WebService>> {
Box::pin(async move { self.send().await?.into_body().await })
}
}
}
pub mod remove {
use super::models;
pub struct Response(azure_core::Response);
#[derive(Clone)]
pub struct RequestBuilder {
pub(crate) client: super::super::Client,
pub(crate) resource_group_name: String,
pub(crate) web_service_name: String,
pub(crate) subscription_id: String,
}
impl RequestBuilder {
#[doc = "only the first response will be fetched as long running operations are not supported yet"]
#[doc = "Send the request and returns the response."]
pub fn send(self) -> futures::future::BoxFuture<'static, azure_core::Result<Response>> {
Box::pin({
let this = self.clone();
async move {
let url = azure_core::Url::parse(&format!(
"{}/subscriptions/{}/resourceGroups/{}/providers/Microsoft.MachineLearning/webServices/{}",
this.client.endpoint(),
&this.subscription_id,
&this.resource_group_name,
&this.web_service_name
))?;
let mut req = azure_core::Request::new(url, azure_core::Method::Delete);
let credential = this.client.token_credential();
let token_response = credential.get_token(&this.client.scopes().join(" ")).await?;
req.insert_header(
azure_core::headers::AUTHORIZATION,
format!("Bearer {}", token_response.token.secret()),
);
req.url_mut()
.query_pairs_mut()
.append_pair(azure_core::query_param::API_VERSION, "2017-01-01");
let req_body = azure_core::EMPTY_BODY;
req.set_body(req_body);
Ok(Response(this.client.send(&mut req).await?))
}
})
}
}
}
pub mod create_regional_properties {
use super::models;
pub struct Response(azure_core::Response);
#[derive(Clone)]
pub struct RequestBuilder {
pub(crate) client: super::super::Client,
pub(crate) resource_group_name: String,
pub(crate) web_service_name: String,
pub(crate) region: String,
pub(crate) subscription_id: String,
}
impl RequestBuilder {
#[doc = "only the first response will be fetched as long running operations are not supported yet"]
#[doc = "Send the request and returns the response."]
pub fn send(self) -> futures::future::BoxFuture<'static, azure_core::Result<Response>> {
Box::pin({
let this = self.clone();
async move {
let url = azure_core::Url::parse(&format!(
"{}/subscriptions/{}/resourceGroups/{}/providers/Microsoft.MachineLearning/webServices/{}/CreateRegionalBlob",
this.client.endpoint(),
&this.subscription_id,
&this.resource_group_name,
&this.web_service_name
))?;
let mut req = azure_core::Request::new(url, azure_core::Method::Post);
let credential = this.client.token_credential();
let token_response = credential.get_token(&this.client.scopes().join(" ")).await?;
req.insert_header(
azure_core::headers::AUTHORIZATION,
format!("Bearer {}", token_response.token.secret()),
);
req.url_mut()
.query_pairs_mut()
.append_pair(azure_core::query_param::API_VERSION, "2017-01-01");
let region = &this.region;
req.url_mut().query_pairs_mut().append_pair("region", region);
let req_body = azure_core::EMPTY_BODY;
req.insert_header(azure_core::headers::CONTENT_LENGTH, "0");
req.set_body(req_body);
Ok(Response(this.client.send(&mut req).await?))
}
})
}
}
}
pub mod list_keys {
use super::models;
pub struct Response(azure_core::Response);
impl Response {
pub async fn into_body(self) -> azure_core::Result<models::WebServiceKeys> {
let bytes = self.0.into_body().collect().await?;
let body: models::WebServiceKeys = serde_json::from_slice(&bytes)?;
Ok(body)
}
pub fn into_raw_response(self) -> azure_core::Response {
self.0
}
pub fn as_raw_response(&self) -> &azure_core::Response {
&self.0
}
}
impl From<Response> for azure_core::Response {
fn from(rsp: Response) -> Self {
rsp.into_raw_response()
}
}
impl AsRef<azure_core::Response> for Response {
fn as_ref(&self) -> &azure_core::Response {
self.as_raw_response()
}
}
#[derive(Clone)]
pub struct RequestBuilder {
pub(crate) client: super::super::Client,
pub(crate) resource_group_name: String,
pub(crate) web_service_name: String,
pub(crate) subscription_id: String,
}
impl RequestBuilder {
#[doc = "Send the request and returns the response."]
