openxapi-binance 0.3.0

/*
 * Binance Spot API
 *
 * OpenAPI specification for Binance exchange - Spot API
 *
 * The version of the OpenAPI document: 0.3.0
 * 
 * Generated by: https://openapi-generator.tech
 */


use reqwest;
use serde::{Deserialize, Serialize, de::Error as _};
use crate::spot::{apis::ResponseContent, models};
use super::{Error, configuration, ContentType};

/// struct for passing parameters to the method [`create_dci_product_auto_compound_edit_status_v1`]
#[derive(Clone, Debug, Default)]
pub struct CreateDciProductAutoCompoundEditStatusV1Params {
    pub position_id: String,
    pub timestamp: i64,
    pub auto_compound_plan: Option<String>,
    pub recv_window: Option<i64>
}

/// struct for passing parameters to the method [`create_dci_product_subscribe_v1`]
#[derive(Clone, Debug, Default)]
pub struct CreateDciProductSubscribeV1Params {
    pub auto_compound_plan: String,
    pub deposit_amount: String,
    pub id: String,
    pub order_id: String,
    pub timestamp: i64,
    pub recv_window: Option<i64>
}

/// struct for passing parameters to the method [`get_dci_product_accounts_v1`]
#[derive(Clone, Debug, Default)]
pub struct GetDciProductAccountsV1Params {
    pub timestamp: i64,
    /// The value cannot be greater than 60000
    pub recv_window: Option<i64>
}

/// struct for passing parameters to the method [`get_dci_product_list_v1`]
#[derive(Clone, Debug, Default)]
pub struct GetDciProductListV1Params {
    /// Input CALL or PUT
    pub option_type: String,
    /// Target exercised asset, e.g.: if you subscribe to a high sell product (call option), you should input: `optionType`:CALL,`exercisedCoin`:USDT,`investCoin`:BNB; if you subscribe to a low buy product (put option), you should input: `optionType`:PUT,`exercisedCoin`:BNB,`investCoin`:USDT
    pub exercised_coin: String,
    /// Asset used for subscribing, e.g.: if you subscribe to a high sell product (call option), you should input: `optionType`:CALL,`exercisedCoin`:USDT,`investCoin`:BNB; if you subscribe to a low buy product (put option), you should input: `optionType`:PUT,`exercisedCoin`:BNB,`investCoin`:USDT
    pub invest_coin: String,
    pub timestamp: i64,
    /// Default: 10, Maximum: 100
    pub page_size: Option<i64>,
    /// Default: 1
    pub page_index: Option<i32>,
    /// The value cannot be greater than 60000
    pub recv_window: Option<i64>
}

/// struct for passing parameters to the method [`get_dci_product_positions_v1`]
#[derive(Clone, Debug, Default)]
pub struct GetDciProductPositionsV1Params {
    pub timestamp: i64,
    /// `PENDING`:Products are purchasing, will give results later;`PURCHASE_SUCCESS`:purchase successfully;`SETTLED`: Products are finish settling;`PURCHASE_FAIL`:fail to purchase;`REFUNDING`:refund ongoing;`REFUND_SUCCESS`:refund to spot account successfully; `SETTLING`:Products are settling. If don&#39;t fill this field, will response all the position status.
    pub status: Option<String>,
    /// Default: 10, Max:100
    pub page_size: Option<i64>,
    /// Default:1
    pub page_index: Option<i32>,
    /// The value cannot be greater than 60000
    pub recv_window: Option<i64>
}


/// struct for typed errors of method [`create_dci_product_auto_compound_edit_status_v1`]
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(untagged)]
pub enum CreateDciProductAutoCompoundEditStatusV1Error {
    Status4XX(models::ApiError),
    Status5XX(models::ApiError),
    UnknownValue(serde_json::Value),
}

/// struct for typed errors of method [`create_dci_product_subscribe_v1`]
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(untagged)]
pub enum CreateDciProductSubscribeV1Error {
    Status4XX(models::ApiError),
    Status5XX(models::ApiError),
    UnknownValue(serde_json::Value),
}

/// struct for typed errors of method [`get_dci_product_accounts_v1`]
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(untagged)]
pub enum GetDciProductAccountsV1Error {
    Status4XX(models::ApiError),
    Status5XX(models::ApiError),
    UnknownValue(serde_json::Value),
}

