// DO NOT EDIT ! // This file was generated automatically from 'src/mako/api/lib.rs.mako' // DO NOT EDIT ! //! This documentation was generated from *taskqueue* crate version *1.0.4+20160428*, where *20160428* is the exact revision of the *taskqueue:v1beta2* schema built by the [mako](http://www.makotemplates.org/) code generator *v1.0.4*. //! //! Everything else about the *taskqueue* *v1_beta2* API can be found at the //! [official documentation site](https://developers.google.com/appengine/docs/python/taskqueue/rest). //! The original source code is [on github](https://github.com/Byron/google-apis-rs/tree/master/gen/taskqueue1_beta2). //! # Features //! //! Handle the following *Resources* with ease from the central [hub](struct.Taskqueue.html) ... //! //! * taskqueues //! * [*get*](struct.TaskqueueGetCall.html) //! * [tasks](struct.Task.html) //! * [*delete*](struct.TaskDeleteCall.html), [*get*](struct.TaskGetCall.html), [*insert*](struct.TaskInsertCall.html), [*lease*](struct.TaskLeaseCall.html), [*list*](struct.TaskListCall.html), [*patch*](struct.TaskPatchCall.html) and [*update*](struct.TaskUpdateCall.html) //! //! //! //! //! Not what you are looking for ? Find all other Google APIs in their Rust [documentation index](http://byron.github.io/google-apis-rs). //! //! # Structure of this Library //! //! The API is structured into the following primary items: //! //! * **[Hub](struct.Taskqueue.html)** //! * a central object to maintain state and allow accessing all *Activities* //! * creates [*Method Builders*](trait.MethodsBuilder.html) which in turn //! allow access to individual [*Call Builders*](trait.CallBuilder.html) //! * **[Resources](trait.Resource.html)** //! * primary types that you can apply *Activities* to //! * a collection of properties and *Parts* //! * **[Parts](trait.Part.html)** //! * a collection of properties //! * never directly used in *Activities* //! * **[Activities](trait.CallBuilder.html)** //! * operations to apply to *Resources* //! //! All *structures* are marked with applicable traits to further categorize them and ease browsing. //! //! Generally speaking, you can invoke *Activities* like this: //! //! ```Rust,ignore //! let r = hub.resource().activity(...).doit() //! ``` //! //! Or specifically ... //! //! ```ignore //! let r = hub.tasks().lease(...).doit() //! let r = hub.tasks().insert(...).doit() //! let r = hub.tasks().delete(...).doit() //! let r = hub.tasks().patch(...).doit() //! let r = hub.tasks().list(...).doit() //! let r = hub.tasks().get(...).doit() //! let r = hub.tasks().update(...).doit() //! ``` //! //! The `resource()` and `activity(...)` calls create [builders][builder-pattern]. The second one dealing with `Activities` //! supports various methods to configure the impending operation (not shown here). It is made such that all required arguments have to be //! specified right away (i.e. `(...)`), whereas all optional ones can be [build up][builder-pattern] as desired. //! The `doit()` method performs the actual communication with the server and returns the respective result. //! //! # Usage //! //! ## Setting up your Project //! //! To use this library, you would put the following lines into your `Cargo.toml` file: //! //! ```toml //! [dependencies] //! google-taskqueue1_beta2 = "*" //! ``` //! //! ## A complete example //! //! ```test_harness,no_run //! extern crate hyper; //! extern crate yup_oauth2 as oauth2; //! extern crate google_taskqueue1_beta2 as taskqueue1_beta2; //! use taskqueue1_beta2::{Result, Error}; //! # #[test] fn egal() { //! use std::default::Default; //! use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage}; //! use taskqueue1_beta2::Taskqueue; //! //! // Get an ApplicationSecret instance by some means. It contains the `client_id` and //! // `client_secret`, among other things. //! let secret: ApplicationSecret = Default::default(); //! // Instantiate the authenticator. It will choose a suitable authentication flow for you, //! // unless you replace `None` with the desired Flow. //! // Provide your own `AuthenticatorDelegate` to adjust the way it operates and get feedback about //! // what's going on. You probably want to bring in your own `TokenStorage` to persist tokens and //! // retrieve them from storage. //! let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate, //! hyper::Client::new(), //! ::default(), None); //! let mut hub = Taskqueue::new(hyper::Client::new(), auth); //! // You can configure optional parameters by calling the respective setters at will, and //! // execute the final call using `doit()`. //! // Values shown here are possibly random and not representative ! //! let result = hub.tasks().lease("project", "taskqueue", -8, -70) //! .tag("amet.") //! .group_by_tag(false) //! .doit(); //! //! match result { //! Err(e) => match e { //! // The Error enum provides details about what exactly happened. //! // You can also just use its `Debug`, `Display` or `Error` traits //! Error::HttpError(_) //! |Error::MissingAPIKey //! |Error::MissingToken(_) //! |Error::Cancelled //! |Error::UploadSizeLimitExceeded(_, _) //! |Error::Failure(_) //! |Error::BadRequest(_) //! |Error::FieldClash(_) //! |Error::JsonDecodeError(_, _) => println!("{}", e), //! }, //! Ok(res) => println!("Success: {:?}", res), //! } //! # } //! ``` //! ## Handling Errors //! //! All errors produced by the system are provided either as [Result](enum.Result.html) enumeration as return value of //! the doit() methods, or handed as possibly intermediate results to either the //! [Hub Delegate](trait.Delegate.html), or the [Authenticator Delegate](https://docs.rs/yup-oauth2/*/yup_oauth2/trait.AuthenticatorDelegate.html). //! //! When delegates handle errors or intermediate values, they may have a chance to instruct the system to retry. This //! makes the system potentially resilient to all kinds of errors. //! //! ## Uploads and Downloads //! If a method supports downloads, the response body, which is part of the [Result](enum.Result.html), should be //! read by you to obtain the media. //! If such a method also supports a [Response Result](trait.ResponseResult.html), it will return that by default. //! You can see it as meta-data for the actual media. To trigger a media download, you will have to set up the builder by making //! this call: `.param("alt", "media")`. //! //! Methods supporting uploads can do so using up to 2 different protocols: //! *simple* and *resumable*. The distinctiveness of each is represented by customized //! `doit(...)` methods, which are then named `upload(...)` and `upload_resumable(...)` respectively. //! //! ## Customization and Callbacks //! //! You may alter the way an `doit()` method is called by providing a [delegate](trait.Delegate.html) to the //! [Method Builder](trait.CallBuilder.html) before making the final `doit()` call. //! Respective methods will be called to provide progress information, as well as determine whether the system should //! retry on failure. //! //! The [delegate trait](trait.Delegate.html) is default-implemented, allowing you to customize it with minimal effort. //! //! ## Optional Parts in Server-Requests //! //! All structures provided by this library are made to be [enocodable](trait.RequestValue.html) and //! [decodable](trait.ResponseResult.html) via *json*. Optionals are used to indicate that partial requests are responses //! are valid. //! Most optionals are are considered [Parts](trait.Part.html) which are identifiable by name, which will be sent to //! the server to indicate either the set parts of the request or the desired parts in the response. //! //! ## Builder Arguments //! //! Using [method builders](trait.CallBuilder.html), you are able to prepare an action call by repeatedly calling it's methods. //! These will always take a single argument, for which the following statements are true. //! //! * [PODs][wiki-pod] are handed by copy //! * strings are passed as `&str` //! * [request values](trait.RequestValue.html) are moved //! //! Arguments will always be copied or cloned into the builder, to make them independent of their original life times. //! //! [wiki-pod]: http://en.wikipedia.org/wiki/Plain_old_data_structure //! [builder-pattern]: http://en.wikipedia.org/wiki/Builder_pattern //! [google-go-api]: https://github.com/google/google-api-go-client //! //! // Unused attributes happen thanks to defined, but unused structures // We don't warn about this, as depending on the API, some data structures or facilities are never used. // Instead of pre-determining this, we just disable the lint. It's manually tuned to not have any // unused imports in fully featured APIs. Same with unused_mut ... . #![allow(unused_imports, unused_mut, dead_code)] // DO NOT EDIT ! // This file was generated automatically from 'src/mako/api/lib.rs.mako' // DO NOT EDIT ! #[macro_use] extern crate serde_derive; extern crate hyper; extern crate serde; extern crate serde_json; extern crate yup_oauth2 as oauth2; extern crate mime; extern crate url; mod cmn; use std::collections::HashMap; use std::cell::RefCell; use std::borrow::BorrowMut; use std::default::Default; use std::collections::BTreeMap; use serde_json as json; use std::io; use std::fs; use std::thread::sleep; use std::time::Duration; pub use cmn::{MultiPartReader, ToParts, MethodInfo, Result, Error, CallBuilder, Hub, ReadSeek, Part, ResponseResult, RequestValue, NestedType, Delegate, DefaultDelegate, MethodsBuilder, Resource, ErrorResponse, remove_json_null_values}; // ############## // UTILITIES ### // ############ /// Identifies the an OAuth2 authorization scope. /// A scope is needed when requesting an /// [authorization token](https://developers.google.com/youtube/v3/guides/authentication). #[derive(PartialEq, Eq, Hash)] pub enum Scope { /// Manage your Tasks and Taskqueues Full, /// Consume Tasks from your Taskqueues Consumer, } impl AsRef for Scope { fn as_ref(&self) -> &str { match *self { Scope::Full => "https://www.googleapis.com/auth/taskqueue", Scope::Consumer => "https://www.googleapis.com/auth/taskqueue.consumer", } } } impl Default for Scope { fn default() -> Scope { Scope::Full } } // ######## // HUB ### // ###### /// Central instance to access all Taskqueue related resource activities /// /// # Examples /// /// Instantiate a new hub /// /// ```test_harness,no_run /// extern crate hyper; /// extern crate yup_oauth2 as oauth2; /// extern crate google_taskqueue1_beta2 as taskqueue1_beta2; /// use taskqueue1_beta2::{Result, Error}; /// # #[test] fn egal() { /// use std::default::Default; /// use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage}; /// use taskqueue1_beta2::Taskqueue; /// /// // Get an ApplicationSecret instance by some means. It contains the `client_id` and /// // `client_secret`, among other things. /// let secret: ApplicationSecret = Default::default(); /// // Instantiate the authenticator. It will choose a suitable authentication flow for you, /// // unless you replace `None` with the desired Flow. /// // Provide your own `AuthenticatorDelegate` to adjust the way it operates and get feedback about /// // what's going on. You probably want to bring in your own `TokenStorage` to persist tokens and /// // retrieve them from storage. /// let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate, /// hyper::Client::new(), /// ::default(), None); /// let mut hub = Taskqueue::new(hyper::Client::new(), auth); /// // You can configure optional parameters by calling the respective setters at will, and /// // execute the final call using `doit()`. /// // Values shown here are possibly random and not representative ! /// let result = hub.tasks().lease("project", "taskqueue", -90, -19) /// .tag("gubergren") /// .group_by_tag(false) /// .doit(); /// /// match result { /// Err(e) => match e { /// // The Error enum provides details about what exactly happened. /// // You can also just use its `Debug`, `Display` or `Error` traits /// Error::HttpError(_) /// |Error::MissingAPIKey /// |Error::MissingToken(_) /// |Error::Cancelled /// |Error::UploadSizeLimitExceeded(_, _) /// |Error::Failure(_) /// |Error::BadRequest(_) /// |Error::FieldClash(_) /// |Error::JsonDecodeError(_, _) => println!