pub fn send(self) -> futures::future::BoxFuture<'static, azure_core::Result<Response>> {
Box::pin({
let this = self.clone();
async move {
let url = azure_core::Url::parse(&format!(
"{}/subscriptions/{}/resourceGroups/{}/providers/Microsoft.MachineLearning/webServices/{}/listKeys",
this.client.endpoint(),
&this.subscription_id,
&this.resource_group_name,
&this.web_service_name
))?;
let mut req = azure_core::Request::new(url, azure_core::Method::Get);
let credential = this.client.token_credential();
let token_response = credential.get_token(&this.client.scopes().join(" ")).await?;
req.insert_header(
azure_core::headers::AUTHORIZATION,
format!("Bearer {}", token_response.token.secret()),
);
req.url_mut()
.query_pairs_mut()
.append_pair(azure_core::query_param::API_VERSION, "2017-01-01");
let req_body = azure_core::EMPTY_BODY;
req.set_body(req_body);
Ok(Response(this.client.send(&mut req).await?))
}
})
}
#[doc = "Send the request and return the response body."]
pub fn into_future(self) -> futures::future::BoxFuture<'static, azure_core::Result<models::WebServiceKeys>> {
Box::pin(async move { self.send().await?.into_body().await })
}
}
}
pub mod list_by_resource_group {
use super::models;
pub struct Response(azure_core::Response);
impl Response {
pub async fn into_body(self) -> azure_core::Result<models::PaginatedWebServicesList> {
let bytes = self.0.into_body().collect().await?;
let body: models::PaginatedWebServicesList = serde_json::from_slice(&bytes)?;
Ok(body)
}
pub fn into_raw_response(self) -> azure_core::Response {
self.0
}
pub fn as_raw_response(&self) -> &azure_core::Response {
&self.0
}
}
impl From<Response> for azure_core::Response {
fn from(rsp: Response) -> Self {
rsp.into_raw_response()
}
}
impl AsRef<azure_core::Response> for Response {
fn as_ref(&self) -> &azure_core::Response {
self.as_raw_response()
}
}
#[derive(Clone)]
pub struct RequestBuilder {
pub(crate) client: super::super::Client,
pub(crate) resource_group_name: String,
pub(crate) subscription_id: String,
pub(crate) skiptoken: Option<String>,
}
impl RequestBuilder {
#[doc = "Continuation token for pagination."]
pub fn skiptoken(mut self, skiptoken: impl Into<String>) -> Self {
self.skiptoken = Some(skiptoken.into());
self
}
pub fn into_stream(self) -> azure_core::Pageable<models::PaginatedWebServicesList, azure_core::error::Error> {
let make_request = move |continuation: Option<String>| {
let this = self.clone();
async move {
let mut url = azure_core::Url::parse(&format!(
"{}/subscriptions/{}/resourceGroups/{}/providers/Microsoft.MachineLearning/webServices",
this.client.endpoint(),
&this.subscription_id,
&this.resource_group_name
))?;
let rsp = match continuation {
Some(value) => {
url.set_path("");
url = url.join(&value)?;
let mut req = azure_core::Request::new(url, azure_core::Method::Get);
let credential = this.client.token_credential();
let token_response = credential.get_token(&this.client.scopes().join(" ")).await?;
req.insert_header(
azure_core::headers::AUTHORIZATION,
format!("Bearer {}", token_response.token.secret()),
);
let has_api_version_already =
req.url_mut().query_pairs().any(|(k, _)| k == azure_core::query_param::API_VERSION);
if !has_api_version_already {
req.url_mut()
.query_pairs_mut()
.append_pair(azure_core::query_param::API_VERSION, "2017-01-01");
}
let req_body = azure_core::EMPTY_BODY;
req.set_body(req_body);
this.client.send(&mut req).await?