/// struct for typed errors of method [`get_dci_product_list_v1`]
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(untagged)]
pub enum GetDciProductListV1Error {
    Status4XX(models::ApiError),
    Status5XX(models::ApiError),
    UnknownValue(serde_json::Value),
}

/// struct for typed errors of method [`get_dci_product_positions_v1`]
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(untagged)]
pub enum GetDciProductPositionsV1Error {
    Status4XX(models::ApiError),
    Status5XX(models::ApiError),
    UnknownValue(serde_json::Value),
}


/// Change Auto-Compound status
pub async fn create_dci_product_auto_compound_edit_status_v1(configuration: &configuration::Configuration, params: CreateDciProductAutoCompoundEditStatusV1Params) -> Result<models::CreateDciProductAutoCompoundEditStatusV1Resp, Error<CreateDciProductAutoCompoundEditStatusV1Error>> {

    let uri_str = format!("{}/sapi/v1/dci/product/auto_compound/edit-status", configuration.base_path);
    let mut req_builder = configuration.client.request(reqwest::Method::POST, &uri_str);

    // Create a mutable vector for query parameters
    let mut query_params: Vec<(String, String)> = Vec::new();


    // Create header parameters collection
    let mut header_params = std::collections::HashMap::new();

    // Handle Binance Auth first if configured
    if let Some(ref binance_auth) = configuration.binance_auth {
        // Add API key to headers
        header_params.insert("X-MBX-APIKEY".to_string(), binance_auth.api_key().to_string());
        
        // Generate request body for signing (if any)
        let body_string: Option<Vec<u8>> = None;
        
        // Sign the request
        let signature = match binance_auth.sign(Some(&query_params), body_string.as_deref()) {
            Ok(sig) => sig,
            Err(e) => return Err(Error::Generic(format!("Failed to sign request: {}", e))),
        };
        
        // Add signature to query params
        query_params.push(("signature".to_string(), signature));
    }

    // Apply all query parameters
    if !query_params.is_empty() {
        req_builder = req_builder.query(&query_params);
    }


    // Add user agent if configured
    if let Some(ref user_agent) = configuration.user_agent {
        req_builder = req_builder.header(reqwest::header::USER_AGENT, user_agent.clone());
    }

    // Apply all header parameters
    for (header_name, header_value) in header_params {
        req_builder = req_builder.header(&header_name, &header_value);
    }

    let mut multipart_form_params = std::collections::HashMap::new();
    if let Some(param_value) = params.auto_compound_plan {
        multipart_form_params.insert("AutoCompoundPlan", param_value.to_string());
    }
    multipart_form_params.insert("positionId", params.position_id.to_string());
    if let Some(param_value) = params.recv_window {
        multipart_form_params.insert("recvWindow", param_value.to_string());
    }
    multipart_form_params.insert("timestamp", params.timestamp.to_string());
    req_builder = req_builder.form(&multipart_form_params);

    let req = req_builder.build()?;
    let resp = configuration.client.execute(req).await?;

    let status = resp.status();
    let content_type = resp
        .headers()
        .get("content-type")
        .and_then(|v| v.to_str().ok())
        .unwrap_or("application/octet-stream");
    let content_type = super::ContentType::from(content_type);

    if !status.is_client_error() && !status.is_server_error() {
        let content = resp.text().await?;
        match content_type {
            ContentType::Json => serde_json::from_str(&content).map_err(Error::from),
            ContentType::Text => return Err(Error::from(serde_json::Error::custom("Received `text/plain` content type response that cannot be converted to `models::CreateDciProductAutoCompoundEditStatusV1Resp`"))),
            ContentType::Unsupported(unknown_type) => return Err(Error::from(serde_json::Error::custom(format!("Received `{unknown_type}` content type response that cannot be converted to `models::CreateDciProductAutoCompoundEditStatusV1Resp`")))),
        }
    } else {
        let content = resp.text().await?;
        let entity: Option<CreateDciProductAutoCompoundEditStatusV1Error> = serde_json::from_str(&content).ok();
        Err(Error::ResponseError(ResponseContent { status, content, entity }))
    }
}

/// Subscribe Dual Investment products
pub async fn create_dci_product_subscribe_v1(configuration: &configuration::Configuration, params: CreateDciProductSubscribeV1Params) -> Result<models::CreateDciProductSubscribeV1Resp, Error<CreateDciProductSubscribeV1Error>> {

    let uri_str = format!("{}/sapi/v1/dci/product/subscribe", configuration.base_path);
    let mut req_builder = configuration.client.request(reqwest::Method::POST, &uri_str);