("{}", e), /// }, /// Ok(res) => println!("Success: {:?}", res), /// } /// # } /// ``` pub struct Taskqueue { client: RefCell, auth: RefCell, _user_agent: String, } impl<'a, C, A> Hub for Taskqueue {} impl<'a, C, A> Taskqueue where C: BorrowMut, A: oauth2::GetToken { pub fn new(client: C, authenticator: A) -> Taskqueue { Taskqueue { client: RefCell::new(client), auth: RefCell::new(authenticator), _user_agent: "google-api-rust-client/1.0.4".to_string(), } } pub fn taskqueues(&'a self) -> TaskqueueMethods<'a, C, A> { TaskqueueMethods { hub: &self } } pub fn tasks(&'a self) -> TaskMethods<'a, C, A> { TaskMethods { hub: &self } } /// Set the user-agent header field to use in all requests to the server. /// It defaults to `google-api-rust-client/1.0.4`. /// /// Returns the previously set user-agent. pub fn user_agent(&mut self, agent_name: String) -> String { let prev = self._user_agent.clone(); self._user_agent = agent_name; prev } } // ############ // SCHEMAS ### // ########## /// There is no detailed description. /// /// # Activities /// /// This type is used in activities, which are methods you may call on this type or where this type is involved in. /// The list links the activity name, along with information about where it is used (one of *request* and *response*). /// /// * [lease tasks](struct.TaskLeaseCall.html) (none) /// * [insert tasks](struct.TaskInsertCall.html) (request|response) /// * [delete tasks](struct.TaskDeleteCall.html) (none) /// * [patch tasks](struct.TaskPatchCall.html) (request|response) /// * [list tasks](struct.TaskListCall.html) (none) /// * [get tasks](struct.TaskGetCall.html) (response) /// * [update tasks](struct.TaskUpdateCall.html) (request|response) /// #[derive(Default, Clone, Debug, Serialize, Deserialize)] pub struct Task { /// The kind of object returned, in this case set to task. pub kind: Option, /// Time (in seconds since the epoch) at which the task lease will expire. This value is 0 if the task isnt currently leased out to a worker. #[serde(rename="leaseTimestamp")] pub lease_timestamp: Option, /// Name of the queue that the task is in. #[serde(rename="queueName")] pub queue_name: Option, /// The number of leases applied to this task. pub retry_count: Option, /// Tag for the task, could be used later to lease tasks grouped by a specific tag. pub tag: Option, /// A bag of bytes which is the task payload. The payload on the JSON side is always Base64 encoded. #[serde(rename="payloadBase64")] pub payload_base64: Option, /// Name of the task. pub id: Option, /// Time (in seconds since the epoch) at which the task was enqueued. #[serde(rename="enqueueTimestamp")] pub enqueue_timestamp: Option, } impl RequestValue for Task {} impl Resource for Task {} impl ResponseResult for Task {} /// There is no detailed description. /// /// # Activities /// /// This type is used in activities, which are methods you may call on this type or where this type is involved in. /// The list links the activity name, along with information about where it is used (one of *request* and *response*). /// /// * [list tasks](struct.TaskListCall.html) (response) /// #[derive(Default, Clone, Debug, Serialize, Deserialize)] pub struct Tasks2 { /// The actual list of tasks currently active in the TaskQueue. pub items: Option>, /// The kind of object returned, a list of tasks. pub kind: Option, } impl ResponseResult for Tasks2 {} /// Statistics for the TaskQueue object in question. /// /// This type is not used in any activity, and only used as *part* of another schema. /// #[derive(Default, Clone, Debug, Serialize, Deserialize)] pub struct TaskQueueStats { /// The timestamp (in seconds since the epoch) of the oldest unfinished task. #[serde(rename="oldestTask")] pub oldest_task: Option, /// Number of tasks leased in the last minute. #[serde(rename="leasedLastMinute")] pub leased_last_minute: Option, /// Number of tasks leased in the last hour. #[serde(rename="leasedLastHour")] pub leased_last_hour: Option, /// Number of tasks in the queue. #[serde(rename="totalTasks")] pub total_tasks: Option, } impl NestedType for TaskQueueStats {} impl Part for TaskQueueStats {} /// ACLs that are applicable to this TaskQueue object. /// /// This type is not used in any activity, and only used as *part* of another schema. /// #[derive(Default, Clone, Debug, Serialize, Deserialize)] pub struct TaskQueueAcl { /// Email addresses of users who can "consume" tasks from the TaskQueue. This means they can Dequeue and Delete tasks from the queue. #[serde(rename="consumerEmails")] pub consumer_emails: Option>, /// Email addresses of users who can "produce" tasks into the TaskQueue. This means they can Insert tasks into the queue. #[serde(rename="producerEmails")] pub producer_emails: Option>, /// Email addresses of users who are "admins" of the TaskQueue. This means they can control the queue, eg set ACLs for the queue. #[serde(rename="adminEmails")] pub admin_emails: Option>, } impl NestedType for TaskQueueAcl {} impl Part for TaskQueueAcl {} /// There is no detailed description. /// /// # Activities /// /// This type is used in activities, which are methods you may call on this type or where this type is involved in. /// The list links the activity name, along with information about where it is used (one of *request* and *response*). /// /// * [get taskqueues](struct.TaskqueueGetCall.html) (response) /// #[derive(Default, Clone, Debug, Serialize, Deserialize)] pub struct TaskQueue { /// The kind of REST object returned, in this case taskqueue. pub kind: Option, /// Statistics for the TaskQueue object in question. pub stats: Option, /// Name of the taskqueue. pub id: Option, /// The number of times we should lease out tasks before giving up on them. If unset we lease them out forever until a worker deletes the task. #[serde(rename="maxLeases")] pub max_leases: Option, /// ACLs that are applicable to this TaskQueue object. pub acl: Option, } impl Resource for TaskQueue {} impl ResponseResult for TaskQueue {} /// There is no detailed description. /// /// # Activities /// /// This type is used in activities, which are methods you may call on this type or where this type is involved in. /// The list links the activity name, along with information about where it is used (one of *request* and *response*). /// /// * [lease tasks](struct.TaskLeaseCall.html) (response) /// #[derive(Default, Clone, Debug, Serialize, Deserialize)] pub struct Tasks { /// The actual list of tasks returned as a result of the lease operation. pub items: Option>, /// The kind of object returned, a list of tasks. pub kind: Option, } impl ResponseResult for Tasks {} // ################### // MethodBuilders ### // ################# /// A builder providing access to all methods supported on *taskqueue* resources. /// It is not used directly, but through the `Taskqueue` hub. /// /// # Example /// /// Instantiate a resource builder /// /// ```test_harness,no_run /// extern crate hyper; /// extern crate yup_oauth2 as oauth2; /// extern crate google_taskqueue1_beta2 as taskqueue1_beta2; /// /// # #[test] fn egal() { /// use std::default::Default; /// use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage}; /// use taskqueue1_beta2::Taskqueue; /// /// let secret: ApplicationSecret = Default::default(); /// let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate, /// hyper::Client::new(), /// ::default(), None); /// let mut hub = Taskqueue::new(hyper::Client::new(), auth); /// // Usually you wouldn't bind this to a variable, but keep calling *CallBuilders* /// // like `get(...)` /// // to build up your call. /// let rb = hub.taskqueues(); /// # } /// ``` pub struct TaskqueueMethods<'a, C, A> where C: 'a, A: 'a { hub: &'a Taskqueue, } impl<'a, C, A> MethodsBuilder for TaskqueueMethods<'a, C, A> {} impl<'a, C, A> TaskqueueMethods<'a, C, A> { /// Create a builder to help you perform the following task: /// /// Get detailed information about a TaskQueue. /// /// # Arguments /// /// * `project` - The project under which the queue lies. /// * `taskqueue` - The id of the taskqueue to get the properties of. pub fn get(&self, project: &str, taskqueue: &str) -> TaskqueueGetCall<'a, C, A> { TaskqueueGetCall { hub: self.hub, _project: project.to_string(), _taskqueue: taskqueue.to_string(), _get_stats: Default::default(), _delegate: Default::default(), _scopes: Default::default(), _additional_params: Default::default(), } } } /// A builder providing access to all methods supported on *task* resources. /// It is not used directly, but through the `Taskqueue` hub. /// /// # Example /// /// Instantiate a resource builder /// /// ```test_harness,no_run /// extern crate hyper; /// extern crate yup_oauth2 as oauth2; /// extern crate google_taskqueue1_beta2 as taskqueue1_beta2; /// /// # #[test] fn egal() { /// use std::default::Default; /// use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage}; /// use taskqueue1_beta2::Taskqueue; /// /// let secret: ApplicationSecret = Default::default(); /// let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate, /// hyper::Client::new(), /// ::default(), None); /// let mut hub = Taskqueue::new(hyper::Client::new(), auth); /// // Usually you wouldn't bind this to a variable, but keep calling *CallBuilders* /// // like `delete(...)`, `get(...)`, `insert(...)`, `lease(...)`, `list(...)`, `patch(...)` and `update(...)` /// // to build up your call. /// let rb = hub.tasks(); /// # } /// ``` pub struct TaskMethods<'a, C, A> where C: 'a, A: 'a { hub: &'a Taskqueue, } impl<'a, C, A> MethodsBuilder for TaskMethods<'a, C, A> {} impl<'a, C, A> TaskMethods<'a, C, A> { /// Create a builder to help you perform the following task: /// /// Lease 1 or more tasks from a TaskQueue. /// /// # Arguments /// /// * `project` - The project under which the queue lies. /// * `taskqueue` - The taskqueue to lease a task from. /// * `numTasks` - The number of tasks to lease. /// * `leaseSecs` - The lease in seconds. pub fn lease(&self, project: &str, taskqueue: &str, num_tasks: i32, lease_secs: i32) -> TaskLeaseCall<'a, C, A> { TaskLeaseCall { hub: self.hub, _project: project.to_string(), _taskqueue: taskqueue.to_string(), _num_tasks: num_tasks, _lease_secs: lease_secs, _tag: Default::default(), _group_by_tag: Default::default(), _delegate: Default::default(), _scopes: Default::default(), _additional_params: Default::default(), } } /// Create a builder to help you perform the following task: /// /// Insert a new task in a TaskQueue /// /// # Arguments /// /// * `request` - No description provided. /// * `project` - The project under which the queue lies /// * `taskqueue` - The taskqueue to insert the task into pub fn insert(&self, request: Task, project: &str, taskqueue: &str) -> TaskInsertCall<'a, C, A> { TaskInsertCall { hub: self.hub, _request: request, _project: project.to_string(), _taskqueue: taskqueue.to_string(), _delegate: Default::default(), _scopes: Default::default(), _additional_params: Default::default(), } } /// Create a builder to help you perform the following task: /// /// Delete a task from a TaskQueue. /// /// # Arguments /// /// * `project` - The project under which the queue lies. /// * `taskqueue` - The taskqueue to delete a task from. /// * `task` - The id of the task to delete. pub fn delete(&self, project: &str, taskqueue: &str, task: &str) -> TaskDeleteCall<'a, C, A> { TaskDeleteCall { hub: self.hub, _project: project.to_string(), _taskqueue: taskqueue.to_string(), _task: task.to_string(), _delegate: Default::default(), _scopes: Default::default(), _additional_params: Default::default(), } } /// Create a builder to help you perform the following task: /// /// Update tasks that are leased out of a TaskQueue. This method supports patch semantics. /// /// # Arguments /// /// * `request` - No description provided. /// * `project` - The project under which the queue lies. /// * `taskqueue` - No description provided. /// * `task` - No description provided. /// * `newLeaseSeconds` - The new lease in seconds. pub fn patch(&self, request: Task, project: &str, taskqueue: &str, task: &str, new_lease_seconds: i32) -> TaskPatchCall<'a, C, A> { TaskPatchCall { hub: self.hub, _request: request, _project: project.to_string(), _taskqueue: taskqueue.to_string(), _task: task.to_string(), _new_lease_seconds: new_lease_seconds, _delegate: Default::default(), _scopes: Default::default(), _additional_params: Default::default(), } } /// Create a builder to help you perform the following task: /// /// List Tasks in a TaskQueue /// /// # Arguments /// /// * `project` - The project under which the queue lies. /// * `taskqueue` - The id of the taskqueue to list tasks from. pub fn list(&self, project: &str, taskqueue: &str) -> TaskListCall<'a, C, A> { TaskListCall { hub: self.hub, _project: project.to_string(), _taskqueue: taskqueue.to_string(), _delegate: Default::default(), _scopes: Default::default(), _additional_params: Default::default(), } } /// Create a builder to help you perform the following task: /// /// Get a particular task from a TaskQueue. /// /// # Arguments /// /// * `project` - The project under which the queue lies. /// * `taskqueue` - The taskqueue in which the task belongs. /// * `task` - The task to get properties of. pub fn get(&self, project: &str, taskqueue: &str, task: &str) -> TaskGetCall<'a, C, A> { TaskGetCall { hub: self.hub, _project: project.to_string(), _taskqueue: taskqueue.to_string(), _task: task.to_string(), _delegate: Default::default(), _scopes: Default::default(), _additional_params: Default::default(), } } /// Create a builder to help you perform the following task: /// /// Update tasks that are leased out of a TaskQueue. /// /// # Arguments /// /// * `request` - No description provided. /// * `project` - The project under which the queue lies. /// * `taskqueue` - No description provided. /// * `task` - No description provided. /// * `newLeaseSeconds` - The new lease in seconds. pub fn update(&self, request: Task, project: &str, taskqueue: &str, task: &str, new_lease_seconds: i32) -> TaskUpdateCall<'a, C, A> { TaskUpdateCall { hub: self.hub, _request: request, _project: project.to_string(), _taskqueue: taskqueue.to_string(), _task: task.to_string(), _new_lease_seconds: new_lease_seconds, _delegate: Default::default(), _scopes: Default::default(), _additional_params: Default::default(), } } } // ################### // CallBuilders ### // ################# /// Get detailed information about a TaskQueue. /// /// A builder for the *get* method supported by a *taskqueue* resource. /// It is not used directly, but through a `TaskqueueMethods` instance. /// /// # Example /// /// Instantiate a resource method builder /// /// ```test_harness,no_run /// # extern crate hyper; /// # extern crate yup_oauth2 as oauth2; /// # extern crate google_taskqueue1_beta2 as taskqueue1_beta2; /// # #[test] fn egal() { /// # use std::default::Default; /// # use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage}; /// # use taskqueue1_beta2::Taskqueue; /// /// # let secret: ApplicationSecret = Default::default(); /// # let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate, /// # hyper::Client::new(), /// # ::default(), None); /// # let mut hub = Taskqueue::new(hyper::Client::new(), auth); /// // You can configure optional parameters by calling the respective setters at will, and /// // execute the final call using `doit()`. /// // Values shown here are possibly random and not representative ! /// let result = hub.taskqueues().get("project", "taskqueue") /// .get_stats(false) /// .doit(); /// # } /// ``` pub struct TaskqueueGetCall<'a, C, A> where C: 'a, A: 'a { hub: &'a Taskqueue, _project: String, _taskqueue: String, _get_stats: Option, _delegate: Option<&'a mut Delegate>, _additional_params: HashMap, _scopes: BTreeMap } impl<'a, C, A> CallBuilder for TaskqueueGetCall<'a, C, A> {} impl<'a, C, A> TaskqueueGetCall<'a, C, A> where C: BorrowMut, A: oauth2::GetToken { /// Perform the operation you have build so far. pub fn doit(mut self) -> Result<(hyper::client::Response, TaskQueue)> { use std::io::{Read, Seek}; use hyper::header::{ContentType, ContentLength, Authorization, Bearer, UserAgent, Location}; let mut dd = DefaultDelegate; let mut dlg: &mut Delegate = match self._delegate { Some(d) => d, None => &mut dd }; dlg.begin(MethodInfo { id: "taskqueue.taskqueues.get", http_method: hyper::method::Method::Get }); let mut params: Vec<(&str, String)> = Vec::with_capacity((5 + self._additional_params.len())); params.push(("project", self._project.to_string())); params.push(("taskqueue", self._taskqueue.to_string())); if let Some(value) = self._get_stats { params.push(("getStats", value.to_string())); } for &field in ["alt", "project", "taskqueue", "getStats"].iter() { if self._additional_params.contains_key(field) { dlg.finished(false); return Err(Error::FieldClash(field)); } } for (name, value) in self._additional_params.iter() { params.push((&name, value.clone())); } params.push(("alt", "json".to_string())); let mut url = "https://www.googleapis.com/taskqueue/v1beta2/projects/{project}/taskqueues/{taskqueue}".to_string(); if self._scopes.len() == 0 { self._scopes.insert(Scope::Full.as_ref().to_string(), ()); } for &(find_this, param_name) in [("{project}", "project"), ("{taskqueue}", "taskqueue")].iter() { let mut replace_with: Option<&str> = None; for &(name, ref value) in params.iter() { if name == param_name { replace_with = Some(value); break; } } url = url.replace(find_this, replace_with.expect("to find substitution value in params")); } { let mut indices_for_removal: Vec = Vec::with_capacity(2); for param_name in ["taskqueue", "project"].iter() { if let Some(index) = params.iter().position(|t| &t.0 == param_name) { indices_for_removal.push(index); } } for &index in indices_for_removal.iter() { params.remove(index); } } if params.len() > 0 { url.push('?'); url.push_str(&url::form_urlencoded::serialize(params)); } loop { let token = match self.hub.auth.borrow_mut().token(self._scopes.keys()) { Ok(token) => token, Err(err) => { match dlg.token(&*err) { Some(token) => token, None => { dlg.finished(false); return Err(Error::MissingToken(err)) } } } }; let auth_header = Authorization(Bearer { token: token.access_token }); let mut req_result = { let mut client = &mut *self.hub.client.borrow_mut(); let mut req = client.borrow_mut().request(hyper::method::Method::Get, &url) .header(UserAgent(self.hub._user_agent.clone())) .header(auth_header.clone()); dlg.pre_request(); req.send() }; match req_result { Err(err) => { if let oauth2::Retry::After(d) = dlg.http_error(&err) { sleep(d); continue; } dlg.finished(false); return Err(Error::HttpError(err)) } Ok(mut res) => { if !res.status.is_success() { let mut json_err = String::new(); res.read_to_string(&mut json_err).unwrap(); if let oauth2::Retry::After(d) = dlg.http_failure(&res, json::from_str(&json_err).ok(), json::from_str(&json_err).ok()) { sleep(d); continue; } dlg.finished(false); return match json::from_str::(&json_err){ Err(_) => Err(Error::Failure(res)), Ok(serr) => Err(Error::BadRequest(serr)) } } let result_value = { let mut json_response = String::new(); res.read_to_string(&mut json_response).unwrap(); match json::from_str(&json_response) { Ok(decoded) => (res, decoded), Err(err) => { dlg.response_json_decode_error(&json_response, &err); return Err(Error::JsonDecodeError(json_response, err)); } } }; dlg.finished(true); return Ok(result_value) } } } } /// The project under which the queue lies. /// /// Sets the *project* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn project(mut self, new_value: &str) -> TaskqueueGetCall<'a, C, A> { self._project = new_value.to_string(); self } /// The id of the taskqueue to get the properties of. /// /// Sets the *taskqueue* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn taskqueue(mut self, new_value: &str) -> TaskqueueGetCall<'a, C, A> { self._taskqueue = new_value.to_string(); self } /// Whether to get stats. Optional. /// /// Sets the *get stats* query property to the given value. pub fn get_stats(mut self, new_value: bool) -> TaskqueueGetCall<'a, C, A> { self._get_stats = Some(new_value); self } /// The delegate implementation is consulted whenever there is an intermediate result, or if something goes wrong /// while executing the actual API request. /// /// It should be used to handle progress information, and to implement a certain level of resilience. /// /// Sets the *delegate* property to the given value. pub fn delegate(mut self, new_value: &'a mut Delegate) -> TaskqueueGetCall<'a, C, A> { self._delegate = Some(new_value); self } /// Set any additional parameter of the query string used in the request. /// It should be used to set parameters which are not yet available through their own /// setters. /// /// Please note that this method must not be used to set any of the known paramters /// which have their own setter method. If done anyway, the request will fail. /// /// # Additional Parameters /// /// * *quotaUser* (query-string) - Available to use for quota purposes for server-side applications. Can be any arbitrary string assigned to a user, but should not exceed 40 characters. Overrides userIp if both are provided. /// * *oauth_token* (query-string) - OAuth 2.0 token for the current user. /// * *key* (query-string) - API key. Your API key identifies your project and provides you with API access, quota, and reports. Required unless you provide an OAuth 2.0 token. /// * *prettyPrint* (query-boolean) - Returns response with indentations and line breaks. /// * *userIp* (query-string) - IP address of the site where the request originates. Use this if you want to enforce per-user limits. /// * *fields* (query-string) - Selector specifying which fields to include in a partial response. /// * *alt* (query-string) - Data format for the response. pub fn param(mut self, name: T, value: T) -> TaskqueueGetCall<'a, C, A> where T: AsRef { self._additional_params.insert(name.as_ref().to_string(), value.as_ref().to_string()); self } /// Identifies the authorization scope for the method you are building. /// /// Use this method to actively specify which scope should be used, instead the default `Scope` variant /// `Scope::Full`. /// /// The `scope` will be added to a set of scopes. This is important as one can maintain access /// tokens for more than one scope. /// /// Usually there is more than one suitable scope to authorize an operation, some of which may /// encompass more rights than others. For example, for listing resources, a *read-only* scope will be /// sufficient, a read-write scope will do as well. pub fn add_scope(mut self, scope: T) -> TaskqueueGetCall<'a, C, A> where T: AsRef { self._scopes.insert(scope.as_ref().to_string(), ()); self } } /// Lease 1 or more tasks from a TaskQueue. /// /// A builder for the *lease* method supported by a *task* resource. /// It is not used directly, but through a `TaskMethods` instance. /// /// # Example /// /// Instantiate a resource method builder /// /// ```test_harness,no_run /// # extern crate hyper; /// # extern crate yup_oauth2 as oauth2; /// # extern crate google_taskqueue1_beta2 as taskqueue1_beta2; /// # #[test] fn egal() { /// # use std::default::Default; /// # use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage}; /// # use taskqueue1_beta2::Taskqueue; /// /// # let secret: ApplicationSecret = Default::default(); /// # let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate, /// # hyper::Client::new(), /// # ::default(), None); /// # let mut hub = Taskqueue::new(hyper::Client::new(), auth); /// // You can configure optional parameters by calling the respective setters at will, and /// // execute the final call using `doit()`. /// // Values shown here are possibly random and not representative ! /// let result = hub.tasks().lease("project", "taskqueue", -34, -17) /// .tag("diam") /// .group_by_tag(false) /// .doit(); /// # } /// ``` pub struct TaskLeaseCall<'a, C, A> where C: 'a, A: 'a { hub: &'a Taskqueue, _project: String, _taskqueue: String, _num_tasks: i32, _lease_secs: i32, _tag: Option, _group_by_tag: Option, _delegate: Option<&'a mut Delegate>, _additional_params: HashMap, _scopes: BTreeMap } impl<'a, C, A> CallBuilder for TaskLeaseCall<'a, C, A> {} impl<'a, C, A> TaskLeaseCall<'a, C, A> where C: BorrowMut, A: oauth2::GetToken { /// Perform the operation you have build so far. pub fn doit(mut self) -> Result<(hyper::client::Response, Tasks)> { use std::io::{Read, Seek}; use hyper::header::{ContentType, ContentLength, Authorization, Bearer, UserAgent, Location}; let mut dd = DefaultDelegate; let mut dlg: &mut Delegate = match self._delegate { Some(d) => d, None => &mut dd }; dlg.begin(MethodInfo { id: "taskqueue.tasks.lease", http_method: hyper::method::Method::Post }); let mut params: Vec<(&str, String)> = Vec::with_capacity((8 + self._additional_params.len())); params.push(("project", self._project.to_string())); params.push(("taskqueue", self._taskqueue.to_string())); params.push(("numTasks", self._num_tasks.to_string())); params.push(("leaseSecs", self._lease_secs.to_string())); if let Some(value) = self._tag { params.push(("tag", value.to_string())); } if let Some(value) = self._group_by_tag { params.push(("groupByTag", value.to_string())); } for &field in ["alt", "project", "taskqueue", "numTasks", "leaseSecs", "tag", "groupByTag"].iter() { if self._additional_params.contains_key(field) { dlg.finished(false); return Err(Error::FieldClash(field)); } } for (name, value) in self._additional_params.iter() { params.push((&name, value.clone())); } params.push(("alt", "json".to_string())); let mut url = "https://www.googleapis.com/taskqueue/v1beta2/projects/{project}/taskqueues/{taskqueue}/tasks/lease".to_string(); if self._scopes.len() == 0 { self._scopes.insert(Scope::Full.as_ref().to_string(), ()); } for &(find_this, param_name) in [("{project}", "project"), ("{taskqueue}", "taskqueue")].iter() { let mut replace_with: Option<&str> = None; for &(name, ref value) in params.iter() { if name == param_name { replace_with = Some(value); break; } } url = url.replace(find_this, replace_with.expect("to find substitution value in params")); } { let mut indices_for_removal: Vec = Vec::with_capacity(2); for param_name in ["taskqueue", "project"].iter() { if let Some(index) = params.iter().position(|t| &t.0 == param_name) { indices_for_removal.push(index); } } for &index in indices_for_removal.iter() { params.remove(index); } } if params.len() > 0 { url.push('?'); url.push_str(&url::form_urlencoded::serialize(params)); } loop { let token = match self.hub.auth.borrow_mut().token(self._scopes.keys()) { Ok(token) => token, Err(err) => { match dlg.token(&*err) { Some(token) => token, None => { dlg.finished(false); return Err(Error::MissingToken(err)) } } } }; let auth_header = Authorization(Bearer { token: token.access_token }); let mut req_result = { let mut client = &mut *self.hub.client.borrow_mut(); let mut req = client.borrow_mut().request(hyper::method::Method::Post, &url) .header(UserAgent(self.hub._user_agent.clone())) .header(auth_header.clone()); dlg.pre_request(); req.send() }; match req_result { Err(err) => { if let oauth2::Retry::After(d) = dlg.http_error(&err) { sleep(d); continue; } dlg.finished(false); return Err(Error::HttpError(err)) } Ok(mut res) => { if !res.status.is_success() { let mut json_err = String::new(); res.read_to_string(&mut json_err).unwrap(); if let oauth2::Retry::After(d) = dlg.http_failure(&res, json::from_str(&json_err).ok(), json::from_str(&json_err).ok()) { sleep(d); continue; } dlg.finished(false); return match json::from_str::(&json_err){ Err(_) => Err(Error::Failure(res)), Ok(serr) => Err(Error::BadRequest(serr)) } } let result_value = { let mut json_response = String::new(); res.read_to_string(&mut json_response).unwrap(); match json::from_str(&json_response) { Ok(decoded) => (res, decoded), Err(err) => { dlg.response_json_decode_error(&json_response, &err); return Err(Error::JsonDecodeError(json_response, err)); } } }; dlg.finished(true); return Ok(result_value) } } } } /// The project under which the queue lies. /// /// Sets the *project* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn project(mut self, new_value: &str) -> TaskLeaseCall<'a, C, A> { self._project = new_value.to_string(); self } /// The taskqueue to lease a task from. /// /// Sets the *taskqueue* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn taskqueue(mut self, new_value: &str) -> TaskLeaseCall<'a, C, A> { self._taskqueue = new_value.to_string(); self } /// The number of tasks to lease. /// /// Sets the *num tasks* query property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn num_tasks(mut self, new_value: i32) -> TaskLeaseCall<'a, C, A> { self._num_tasks = new_value; self } /// The lease in seconds. /// /// Sets the *lease secs* query property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn lease_secs(mut self, new_value: i32) -> TaskLeaseCall<'a, C, A> { self._lease_secs = new_value; self } /// The tag allowed for tasks in the response. Must only be specified if group_by_tag is true. If group_by_tag is true and tag is not specified the tag will be that of the oldest task by eta, i.e. the first available tag /// /// Sets the *tag* query property to the given value. pub fn tag(mut self, new_value: &str) -> TaskLeaseCall<'a, C, A> { self._tag = Some(new_value.to_string()); self } /// When true, all returned tasks will have the same tag /// /// Sets the *group by tag* query property to the given value. pub fn group_by_tag(mut self, new_value: bool) -> TaskLeaseCall<'a, C, A> { self._group_by_tag = Some(new_value); self } /// The delegate implementation is consulted whenever there is an intermediate result, or if something goes wrong /// while executing the actual API request. /// /// It should be used to handle progress information, and to implement a certain level of resilience. /// /// Sets the *delegate* property to the given value. pub fn delegate(mut self, new_value: &'a mut Delegate) -> TaskLeaseCall<'a, C, A> { self._delegate = Some(new_value); self } /// Set any additional parameter of the query string used in the request. /// It should be used to set parameters which are not yet available through their own /// setters. /// /// Please note that this method must not be used to set any of the known paramters /// which have their own setter method. If done anyway, the request will fail. /// /// # Additional Parameters /// /// * *quotaUser* (query-string) - Available to use for quota purposes for server-side applications. Can be any arbitrary string assigned to a user, but should not exceed 40 characters. Overrides userIp if both are provided. /// * *oauth_token* (query-string) - OAuth 2.0 token for the current user. /// * *key* (query-string) - API key. Your API key identifies your project and provides you with API access, quota, and reports. Required unless you provide an OAuth 2.0 token. /// * *prettyPrint* (query-boolean) - Returns response with indentations and line breaks. /// * *userIp* (query-string) - IP address of the site where the request originates. Use this if you want to enforce per-user limits. /// * *fields* (query-string) - Selector specifying which fields to include in a partial response. /// * *alt* (query-string) - Data format for the response. pub fn param(mut self, name: T, value: T) -> TaskLeaseCall<'a, C, A> where T: AsRef { self._additional_params.insert(name.as_ref().to_string(), value.as_ref().to_string()); self } /// Identifies the authorization scope for the method you are building. /// /// Use this method to actively specify which scope should be used, instead the default `Scope` variant /// `Scope::Full`. /// /// The `scope` will be added to a set of scopes. This is important as one can maintain access /// tokens for more than one scope. /// /// Usually there is more than one suitable scope to authorize an operation, some of which may /// encompass more rights than others. For example, for listing resources, a *read-only* scope will be /// sufficient, a read-write scope will do as well. pub fn add_scope(mut self, scope: T) -> TaskLeaseCall<'a, C, A> where T: AsRef { self._scopes.insert(scope.as_ref().to_string(), ()); self } } /// Insert a new task in a TaskQueue /// /// A builder for the *insert* method supported by a *task* resource. /// It is not used directly, but through a `TaskMethods` instance. /// /// # Example /// /// Instantiate a resource method builder /// /// ```test_harness,no_run /// # extern crate hyper; /// # extern crate yup_oauth2 as oauth2; /// # extern crate google_taskqueue1_beta2 as taskqueue1_beta2; /// use taskqueue1_beta2::Task; /// # #[test] fn egal() { /// # use std::default::Default; /// # use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage}; /// # use taskqueue1_beta2::Taskqueue; /// /// # let secret: ApplicationSecret = Default::default(); /// # let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate, /// # hyper::Client::new(), /// # ::default(), None); /// # let mut hub = Taskqueue::new(hyper::Client::new(), auth); /// // As the method needs a request, you would usually fill it with the desired information /// // into the respective structure. Some of the parts shown here might not be applicable ! /// // Values shown here are possibly random and not representative ! /// let mut req = Task::default(); /// /// // You can configure optional parameters by calling the respective setters at will, and /// // execute the final call using `doit()`. /// // Values shown here are possibly random and not representative ! /// let result = hub.tasks().insert(req, "project", "taskqueue") /// .doit(); /// # } /// ``` pub struct TaskInsertCall<'a, C, A> where C: 'a, A: 'a { hub: &'a Taskqueue, _request: Task, _project: String, _taskqueue: String, _delegate: Option<&'a mut Delegate>, _additional_params: HashMap, _scopes: BTreeMap } impl<'a, C, A> CallBuilder for TaskInsertCall<'a, C, A> {} impl<'a, C, A> TaskInsertCall<'a, C, A> where C: BorrowMut, A: oauth2::GetToken { /// Perform the operation you have build so far. pub fn doit(mut self) -> Result<(hyper::client::Response, Task)> { use std::io::{Read, Seek}; use hyper::header::{ContentType, ContentLength, Authorization, Bearer, UserAgent, Location}; let mut dd = DefaultDelegate; let mut dlg: &mut Delegate = match self._delegate { Some(d) => d, None => &mut dd }; dlg.begin(MethodInfo { id: "taskqueue.tasks.insert", http_method: hyper::method::Method::Post }); let mut params: Vec<(&str, String)> = Vec::with_capacity((5 + self._additional_params.len())); params.push(("project", self._project.to_string())); params.push(("taskqueue", self._taskqueue.to_string())); for &field in ["alt", "project", "taskqueue"].iter() { if self._additional_params.contains_key(field) { dlg.finished(false); return Err(Error::FieldClash(field)); } } for (name, value) in self._additional_params.iter() { params.push((&name, value.clone())); } params.push(("alt", "json".to_string())); let mut url = "https://www.googleapis.com/taskqueue/v1beta2/projects/{project}/taskqueues/{taskqueue}/tasks".to_string(); if self._scopes.len() == 0 { self._scopes.insert(Scope::Full.as_ref().to_string(), ()); } for &(find_this, param_name) in [("{project}", "project"), ("{taskqueue}", "taskqueue")].iter() { let mut replace_with: Option<&str> = None; for &(name, ref value) in params.iter() { if name == param_name { replace_with = Some(value); break; } } url = url.replace(find_this, replace_with.expect("to find substitution value in params")); } { let mut indices_for_removal: Vec = Vec::with_capacity(2); for param_name in ["taskqueue", "project"].iter() { if let Some(index) = params.iter().position(|t| &t.0 == param_name) { indices_for_removal.push(index); } } for &index in indices_for_removal.iter() { params.remove(index); } } if params.len() > 0 { url.push('?'); url.push_str(&url::form_urlencoded::serialize(params)); } let mut json_mime_type = mime::Mime(mime::TopLevel::Application, mime::SubLevel::Json, Default::default()); let mut request_value_reader = { let mut value = json::value::to_value(&self._request).expect("serde to work"); remove_json_null_values(&mut value); let mut dst = io::Cursor::new(Vec::with_capacity(128)); json::to_writer(&mut dst, &value).unwrap(); dst }; let request_size = request_value_reader.seek(io::SeekFrom::End(0)).unwrap(); request_value_reader.seek(io::SeekFrom::Start(0)).unwrap(); loop { let token = match