}
None => {
let mut req = azure_core::Request::new(url, azure_core::Method::Get);
let credential = this.client.token_credential();
let token_response = credential.get_token(&this.client.scopes().join(" ")).await?;
req.insert_header(
azure_core::headers::AUTHORIZATION,
format!("Bearer {}", token_response.token.secret()),
);
req.url_mut()
.query_pairs_mut()
.append_pair(azure_core::query_param::API_VERSION, "2017-01-01");
if let Some(skiptoken) = &this.skiptoken {
req.url_mut().query_pairs_mut().append_pair("$skiptoken", skiptoken);
}
let req_body = azure_core::EMPTY_BODY;
req.set_body(req_body);
this.client.send(&mut req).await?
}
};
let rsp = match rsp.status() {
azure_core::StatusCode::Ok => Ok(Response(rsp)),
status_code => Err(azure_core::error::Error::from(azure_core::error::ErrorKind::HttpResponse {
status: status_code,
error_code: None,
})),
};
rsp?.into_body().await
}
};
azure_core::Pageable::new(make_request)
}
}
}
pub mod list_by_subscription_id {
use super::models;
pub struct Response(azure_core::Response);
impl Response {
pub async fn into_body(self) -> azure_core::Result<models::PaginatedWebServicesList> {
let bytes = self.0.into_body().collect().await?;
let body: models::PaginatedWebServicesList = serde_json::from_slice(&bytes)?;
Ok(body)
}
pub fn into_raw_response(self) -> azure_core::Response {
self.0
}
pub fn as_raw_response(&self) -> &azure_core::Response {
&self.0
}
}
impl From<Response> for azure_core::Response {
fn from(rsp: Response) -> Self {
rsp.into_raw_response()
}
}
impl AsRef<azure_core::Response> for Response {
fn as_ref(&self) -> &azure_core::Response {
self.as_raw_response()
}
}
#[derive(Clone)]
pub struct RequestBuilder {
pub(crate) client: super::super::Client,
pub(crate) subscription_id: String,
pub(crate) skiptoken: Option<String>,
}
impl RequestBuilder {
#[doc = "Continuation token for pagination."]
pub fn skiptoken(mut self, skiptoken: impl Into<String>) -> Self {
self.skiptoken = Some(skiptoken.into());
self
}
pub fn into_stream(self) -> azure_core::Pageable<models::PaginatedWebServicesList, azure_core::error::Error> {
let make_request = move |continuation: Option<String>| {
let this = self.clone();
async move {
let mut url = azure_core::Url::parse(&format!(
"{}/subscriptions/{}/providers/Microsoft.MachineLearning/webServices",
this.client.endpoint(),
&this.subscription_id
))?;
let rsp = match continuation {
Some(value) => {
url.set_path("");
url = url.join(&value)?;
let mut req = azure_core::Request::new(url, azure_core::Method::Get);
let credential = this.client.token_credential();
let token_response = credential.get_token(&this.client.scopes().join(" ")).await?;
req.insert_header(
azure_core::headers::AUTHORIZATION,
format!("Bearer {}", token_response.token.secret()),
);
let has_api_version_already =
req.url_mut().query_pairs().any(|(k, _)| k == azure_core::query_param::API_VERSION);
if !has_api_version_already {
req.url_mut()
.query_pairs_mut()
.append_pair(azure_core::query_param::API_VERSION, "2017-01-01");
}
let req_body = azure_core::EMPTY_BODY;
req.set_body(req_body);
this.client.send(&mut req).await?
}
None => {
let mut req = azure_core::Request::new(url, azure_core::Method::Get);
let credential = this.client.token_credential();
let token_response = credential.get_token(&this.client.scopes().join(" ")).await?;
req.insert_header(
azure_core::headers::AUTHORIZATION,
format!("Bearer {}", token_response.token.secret()),
);
req.url_mut()
.query_pairs_mut()
.append_pair(azure_core::query_param::API_VERSION, "2017-01-01");
if let Some(skiptoken) = &this.skiptoken {
req.url_mut().query_pairs_mut().append_pair("$skiptoken", skiptoken);
}
let req_body = azure_core::EMPTY_BODY;
req.set_body(req_body);
this.client.send(&mut req).await?
}
};
let rsp = match rsp.status() {
azure_core::StatusCode::Ok => Ok(Response(rsp)),
status_code => Err(azure_core::error::Error::from(azure_core::error::ErrorKind::HttpResponse {
status: status_code,
error_code: None,
})),
};
rsp?.into_body().await
}
};
azure_core::Pageable::new(make_request)
}
}
}
}