    // Create a mutable vector for query parameters
    let mut query_params: Vec<(String, String)> = Vec::new();


    // Create header parameters collection
    let mut header_params = std::collections::HashMap::new();

    // Handle Binance Auth first if configured
    if let Some(ref binance_auth) = configuration.binance_auth {
        // Add API key to headers
        header_params.insert("X-MBX-APIKEY".to_string(), binance_auth.api_key().to_string());
        
        // Generate request body for signing (if any)
        let body_string: Option<Vec<u8>> = None;
        
        // Sign the request
        let signature = match binance_auth.sign(Some(&query_params), body_string.as_deref()) {
            Ok(sig) => sig,
            Err(e) => return Err(Error::Generic(format!("Failed to sign request: {}", e))),
        };
        
        // Add signature to query params
        query_params.push(("signature".to_string(), signature));
    }

    // Apply all query parameters
    if !query_params.is_empty() {
        req_builder = req_builder.query(&query_params);
    }


    // Add user agent if configured
    if let Some(ref user_agent) = configuration.user_agent {
        req_builder = req_builder.header(reqwest::header::USER_AGENT, user_agent.clone());
    }

    // Apply all header parameters
    for (header_name, header_value) in header_params {
        req_builder = req_builder.header(&header_name, &header_value);
    }

    let mut multipart_form_params = std::collections::HashMap::new();
    multipart_form_params.insert("autoCompoundPlan", params.auto_compound_plan.to_string());
    multipart_form_params.insert("depositAmount", params.deposit_amount.to_string());
    multipart_form_params.insert("id", params.id.to_string());
    multipart_form_params.insert("orderId", params.order_id.to_string());
    if let Some(param_value) = params.recv_window {
        multipart_form_params.insert("recvWindow", param_value.to_string());
    }
    multipart_form_params.insert("timestamp", params.timestamp.to_string());
    req_builder = req_builder.form(&multipart_form_params);

    let req = req_builder.build()?;
    let resp = configuration.client.execute(req).await?;

    let status = resp.status();
    let content_type = resp
        .headers()
        .get("content-type")
        .and_then(|v| v.to_str().ok())
        .unwrap_or("application/octet-stream");
    let content_type = super::ContentType::from(content_type);

    if !status.is_client_error() && !status.is_server_error() {
        let content = resp.text().await?;
        match content_type {
            ContentType::Json => serde_json::from_str(&content).map_err(Error::from),
            ContentType::Text => return Err(Error::from(serde_json::Error::custom("Received `text/plain` content type response that cannot be converted to `models::CreateDciProductSubscribeV1Resp`"))),
            ContentType::Unsupported(unknown_type) => return Err(Error::from(serde_json::Error::custom(format!("Received `{unknown_type}` content type response that cannot be converted to `models::CreateDciProductSubscribeV1Resp`")))),
        }
    } else {
        let content = resp.text().await?;
        let entity: Option<CreateDciProductSubscribeV1Error> = serde_json::from_str(&content).ok();
        Err(Error::ResponseError(ResponseContent { status, content, entity }))
    }
}

/// Check Dual Investment accounts
pub async fn get_dci_product_accounts_v1(configuration: &configuration::Configuration, params: GetDciProductAccountsV1Params) -> Result<models::GetDciProductAccountsV1Resp, Error<GetDciProductAccountsV1Error>> {

    let uri_str = format!("{}/sapi/v1/dci/product/accounts", configuration.base_path);
    let mut req_builder = configuration.client.request(reqwest::Method::GET, &uri_str);

    // Create a mutable vector for query parameters
    let mut query_params: Vec<(String, String)> = Vec::new();

    if let Some(ref param_value) = params.recv_window {
        query_params.push(("recvWindow".to_string(), param_value.to_string()));
    }
    query_params.push(("timestamp".to_string(), params.timestamp.to_string()));

    // Create header parameters collection
    let mut header_params = std::collections::HashMap::new();

    // Handle Binance Auth first if configured
    if let Some(ref binance_auth) = configuration.binance_auth {
        // Add API key to headers
        header_params.insert("X-MBX-APIKEY".to_string(), binance_auth.api_key().to_string());
        
        // Generate request body for signing (if any)
        let body_string: Option<Vec<u8>> = None;
        