self.hub.auth.borrow_mut().token(self._scopes.keys()) { Ok(token) => token, Err(err) => { match dlg.token(&*err) { Some(token) => token, None => { dlg.finished(false); return Err(Error::MissingToken(err)) } } } }; let auth_header = Authorization(Bearer { token: token.access_token }); request_value_reader.seek(io::SeekFrom::Start(0)).unwrap(); let mut req_result = { let mut client = &mut *self.hub.client.borrow_mut(); let mut req = client.borrow_mut().request(hyper::method::Method::Post, &url) .header(UserAgent(self.hub._user_agent.clone())) .header(auth_header.clone()) .header(ContentType(json_mime_type.clone())) .header(ContentLength(request_size as u64)) .body(&mut request_value_reader); dlg.pre_request(); req.send() }; match req_result { Err(err) => { if let oauth2::Retry::After(d) = dlg.http_error(&err) { sleep(d); continue; } dlg.finished(false); return Err(Error::HttpError(err)) } Ok(mut res) => { if !res.status.is_success() { let mut json_err = String::new(); res.read_to_string(&mut json_err).unwrap(); if let oauth2::Retry::After(d) = dlg.http_failure(&res, json::from_str(&json_err).ok(), json::from_str(&json_err).ok()) { sleep(d); continue; } dlg.finished(false); return match json::from_str::(&json_err){ Err(_) => Err(Error::Failure(res)), Ok(serr) => Err(Error::BadRequest(serr)) } } let result_value = { let mut json_response = String::new(); res.read_to_string(&mut json_response).unwrap(); match json::from_str(&json_response) { Ok(decoded) => (res, decoded), Err(err) => { dlg.response_json_decode_error(&json_response, &err); return Err(Error::JsonDecodeError(json_response, err)); } } }; dlg.finished(true); return Ok(result_value) } } } } /// /// Sets the *request* property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn request(mut self, new_value: Task) -> TaskInsertCall<'a, C, A> { self._request = new_value; self } /// The project under which the queue lies /// /// Sets the *project* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn project(mut self, new_value: &str) -> TaskInsertCall<'a, C, A> { self._project = new_value.to_string(); self } /// The taskqueue to insert the task into /// /// Sets the *taskqueue* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn taskqueue(mut self, new_value: &str) -> TaskInsertCall<'a, C, A> { self._taskqueue = new_value.to_string(); self } /// The delegate implementation is consulted whenever there is an intermediate result, or if something goes wrong /// while executing the actual API request. /// /// It should be used to handle progress information, and to implement a certain level of resilience. /// /// Sets the *delegate* property to the given value. pub fn delegate(mut self, new_value: &'a mut Delegate) -> TaskInsertCall<'a, C, A> { self._delegate = Some(new_value); self } /// Set any additional parameter of the query string used in the request. /// It should be used to set parameters which are not yet available through their own /// setters. /// /// Please note that this method must not be used to set any of the known paramters /// which have their own setter method. If done anyway, the request will fail. /// /// # Additional Parameters /// /// * *quotaUser* (query-string) - Available to use for quota purposes for server-side applications. Can be any arbitrary string assigned to a user, but should not exceed 40 characters. Overrides userIp if both are provided. /// * *oauth_token* (query-string) - OAuth 2.0 token for the current user. /// * *key* (query-string) - API key. Your API key identifies your project and provides you with API access, quota, and reports. Required unless you provide an OAuth 2.0 token. /// * *prettyPrint* (query-boolean) - Returns response with indentations and line breaks. /// * *userIp* (query-string) - IP address of the site where the request originates. Use this if you want to enforce per-user limits. /// * *fields* (query-string) - Selector specifying which fields to include in a partial response. /// * *alt* (query-string) - Data format for the response. pub fn param(mut self, name: T, value: T) -> TaskInsertCall<'a, C, A> where T: AsRef { self._additional_params.insert(name.as_ref().to_string(), value.as_ref().to_string()); self } /// Identifies the authorization scope for the method you are building. /// /// Use this method to actively specify which scope should be used, instead the default `Scope` variant /// `Scope::Full`. /// /// The `scope` will be added to a set of scopes. This is important as one can maintain access /// tokens for more than one scope. /// /// Usually there is more than one suitable scope to authorize an operation, some of which may /// encompass more rights than others. For example, for listing resources, a *read-only* scope will be /// sufficient, a read-write scope will do as well. pub fn add_scope(mut self, scope: T) -> TaskInsertCall<'a, C, A> where T: AsRef { self._scopes.insert(scope.as_ref().to_string(), ()); self } } /// Delete a task from a TaskQueue. /// /// A builder for the *delete* method supported by a *task* resource. /// It is not used directly, but through a `TaskMethods` instance. /// /// # Example /// /// Instantiate a resource method builder /// /// ```test_harness,no_run /// # extern crate hyper; /// # extern crate yup_oauth2 as oauth2; /// # extern crate google_taskqueue1_beta2 as taskqueue1_beta2; /// # #[test] fn egal() { /// # use std::default::Default; /// # use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage}; /// # use taskqueue1_beta2::Taskqueue; /// /// # let secret: ApplicationSecret = Default::default(); /// # let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate, /// # hyper::Client::new(), /// # ::default(), None); /// # let mut hub = Taskqueue::new(hyper::Client::new(), auth); /// // You can configure optional parameters by calling the respective setters at will, and /// // execute the final call using `doit()`. /// // Values shown here are possibly random and not representative ! /// let result = hub.tasks().delete("project", "taskqueue", "task") /// .doit(); /// # } /// ``` pub struct TaskDeleteCall<'a, C, A> where C: 'a, A: 'a { hub: &'a Taskqueue, _project: String, _taskqueue: String, _task: String, _delegate: Option<&'a mut Delegate>, _additional_params: HashMap, _scopes: BTreeMap } impl<'a, C, A> CallBuilder for TaskDeleteCall<'a, C, A> {} impl<'a, C, A> TaskDeleteCall<'a, C, A> where C: BorrowMut, A: oauth2::GetToken { /// Perform the operation you have build so far. pub fn doit(mut self) -> Result { use std::io::{Read, Seek}; use hyper::header::{ContentType, ContentLength, Authorization, Bearer, UserAgent, Location}; let mut dd = DefaultDelegate; let mut dlg: &mut Delegate = match self._delegate { Some(d) => d, None => &mut dd }; dlg.begin(MethodInfo { id: "taskqueue.tasks.delete", http_method: hyper::method::Method::Delete }); let mut params: Vec<(&str, String)> = Vec::with_capacity((4 + self._additional_params.len())); params.push(("project", self._project.to_string())); params.push(("taskqueue", self._taskqueue.to_string())); params.push(("task", self._task.to_string())); for &field in ["project", "taskqueue", "task"].iter() { if self._additional_params.contains_key(field) { dlg.finished(false); return Err(Error::FieldClash(field)); } } for (name, value) in self._additional_params.iter() { params.push((&name, value.clone())); } let mut url = "https://www.googleapis.com/taskqueue/v1beta2/projects/{project}/taskqueues/{taskqueue}/tasks/{task}".to_string(); if self._scopes.len() == 0 { self._scopes.insert(Scope::Full.as_ref().to_string(), ()); } for &(find_this, param_name) in [("{project}", "project"), ("{taskqueue}", "taskqueue"), ("{task}", "task")].iter() { let mut replace_with: Option<&str> = None; for &(name, ref value) in params.iter() { if name == param_name { replace_with = Some(value); break; } } url = url.replace(find_this, replace_with.expect("to find substitution value in params")); } { let mut indices_for_removal: Vec = Vec::with_capacity(3); for param_name in ["task", "taskqueue", "project"].iter() { if let Some(index) = params.iter().position(|t| &t.0 == param_name) { indices_for_removal.push(index); } } for &index in indices_for_removal.iter() { params.remove(index); } } if params.len() > 0 { url.push('?'); url.push_str(&url::form_urlencoded::serialize(params)); } loop { let token = match self.hub.auth.borrow_mut().token(self._scopes.keys()) { Ok(token) => token, Err(err) => { match dlg.token(&*err) { Some(token) => token, None => { dlg.finished(false); return Err(Error::MissingToken(err)) } } } }; let auth_header = Authorization(Bearer { token: token.access_token }); let mut req_result = { let mut client = &mut *self.hub.client.borrow_mut(); let mut req = client.borrow_mut().request(hyper::method::Method::Delete, &url) .header(UserAgent(self.hub._user_agent.clone())) .header(auth_header.clone()); dlg.pre_request(); req.send() }; match req_result { Err(err) => { if let oauth2::Retry::After(d) = dlg.http_error(&err) { sleep(d); continue; } dlg.finished(false); return Err(Error::HttpError(err)) } Ok(mut res) => { if !res.status.is_success() { let mut json_err = String::new(); res.read_to_string(&mut json_err).unwrap(); if let oauth2::Retry::After(d) = dlg.http_failure(&res, json::from_str(&json_err).ok(), json::from_str(&json_err).ok()) { sleep(d); continue; } dlg.finished(false); return match json::from_str::(&json_err){ Err(_) => Err(Error::Failure(res)), Ok(serr) => Err(Error::BadRequest(serr)) } } let result_value = res; dlg.finished(true); return Ok(result_value) } } } } /// The project under which the queue lies. /// /// Sets the *project* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn project(mut self, new_value: &str) -> TaskDeleteCall<'a, C, A> { self._project = new_value.to_string(); self } /// The taskqueue to delete a task from. /// /// Sets the *taskqueue* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn taskqueue(mut self, new_value: &str) -> TaskDeleteCall<'a, C, A> { self._taskqueue = new_value.to_string(); self } /// The id of the task to delete. /// /// Sets the *task* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn task(mut self, new_value: &str) -> TaskDeleteCall<'a, C, A> { self._task = new_value.to_string(); self } /// The delegate implementation is consulted whenever there is an intermediate result, or if something goes wrong /// while executing the actual API request. /// /// It should be used to handle progress information, and to implement a certain level of resilience. /// /// Sets the *delegate* property to the given value. pub fn delegate(mut self, new_value: &'a mut Delegate) -> TaskDeleteCall<'a, C, A> { self._delegate = Some(new_value); self } /// Set any additional parameter of the query string used in the request. /// It should be used to set parameters which are not yet available through their own /// setters. /// /// Please note that this method must not be used to set any of the known paramters /// which have their own setter method. If done anyway, the request will fail. /// /// # Additional Parameters /// /// * *quotaUser* (query-string) - Available to use for quota purposes for server-side applications. Can be any arbitrary string assigned to a user, but should not exceed 40 characters. Overrides userIp if both are provided. /// * *oauth_token* (query-string) - OAuth 2.0 token for the current user. /// * *key* (query-string) - API key. Your API key identifies your project and provides you with API access, quota, and reports. Required unless you provide an OAuth 2.0 token. /// * *prettyPrint* (query-boolean) - Returns response with indentations and line breaks. /// * *userIp* (query-string) - IP address of the site where the request originates. Use this if you want to enforce per-user limits. /// * *fields* (query-string) - Selector specifying which fields to include in a partial response. /// * *alt* (query-string) - Data format for the response. pub fn param(mut self, name: T, value: T) -> TaskDeleteCall<'a, C, A> where T: AsRef { self._additional_params.insert(name.as_ref().to_string(), value.as_ref().to_string()); self } /// Identifies the authorization scope for the method you are building. /// /// Use this method to actively specify which scope should be used, instead the default `Scope` variant /// `Scope::Full`. /// /// The `scope` will be added to a set of scopes. This is important as one can maintain access /// tokens for more than one scope. /// /// Usually there is more than one suitable scope to authorize an operation, some of which may /// encompass more rights than others. For example, for listing resources, a *read-only* scope will be /// sufficient, a read-write scope will do as well. pub fn add_scope(mut self, scope: T) -> TaskDeleteCall<'a, C, A> where T: AsRef { self._scopes.insert(scope.as_ref().to_string(), ()); self } } /// Update tasks that are leased out of a TaskQueue. This method supports patch semantics. /// /// A builder for the *patch* method supported by a *task* resource. /// It is not used directly, but through a `TaskMethods` instance. /// /// # Example /// /// Instantiate a resource method builder /// /// ```test_harness,no_run /// # extern crate hyper; /// # extern crate yup_oauth2 as oauth2; /// # extern crate google_taskqueue1_beta2 as taskqueue1_beta2; /// use taskqueue1_beta2::Task; /// # #[test] fn egal() { /// # use std::default::Default; /// # use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage}; /// # use taskqueue1_beta2::Taskqueue; /// /// # let secret: ApplicationSecret = Default::default(); /// # let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate, /// # hyper::Client::new(), /// # ::default(), None); /// # let mut hub = Taskqueue::new(hyper::Client::new(), auth); /// // As the method needs a request, you would usually fill it with the desired information /// // into the respective structure. Some of the parts shown here might not be applicable ! /// // Values shown here are possibly random and not representative ! /// let mut req = Task::default(); /// /// // You can configure optional parameters by calling the respective setters at will, and /// // execute the final call using `doit()`. /// // Values shown here are possibly random and not representative ! /// let result = hub.tasks().patch(req, "project", "taskqueue", "task", -95) /// .doit(); /// # } /// ``` pub struct TaskPatchCall<'a, C, A> where C: 'a, A: 'a { hub: &'a Taskqueue, _request: Task, _project: String, _taskqueue: String, _task: String, _new_lease_seconds: i32, _delegate: Option<&'a mut Delegate>, _additional_params: HashMap, _scopes: BTreeMap } impl<'a, C, A> CallBuilder for TaskPatchCall<'a, C, A> {} impl<'a, C, A> TaskPatchCall<'a, C, A> where C: BorrowMut, A: oauth2::GetToken { /// Perform the operation you have build so far. pub fn doit(mut self) -> Result<(hyper::client::Response, Task)> { use std::io::{Read, Seek}; use hyper::header::{ContentType, ContentLength, Authorization, Bearer, UserAgent, Location}; let mut dd = DefaultDelegate; let mut dlg: &mut Delegate = match self._delegate { Some(d) => d, None => &mut dd }; dlg.begin(MethodInfo { id: "taskqueue.tasks.patch", http_method: hyper::method::Method::Patch }); let mut params: Vec<(&str, String)> = Vec::with_capacity((7 + self._additional_params.len())); params.push(("project", self._project.to_string())); params.push(("taskqueue", self._taskqueue.to_string())); params.push(("task", self._task.to_string())); params.push(("newLeaseSeconds", self._new_lease_seconds.to_string())); for &field in ["alt", "project", "taskqueue", "task", "newLeaseSeconds"].iter() { if self._additional_params.contains_key(field) { dlg.finished(false); return Err(Error::FieldClash(field)); } } for (name, value) in self._additional_params.iter() { params.push((&name, value.clone())); } params.push(("alt", "json".to_string())); let mut url = "https://www.googleapis.com/taskqueue/v1beta2/projects/{project}/taskqueues/{taskqueue}/tasks/{task}".to_string(); if self._scopes.len() == 0 { self._scopes.insert(Scope::Full.as_ref().to_string(), ()); } for &(find_this, param_name) in [("{project}", "project"), ("{taskqueue}", "taskqueue"), ("{task}", "task")].iter() { let mut replace_with: Option<&str> = None; for &(name, ref value) in params.iter() { if name == param_name { replace_with = Some(value); break; } } url = url.replace(find_this, replace_with.expect("to find substitution value in params")); } { let mut indices_for_removal: Vec = Vec::with_capacity(3); for param_name in ["task", "taskqueue", "project"].iter() { if let Some(index) = params.iter().position(|t| &t.0 == param_name) { indices_for_removal.push(index); } } for &index in indices_for_removal.iter() { params.remove(index); } } if params.len() > 0 { url.push('?'); url.push_str(&url::form_urlencoded::serialize(params)); } let mut json_mime_type = mime::Mime(mime::TopLevel::Application, mime::SubLevel::Json, Default::default()); let mut request_value_reader = { let mut value = json::value::to_value(&self._request).expect("serde to work"); remove_json_null_values(&mut value); let mut dst = io::Cursor::new(Vec::with_capacity(128)); json::to_writer(&mut dst, &value).unwrap(); dst }; let request_size = request_value_reader.seek(io::SeekFrom::End(0)).unwrap(); request_value_reader.seek(io::SeekFrom::Start(0)).unwrap(); loop { let token = match self.hub.auth.borrow_mut().token(self._scopes.keys()) { Ok(token) => token, Err(err) => { match dlg.token(&*err) { Some(token) => token, None => { dlg.finished(false); return Err(Error::MissingToken(err)) } } } }; let auth_header = Authorization(Bearer { token: token.access_token }); request_value_reader.seek(io::SeekFrom::Start(0)).unwrap(); let mut req_result = { let mut client = &mut *self.hub.client.borrow_mut(); let mut req = client.borrow_mut().request(hyper::method::Method::Patch, &url) .header(UserAgent(self.hub._user_agent.clone())) .header(auth_header.clone()) .header(ContentType(json_mime_type.clone())) .header(ContentLength(request_size as u64)) .body(&mut request_value_reader); dlg.pre_request(); req.send() }; match req_result { Err(err) => { if let oauth2::Retry::After(d) = dlg.http_error(&err) { sleep(d); continue; } dlg.finished(false); return Err(Error::HttpError(err)) } Ok(mut res) => { if !res.status.is_success() { let mut json_err = String::new(); res.read_to_string(&mut json_err).unwrap(); if let oauth2::Retry::After(d) = dlg.http_failure(&res, json::from_str(&json_err).ok(), json::from_str(&json_err).ok()) { sleep(d); continue; } dlg.finished(false); return match json::from_str::(&json_err){ Err(_) => Err(Error::Failure(res)), Ok(serr) => Err(Error::BadRequest(serr)) } } let result_value = { let mut json_response = String::new(); res.read_to_string(&mut json_response).unwrap(); match json::from_str(&json_response) { Ok(decoded) => (res, decoded), Err(err) => { dlg.response_json_decode_error(&json_response, &err); return Err(Error::JsonDecodeError(json_response, err)); } } }; dlg.finished(true); return Ok(result_value) } } } } /// /// Sets the *request* property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn request(mut self, new_value: Task) -> TaskPatchCall<'a, C, A> { self._request = new_value; self } /// The project under which the queue lies. /// /// Sets the *project* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn project(mut self, new_value: &str) -> TaskPatchCall<'a, C, A> { self._project = new_value.to_string(); self } /// /// Sets the *taskqueue* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn taskqueue(mut self, new_value: &str) -> TaskPatchCall<'a, C, A> { self._taskqueue = new_value.to_string(); self } /// /// Sets the *task* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn task(mut self, new_value: &str) -> TaskPatchCall<'a, C, A> { self._task = new_value.to_string(); self } /// The new lease in seconds. /// /// Sets the *new lease seconds* query property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn new_lease_seconds(mut self, new_value: i32) -> TaskPatchCall<'a, C, A> { self._new_lease_seconds = new_value; self } /// The delegate implementation is consulted whenever there is an intermediate result, or if something goes wrong /// while executing the actual API request. /// /// It should be used to handle progress information, and to implement a certain level of resilience. /// /// Sets the *delegate* property to the given value. pub fn delegate(mut self, new_value: &'a mut Delegate) -> TaskPatchCall<'a, C, A> { self._delegate = Some(new_value); self } /// Set any additional parameter of the query string used in the request. /// It should be used to set parameters which are not yet available through their own /// setters. /// /// Please note that this method must not be used to set any of the known paramters /// which have their own setter method. If done anyway, the request will fail. /// /// # Additional Parameters /// /// * *quotaUser* (query-string) - Available to use for quota purposes for server-side applications. Can be any arbitrary string assigned to a user, but should not exceed 40 characters. Overrides userIp if both are provided. /// * *oauth_token* (query-string) - OAuth 2.0 token for the current user. /// * *key* (query-string) - API key. Your API key identifies your project and provides you with API access, quota, and reports. Required unless you provide an OAuth 2.0 token. /// * *prettyPrint* (query-boolean) - Returns response with indentations and line breaks. /// * *userIp* (query-string) - IP address of the site where the request originates. Use this if you want to enforce per-user limits. /// * *fields* (query-string) - Selector specifying which fields to include in a partial response. /// * *alt* (query-string) - Data format for the response. pub fn param(mut self, name: T, value: T) -> TaskPatchCall<'a, C, A> where T: AsRef { self._additional_params.insert(name.as_ref().to_string(), value.as_ref().to_string()); self } /// Identifies the authorization scope for the method you are building. /// /// Use this method to actively specify which scope should be used, instead the default `Scope` variant /// `Scope::Full`. /// /// The `scope` will be added to a set of scopes. This is important as one can maintain access /// tokens for more than one scope. /// /// Usually there is more than one suitable scope to authorize an operation, some of which may /// encompass more rights than others. For example, for listing resources, a *read-only* scope will be /// sufficient, a read-write scope will do as well. pub fn add_scope(mut self, scope: T) -> TaskPatchCall<'a, C, A> where T: AsRef { self._scopes.insert(scope.as_ref().to_string(), ()); self } } /// List Tasks in a TaskQueue /// /// A builder for the *list* method supported by a *task* resource. /// It is not used directly, but through a `TaskMethods` instance. /// /// # Example /// /// Instantiate a resource method builder /// /// ```test_harness,no_run /// # extern crate hyper; /// # extern crate yup_oauth2 as oauth2; /// # extern crate google_taskqueue1_beta2 as taskqueue1_beta2; /// # #[test] fn egal() { /// # use std::default::Default; /// # use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage}; /// # use taskqueue1_beta2::Taskqueue; /// /// # let secret: ApplicationSecret = Default::default(); /// # let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate, /// # hyper::Client::new(), /// # ::default(), None); /// # let mut hub = Taskqueue::new(hyper::Client::new(), auth); /// // You can configure optional parameters by calling the respective setters at will, and /// // execute the final call using `doit()`. /// // Values shown here are possibly random and not representative ! /// let result = hub.tasks().list("project", "taskqueue") /// .doit(); /// # } /// ``` pub struct TaskListCall<'a, C, A> where C: 'a, A: 'a { hub: &'a Taskqueue, _project: String, _taskqueue: String, _delegate: Option<&'a mut Delegate>, _additional_params: HashMap, _scopes: BTreeMap } impl<'a, C, A> CallBuilder for TaskListCall<'a, C, A> {} impl<'a, C, A> TaskListCall<'a, C, A> where C: BorrowMut, A: oauth2::GetToken { /// Perform the operation you have build so far. pub fn doit(mut self) -> Result<(hyper::client::Response, Tasks2)> { use std::io::{Read, Seek}; use hyper::header::{ContentType, ContentLength, Authorization, Bearer, UserAgent, Location}; let mut dd = DefaultDelegate; let mut dlg: &mut Delegate = match