        // Sign the request
        let signature = match binance_auth.sign(Some(&query_params), body_string.as_deref()) {
            Ok(sig) => sig,
            Err(e) => return Err(Error::Generic(format!("Failed to sign request: {}", e))),
        };
        
        // Add signature to query params
        query_params.push(("signature".to_string(), signature));
    }

    // Apply all query parameters
    if !query_params.is_empty() {
        req_builder = req_builder.query(&query_params);
    }


    // Add user agent if configured
    if let Some(ref user_agent) = configuration.user_agent {
        req_builder = req_builder.header(reqwest::header::USER_AGENT, user_agent.clone());
    }

    // Apply all header parameters
    for (header_name, header_value) in header_params {
        req_builder = req_builder.header(&header_name, &header_value);
    }


    let req = req_builder.build()?;
    let resp = configuration.client.execute(req).await?;

    let status = resp.status();
    let content_type = resp
        .headers()
        .get("content-type")
        .and_then(|v| v.to_str().ok())
        .unwrap_or("application/octet-stream");
    let content_type = super::ContentType::from(content_type);

    if !status.is_client_error() && !status.is_server_error() {
        let content = resp.text().await?;
        match content_type {
            ContentType::Json => serde_json::from_str(&content).map_err(Error::from),
            ContentType::Text => return Err(Error::from(serde_json::Error::custom("Received `text/plain` content type response that cannot be converted to `models::GetDciProductAccountsV1Resp`"))),
            ContentType::Unsupported(unknown_type) => return Err(Error::from(serde_json::Error::custom(format!("Received `{unknown_type}` content type response that cannot be converted to `models::GetDciProductAccountsV1Resp`")))),
        }
    } else {
        let content = resp.text().await?;
        let entity: Option<GetDciProductAccountsV1Error> = serde_json::from_str(&content).ok();
        Err(Error::ResponseError(ResponseContent { status, content, entity }))
    }
}

/// Get Dual Investment product list
pub async fn get_dci_product_list_v1(configuration: &configuration::Configuration, params: GetDciProductListV1Params) -> Result<models::GetDciProductListV1Resp, Error<GetDciProductListV1Error>> {

    let uri_str = format!("{}/sapi/v1/dci/product/list", configuration.base_path);
    let mut req_builder = configuration.client.request(reqwest::Method::GET, &uri_str);

    // Create a mutable vector for query parameters
    let mut query_params: Vec<(String, String)> = Vec::new();

    query_params.push(("optionType".to_string(), params.option_type.to_string()));
    query_params.push(("exercisedCoin".to_string(), params.exercised_coin.to_string()));
    query_params.push(("investCoin".to_string(), params.invest_coin.to_string()));
    if let Some(ref param_value) = params.page_size {
        query_params.push(("pageSize".to_string(), param_value.to_string()));
    }
    if let Some(ref param_value) = params.page_index {
        query_params.push(("pageIndex".to_string(), param_value.to_string()));
    }
    if let Some(ref param_value) = params.recv_window {
        query_params.push(("recvWindow".to_string(), param_value.to_string()));
    }
    query_params.push(("timestamp".to_string(), params.timestamp.to_string()));

    // Create header parameters collection
    let mut header_params = std::collections::HashMap::new();

    // Handle Binance Auth first if configured
    if let Some(ref binance_auth) = configuration.binance_auth {
        // Add API key to headers
        header_params.insert("X-MBX-APIKEY".to_string(), binance_auth.api_key().to_string());
        
        // Generate request body for signing (if any)
        let body_string: Option<Vec<u8>> = None;
        
        // Sign the request
        let signature = match binance_auth.sign(Some(&query_params), body_string.as_deref()) {
            Ok(sig) => sig,
            Err(e) => return Err(Error::Generic(format!("Failed to sign request: {}", e))),
        };
        
        // Add signature to query params
        query_params.push(("signature".to_string(), signature));
    }

    // Apply all query parameters
    if !query_params.is_empty() {
        req_builder = req_builder.query(&query_params);
    }


    // Add user agent if configured
    if let Some(ref user_agent) = configuration.user_agent {
        req_builder = req_builder.header(reqwest::header::USER_AGENT, user_agent.clone());
    }