self._delegate { Some(d) => d, None => &mut dd }; dlg.begin(MethodInfo { id: "taskqueue.tasks.list", http_method: hyper::method::Method::Get }); let mut params: Vec<(&str, String)> = Vec::with_capacity((4 + self._additional_params.len())); params.push(("project", self._project.to_string())); params.push(("taskqueue", self._taskqueue.to_string())); for &field in ["alt", "project", "taskqueue"].iter() { if self._additional_params.contains_key(field) { dlg.finished(false); return Err(Error::FieldClash(field)); } } for (name, value) in self._additional_params.iter() { params.push((&name, value.clone())); } params.push(("alt", "json".to_string())); let mut url = "https://www.googleapis.com/taskqueue/v1beta2/projects/{project}/taskqueues/{taskqueue}/tasks".to_string(); if self._scopes.len() == 0 { self._scopes.insert(Scope::Full.as_ref().to_string(), ()); } for &(find_this, param_name) in [("{project}", "project"), ("{taskqueue}", "taskqueue")].iter() { let mut replace_with: Option<&str> = None; for &(name, ref value) in params.iter() { if name == param_name { replace_with = Some(value); break; } } url = url.replace(find_this, replace_with.expect("to find substitution value in params")); } { let mut indices_for_removal: Vec = Vec::with_capacity(2); for param_name in ["taskqueue", "project"].iter() { if let Some(index) = params.iter().position(|t| &t.0 == param_name) { indices_for_removal.push(index); } } for &index in indices_for_removal.iter() { params.remove(index); } } if params.len() > 0 { url.push('?'); url.push_str(&url::form_urlencoded::serialize(params)); } loop { let token = match self.hub.auth.borrow_mut().token(self._scopes.keys()) { Ok(token) => token, Err(err) => { match dlg.token(&*err) { Some(token) => token, None => { dlg.finished(false); return Err(Error::MissingToken(err)) } } } }; let auth_header = Authorization(Bearer { token: token.access_token }); let mut req_result = { let mut client = &mut *self.hub.client.borrow_mut(); let mut req = client.borrow_mut().request(hyper::method::Method::Get, &url) .header(UserAgent(self.hub._user_agent.clone())) .header(auth_header.clone()); dlg.pre_request(); req.send() }; match req_result { Err(err) => { if let oauth2::Retry::After(d) = dlg.http_error(&err) { sleep(d); continue; } dlg.finished(false); return Err(Error::HttpError(err)) } Ok(mut res) => { if !res.status.is_success() { let mut json_err = String::new(); res.read_to_string(&mut json_err).unwrap(); if let oauth2::Retry::After(d) = dlg.http_failure(&res, json::from_str(&json_err).ok(), json::from_str(&json_err).ok()) { sleep(d); continue; } dlg.finished(false); return match json::from_str::(&json_err){ Err(_) => Err(Error::Failure(res)), Ok(serr) => Err(Error::BadRequest(serr)) } } let result_value = { let mut json_response = String::new(); res.read_to_string(&mut json_response).unwrap(); match json::from_str(&json_response) { Ok(decoded) => (res, decoded), Err(err) => { dlg.response_json_decode_error(&json_response, &err); return Err(Error::JsonDecodeError(json_response, err)); } } }; dlg.finished(true); return Ok(result_value) } } } } /// The project under which the queue lies. /// /// Sets the *project* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn project(mut self, new_value: &str) -> TaskListCall<'a, C, A> { self._project = new_value.to_string(); self } /// The id of the taskqueue to list tasks from. /// /// Sets the *taskqueue* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn taskqueue(mut self, new_value: &str) -> TaskListCall<'a, C, A> { self._taskqueue = new_value.to_string(); self } /// The delegate implementation is consulted whenever there is an intermediate result, or if something goes wrong /// while executing the actual API request. /// /// It should be used to handle progress information, and to implement a certain level of resilience. /// /// Sets the *delegate* property to the given value. pub fn delegate(mut self, new_value: &'a mut Delegate) -> TaskListCall<'a, C, A> { self._delegate = Some(new_value); self } /// Set any additional parameter of the query string used in the request. /// It should be used to set parameters which are not yet available through their own /// setters. /// /// Please note that this method must not be used to set any of the known paramters /// which have their own setter method. If done anyway, the request will fail. /// /// # Additional Parameters /// /// * *quotaUser* (query-string) - Available to use for quota purposes for server-side applications. Can be any arbitrary string assigned to a user, but should not exceed 40 characters. Overrides userIp if both are provided. /// * *oauth_token* (query-string) - OAuth 2.0 token for the current user. /// * *key* (query-string) - API key. Your API key identifies your project and provides you with API access, quota, and reports. Required unless you provide an OAuth 2.0 token. /// * *prettyPrint* (query-boolean) - Returns response with indentations and line breaks. /// * *userIp* (query-string) - IP address of the site where the request originates. Use this if you want to enforce per-user limits. /// * *fields* (query-string) - Selector specifying which fields to include in a partial response. /// * *alt* (query-string) - Data format for the response. pub fn param(mut self, name: T, value: T) -> TaskListCall<'a, C, A> where T: AsRef { self._additional_params.insert(name.as_ref().to_string(), value.as_ref().to_string()); self } /// Identifies the authorization scope for the method you are building. /// /// Use this method to actively specify which scope should be used, instead the default `Scope` variant /// `Scope::Full`. /// /// The `scope` will be added to a set of scopes. This is important as one can maintain access /// tokens for more than one scope. /// /// Usually there is more than one suitable scope to authorize an operation, some of which may /// encompass more rights than others. For example, for listing resources, a *read-only* scope will be /// sufficient, a read-write scope will do as well. pub fn add_scope(mut self, scope: T) -> TaskListCall<'a, C, A> where T: AsRef { self._scopes.insert(scope.as_ref().to_string(), ()); self } } /// Get a particular task from a TaskQueue. /// /// A builder for the *get* method supported by a *task* resource. /// It is not used directly, but through a `TaskMethods` instance. /// /// # Example /// /// Instantiate a resource method builder /// /// ```test_harness,no_run /// # extern crate hyper; /// # extern crate yup_oauth2 as oauth2; /// # extern crate google_taskqueue1_beta2 as taskqueue1_beta2; /// # #[test] fn egal() { /// # use std::default::Default; /// # use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage}; /// # use taskqueue1_beta2::Taskqueue; /// /// # let secret: ApplicationSecret = Default::default(); /// # let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate, /// # hyper::Client::new(), /// # ::default(), None); /// # let mut hub = Taskqueue::new(hyper::Client::new(), auth); /// // You can configure optional parameters by calling the respective setters at will, and /// // execute the final call using `doit()`. /// // Values shown here are possibly random and not representative ! /// let result = hub.tasks().get("project", "taskqueue", "task") /// .doit(); /// # } /// ``` pub struct TaskGetCall<'a, C, A> where C: 'a, A: 'a { hub: &'a Taskqueue, _project: String, _taskqueue: String, _task: String, _delegate: Option<&'a mut Delegate>, _additional_params: HashMap, _scopes: BTreeMap } impl<'a, C, A> CallBuilder for TaskGetCall<'a, C, A> {} impl<'a, C, A> TaskGetCall<'a, C, A> where C: BorrowMut, A: oauth2::GetToken { /// Perform the operation you have build so far. pub fn doit(mut self) -> Result<(hyper::client::Response, Task)> { use std::io::{Read, Seek}; use hyper::header::{ContentType, ContentLength, Authorization, Bearer, UserAgent, Location}; let mut dd = DefaultDelegate; let mut dlg: &mut Delegate = match self._delegate { Some(d) => d, None => &mut dd }; dlg.begin(MethodInfo { id: "taskqueue.tasks.get", http_method: hyper::method::Method::Get }); let mut params: Vec<(&str, String)> = Vec::with_capacity((5 + self._additional_params.len())); params.push(("project", self._project.to_string())); params.push(("taskqueue", self._taskqueue.to_string())); params.push(("task", self._task.to_string())); for &field in ["alt", "project", "taskqueue", "task"].iter() { if self._additional_params.contains_key(field) { dlg.finished(false); return Err(Error::FieldClash(field)); } } for (name, value) in self._additional_params.iter() { params.push((&name, value.clone())); } params.push(("alt", "json".to_string())); let mut url = "https://www.googleapis.com/taskqueue/v1beta2/projects/{project}/taskqueues/{taskqueue}/tasks/{task}".to_string(); if self._scopes.len() == 0 { self._scopes.insert(Scope::Full.as_ref().to_string(), ()); } for &(find_this, param_name) in [("{project}", "project"), ("{taskqueue}", "taskqueue"), ("{task}", "task")].iter() { let mut replace_with: Option<&str> = None; for &(name, ref value) in params.iter() { if name == param_name { replace_with = Some(value); break; } } url = url.replace(find_this, replace_with.expect("to find substitution value in params")); } { let mut indices_for_removal: Vec = Vec::with_capacity(3); for param_name in ["task", "taskqueue", "project"].iter() { if let Some(index) = params.iter().position(|t| &t.0 == param_name) { indices_for_removal.push(index); } } for &index in indices_for_removal.iter() { params.remove(index); } } if params.len() > 0 { url.push('?'); url.push_str(&url::form_urlencoded::serialize(params)); } loop { let token = match self.hub.auth.borrow_mut().token(self._scopes.keys()) { Ok(token) => token, Err(err) => { match dlg.token(&*err) { Some(token) => token, None => { dlg.finished(false); return Err(Error::MissingToken(err)) } } } }; let auth_header = Authorization(Bearer { token: token.access_token }); let mut req_result = { let mut client = &mut *self.hub.client.borrow_mut(); let mut req = client.borrow_mut().request(hyper::method::Method::Get, &url) .header(UserAgent(self.hub._user_agent.clone())) .header(auth_header.clone()); dlg.pre_request(); req.send() }; match req_result { Err(err) => { if let oauth2::Retry::After(d) = dlg.http_error(&err) { sleep(d); continue; } dlg.finished(false); return Err(Error::HttpError(err)) } Ok(mut res) => { if !res.status.is_success() { let mut json_err = String::new(); res.read_to_string(&mut json_err).unwrap(); if let oauth2::Retry::After(d) = dlg.http_failure(&res, json::from_str(&json_err).ok(), json::from_str(&json_err).ok()) { sleep(d); continue; } dlg.finished(false); return match json::from_str::(&json_err){ Err(_) => Err(Error::Failure(res)), Ok(serr) => Err(Error::BadRequest(serr)) } } let result_value = { let mut json_response = String::new(); res.read_to_string(&mut json_response).unwrap(); match json::from_str(&json_response) { Ok(decoded) => (res, decoded), Err(err) => { dlg.response_json_decode_error(&json_response, &err); return Err(Error::JsonDecodeError(json_response, err)); } } }; dlg.finished(true); return Ok(result_value) } } } } /// The project under which the queue lies. /// /// Sets the *project* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn project(mut self, new_value: &str) -> TaskGetCall<'a, C, A> { self._project = new_value.to_string(); self } /// The taskqueue in which the task belongs. /// /// Sets the *taskqueue* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn taskqueue(mut self, new_value: &str) -> TaskGetCall<'a, C, A> { self._taskqueue = new_value.to_string(); self } /// The task to get properties of. /// /// Sets the *task* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn task(mut self, new_value: &str) -> TaskGetCall<'a, C, A> { self._task = new_value.to_string(); self } /// The delegate implementation is consulted whenever there is an intermediate result, or if something goes wrong /// while executing the actual API request. /// /// It should be used to handle progress information, and to implement a certain level of resilience. /// /// Sets the *delegate* property to the given value. pub fn delegate(mut self, new_value: &'a mut Delegate) -> TaskGetCall<'a, C, A> { self._delegate = Some(new_value); self } /// Set any additional parameter of the query string used in the request. /// It should be used to set parameters which are not yet available through their own /// setters. /// /// Please note that this method must not be used to set any of the known paramters /// which have their own setter method. If done anyway, the request will fail. /// /// # Additional Parameters /// /// * *quotaUser* (query-string) - Available to use for quota purposes for server-side applications. Can be any arbitrary string assigned to a user, but should not exceed 40 characters. Overrides userIp if both are provided. /// * *oauth_token* (query-string) - OAuth 2.0 token for the current user. /// * *key* (query-string) - API key. Your API key identifies your project and provides you with API access, quota, and reports. Required unless you provide an OAuth 2.0 token. /// * *prettyPrint* (query-boolean) - Returns response with indentations and line breaks. /// * *userIp* (query-string) - IP address of the site where the request originates. Use this if you want to enforce per-user limits. /// * *fields* (query-string) - Selector specifying which fields to include in a partial response. /// * *alt* (query-string) - Data format for the response. pub fn param(mut self, name: T, value: T) -> TaskGetCall<'a, C, A> where T: AsRef { self._additional_params.insert(name.as_ref().to_string(), value.as_ref().to_string()); self } /// Identifies the authorization scope for the method you are building. /// /// Use this method to actively specify which scope should be used, instead the default `Scope` variant /// `Scope::Full`. /// /// The `scope` will be added to a set of scopes. This is important as one can maintain access /// tokens for more than one scope. /// /// Usually there is more than one suitable scope to authorize an operation, some of which may /// encompass more rights than others. For example, for listing resources, a *read-only* scope will be /// sufficient, a read-write scope will do as well. pub fn add_scope(mut self, scope: T) -> TaskGetCall<'a, C, A> where T: AsRef { self._scopes.insert(scope.as_ref().to_string(), ()); self } } /// Update tasks that are leased out of a TaskQueue. /// /// A builder for the *update* method supported by a *task* resource. /// It is not used directly, but through a `TaskMethods` instance. /// /// # Example /// /// Instantiate a resource method builder /// /// ```test_harness,no_run /// # extern crate hyper; /// # extern crate yup_oauth2 as oauth2; /// # extern crate google_taskqueue1_beta2 as taskqueue1_beta2; /// use taskqueue1_beta2::Task; /// # #[test] fn egal() { /// # use std::default::Default; /// # use oauth2::{Authenticator, DefaultAuthenticatorDelegate, ApplicationSecret, MemoryStorage}; /// # use taskqueue1_beta2::Taskqueue; /// /// # let secret: ApplicationSecret = Default::default(); /// # let auth = Authenticator::new(&secret, DefaultAuthenticatorDelegate, /// # hyper::Client::new(), /// # ::default(), None); /// # let mut hub = Taskqueue::new(hyper::Client::new(), auth); /// // As the method needs a request, you would usually fill it with the desired information /// // into the respective structure. Some of the parts shown here might not be applicable ! /// // Values shown here are possibly random and not representative ! /// let mut req = Task::default(); /// /// // You can configure optional parameters by calling the respective setters at will, and /// // execute the final call using `doit()`. /// // Values shown here are possibly random and not representative ! /// let result = hub.tasks().update(req, "project", "taskqueue", "task", -37) /// .doit(); /// # } /// ``` pub struct TaskUpdateCall<'a, C, A> where C: 'a, A: 'a { hub: &'a Taskqueue, _request: Task, _project: String, _taskqueue: String, _task: String, _new_lease_seconds: i32, _delegate: Option<&'a mut Delegate>, _additional_params: HashMap, _scopes: BTreeMap } impl<'a, C, A> CallBuilder for TaskUpdateCall<'a, C, A> {} impl<'a, C, A> TaskUpdateCall<'a, C, A> where C: BorrowMut, A: oauth2::GetToken { /// Perform the operation you have build so far. pub fn doit(mut self) -> Result<(hyper::client::Response, Task)> { use std::io::{Read, Seek}; use hyper::header::{ContentType, ContentLength, Authorization, Bearer, UserAgent, Location}; let mut dd = DefaultDelegate; let mut dlg: &mut Delegate = match self._delegate { Some(d) => d, None => &mut dd }; dlg.begin(MethodInfo { id: "taskqueue.tasks.update", http_method: hyper::method::Method::Post }); let mut params: Vec<(&str, String)> = Vec::with_capacity((7 + self._additional_params.len())); params.push(("project", self._project.to_string())); params.push(("taskqueue", self._taskqueue.to_string())); params.push(("task", self._task.to_string())); params.push(("newLeaseSeconds", self._new_lease_seconds.to_string())); for &field in ["alt", "project", "taskqueue", "task", "newLeaseSeconds"].iter() { if self._additional_params.contains_key(field) { dlg.finished(false); return Err(Error::FieldClash(field)); } } for (name, value) in self._additional_params.iter() { params.push((&name, value.clone())); } params.push(("alt", "json".to_string())); let mut url = "https://www.googleapis.com/taskqueue/v1beta2/projects/{project}/taskqueues/{taskqueue}/tasks/{task}".to_string(); if self._scopes.len() == 0 { self._scopes.insert(Scope::Full.as_ref().to_string(), ()); } for &(find_this, param_name) in [("{project}", "project"), ("{taskqueue}", "taskqueue"), ("{task}", "task")].iter() { let mut replace_with: Option<&str> = None; for &(name, ref value) in params.iter() { if name == param_name { replace_with = Some(value); break; } } url = url.replace(find_this, replace_with.expect("to find substitution value in params")); } { let mut indices_for_removal: Vec = Vec::with_capacity(3); for param_name in ["task", "taskqueue", "project"].iter() { if let Some(index) = params.iter().position(|t| &t.0 == param_name) { indices_for_removal.push(index); } } for &index in indices_for_removal.iter() { params.remove(index); } } if params.len() > 0 { url.push('?'); url.push_str(&url::form_urlencoded::serialize(params)); } let mut json_mime_type = mime::Mime(mime::TopLevel::Application, mime::SubLevel::Json, Default::default()); let mut request_value_reader = { let mut value = json::value::to_value(&self._request).expect("serde to work"); remove_json_null_values(&mut value); let mut dst = io::Cursor::new(Vec::with_capacity(128)); json::to_writer(&mut dst, &value).unwrap(); dst }; let request_size = request_value_reader.seek(io::SeekFrom::End(0)).unwrap(); request_value_reader.seek(io::SeekFrom::Start(0)).unwrap(); loop { let token = match self.hub.auth.borrow_mut().token(self._scopes.keys()) { Ok(token) => token, Err(err) => { match dlg.token(&*err) { Some(token) => token, None => { dlg.finished(false); return Err(Error::MissingToken(err)) } } } }; let auth_header = Authorization(Bearer { token: token.access_token }); request_value_reader.seek(io::SeekFrom::Start(0)).unwrap(); let mut req_result = { let mut client = &mut *self.hub.client.borrow_mut(); let mut req = client.borrow_mut().request(hyper::method::Method::Post, &url) .header(UserAgent(self.hub._user_agent.clone())) .header(auth_header.clone()) .header(ContentType(json_mime_type.clone())) .header(ContentLength(request_size as u64)) .body(&mut request_value_reader); dlg.pre_request(); req.send() }; match req_result { Err(err) => { if let oauth2::Retry::After(d) = dlg.http_error(&err) { sleep(d); continue; } dlg.finished(false); return Err(Error::HttpError(err)) } Ok(mut res) => { if !res.status.is_success() { let mut json_err = String::new(); res.read_to_string(&mut json_err).unwrap(); if let oauth2::Retry::After(d) = dlg.http_failure(&res, json::from_str(&json_err).ok(), json::from_str(&json_err).ok()) { sleep(d); continue; } dlg.finished(false); return match json::from_str::(&json_err){ Err(_) => Err(Error::Failure(res)), Ok(serr) => Err(Error::BadRequest(serr)) } } let result_value = { let mut json_response = String::new(); res.read_to_string(&mut json_response).unwrap(); match json::from_str(&json_response) { Ok(decoded) => (res, decoded), Err(err) => { dlg.response_json_decode_error(&json_response, &err); return Err(Error::JsonDecodeError(json_response, err)); } } }; dlg.finished(true); return Ok(result_value) } } } } /// /// Sets the *request* property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn request(mut self, new_value: Task) -> TaskUpdateCall<'a, C, A> { self._request = new_value; self } /// The project under which the queue lies. /// /// Sets the *project* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn project(mut self, new_value: &str) -> TaskUpdateCall<'a, C, A> { self._project = new_value.to_string(); self } /// /// Sets the *taskqueue* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn taskqueue(mut self, new_value: &str) -> TaskUpdateCall<'a, C, A> { self._taskqueue = new_value.to_string(); self } /// /// Sets the *task* path property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn task(mut self, new_value: &str) -> TaskUpdateCall<'a, C, A> { self._task = new_value.to_string(); self } /// The new lease in seconds. /// /// Sets the *new lease seconds* query property to the given value. /// /// Even though the property as already been set when instantiating this call, /// we provide this method for API completeness. pub fn new_lease_seconds(mut self, new_value: i32) -> TaskUpdateCall<'a, C, A> { self._new_lease_seconds = new_value; self } /// The delegate implementation is consulted whenever there is an intermediate result, or if something goes wrong /// while executing the actual API request. /// /// It should be used to handle progress information, and to implement a certain level of resilience. /// /// Sets the *delegate* property to the given value. pub fn delegate(mut self, new_value: &'a mut Delegate) -> TaskUpdateCall<'a, C, A> { self._delegate = Some(new_value); self } /// Set any additional parameter of the query string used in the request. /// It should be used to set parameters which are not yet available through their own /// setters. /// /// Please note that this method must not be used to set any of the known paramters /// which have their own setter method. If done anyway, the request will fail. /// /// # Additional Parameters /// /// * *quotaUser* (query-string) - Available to use for quota purposes for server-side applications. Can be any arbitrary string assigned to a user, but should not exceed 40 characters. Overrides userIp if both are provided. /// * *oauth_token* (query-string) - OAuth 2.0 token for the current user. /// * *key* (query-string) - API key. Your API key identifies your project and provides you with API access, quota, and reports. Required unless you provide an OAuth 2.0 token. /// * *prettyPrint* (query-boolean) - Returns response with indentations and line breaks. /// * *userIp* (query-string) - IP address of the site where the request originates. Use this if you want to enforce per-user limits. /// * *fields* (query-string) - Selector specifying which fields to include in a partial response. /// * *alt* (query-string) - Data format for the response. pub fn param(mut self, name: T, value: T) -> TaskUpdateCall<'a, C, A> where T: AsRef { self._additional_params.insert(name.as_ref().to_string(), value.as_ref().to_string()); self } /// Identifies the authorization scope for the method you are building. /// /// Use this method to actively specify which scope should be used, instead the default `Scope` variant /// `Scope::Full`. /// /// The `scope` will be added to a set of scopes. This is important as one can maintain access /// tokens for more than one scope. /// /// Usually there is more than one suitable scope to authorize an operation, some of which may /// encompass more rights than others. For example, for listing resources, a *read-only* scope will be /// sufficient, a read-write scope will do as well. pub fn add_scope(mut self, scope: T) -> TaskUpdateCall<'a, C, A> where T: AsRef { self._scopes.insert(scope.as_ref().to_string(), ()); self } }