    // Apply all header parameters
    for (header_name, header_value) in header_params {
        req_builder = req_builder.header(&header_name, &header_value);
    }


    let req = req_builder.build()?;
    let resp = configuration.client.execute(req).await?;

    let status = resp.status();
    let content_type = resp
        .headers()
        .get("content-type")
        .and_then(|v| v.to_str().ok())
        .unwrap_or("application/octet-stream");
    let content_type = super::ContentType::from(content_type);

    if !status.is_client_error() && !status.is_server_error() {
        let content = resp.text().await?;
        match content_type {
            ContentType::Json => serde_json::from_str(&content).map_err(Error::from),
            ContentType::Text => return Err(Error::from(serde_json::Error::custom("Received `text/plain` content type response that cannot be converted to `models::GetDciProductListV1Resp`"))),
            ContentType::Unsupported(unknown_type) => return Err(Error::from(serde_json::Error::custom(format!("Received `{unknown_type}` content type response that cannot be converted to `models::GetDciProductListV1Resp`")))),
        }
    } else {
        let content = resp.text().await?;
        let entity: Option<GetDciProductListV1Error> = serde_json::from_str(&content).ok();
        Err(Error::ResponseError(ResponseContent { status, content, entity }))
    }
}

/// Get Dual Investment positions (batch)
pub async fn get_dci_product_positions_v1(configuration: &configuration::Configuration, params: GetDciProductPositionsV1Params) -> Result<models::GetDciProductPositionsV1Resp, Error<GetDciProductPositionsV1Error>> {

    let uri_str = format!("{}/sapi/v1/dci/product/positions", configuration.base_path);
    let mut req_builder = configuration.client.request(reqwest::Method::GET, &uri_str);

    // Create a mutable vector for query parameters
    let mut query_params: Vec<(String, String)> = Vec::new();

    if let Some(ref param_value) = params.status {
        query_params.push(("status".to_string(), param_value.to_string()));
    }
    if let Some(ref param_value) = params.page_size {
        query_params.push(("pageSize".to_string(), param_value.to_string()));
    }
    if let Some(ref param_value) = params.page_index {
        query_params.push(("pageIndex".to_string(), param_value.to_string()));
    }
    if let Some(ref param_value) = params.recv_window {
        query_params.push(("recvWindow".to_string(), param_value.to_string()));
    }
    query_params.push(("timestamp".to_string(), params.timestamp.to_string()));

    // Create header parameters collection
    let mut header_params = std::collections::HashMap::new();

    // Handle Binance Auth first if configured
    if let Some(ref binance_auth) = configuration.binance_auth {
        // Add API key to headers
        header_params.insert("X-MBX-APIKEY".to_string(), binance_auth.api_key().to_string());
        
        // Generate request body for signing (if any)
        let body_string: Option<Vec<u8>> = None;
        
        // Sign the request
        let signature = match binance_auth.sign(Some(&query_params), body_string.as_deref()) {
            Ok(sig) => sig,
            Err(e) => return Err(Error::Generic(format!("Failed to sign request: {}", e))),
        };
        
        // Add signature to query params
        query_params.push(("signature".to_string(), signature));
    }

    // Apply all query parameters
    if !query_params.is_empty() {
        req_builder = req_builder.query(&query_params);
    }


    // Add user agent if configured
    if let Some(ref user_agent) = configuration.user_agent {
        req_builder = req_builder.header(reqwest::header::USER_AGENT, user_agent.clone());
    }

    // Apply all header parameters
    for (header_name, header_value) in header_params {
        req_builder = req_builder.header(&header_name, &header_value);
    }


    let req = req_builder.build()?;
    let resp = configuration.client.execute(req).await?;

    let status = resp.status();
    let content_type = resp
        .headers()
        .get("content-type")
        .and_then(|v| v.to_str().ok())
        .unwrap_or("application/octet-stream");
    let content_type = super::ContentType::from(content_type);

    if !status.is_client_error() && !status.is_server_error() {
        let content = resp.text().await?;
        match content_type {
            ContentType::Json => serde_json::from_str(&content).map_err(Error::from),
            ContentType::Text => return Err(Error::from(serde_json::Error::custom("Received `text/plain` content type response that cannot be converted to `models::GetDciProductPositionsV1Resp`"))),
            ContentType::Unsupported(unknown_type) => return Err(Error::from(serde_json::Error::custom(format!("Received `{unknown_type}` content type response that cannot be converted to `models::GetDciProductPositionsV1Resp`")))),
        }
    } else {
        let content = resp.text().await?;
        let entity: Option<GetDciProductPositionsV1Error> = serde_json::from_str(&content).ok();
        Err(Error::ResponseError(ResponseContent { status, content, entity }))
    }
}