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ef197a87bfdd82ced839d33d8d3c8ba39b22515a
google-apis-rs/gen/spectrum1_explorer-cli/src/main.rs
Sebastian Thiel a791dde0ce rebuild all APIS
2023-03-16 18:16:47 +01:00

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// DO NOT EDIT !
// This file was generated automatically from 'src/generator/templates/cli/main.rs.mako'
// DO NOT EDIT !
#![allow(unused_variables, unused_imports, dead_code, unused_mut)]
#[macro_use]
extern crate clap;
use std::env;
use std::io::{self, Write};
use clap::{App, SubCommand, Arg};
use google_spectrum1_explorer::{api, Error, oauth2, client::chrono, FieldMask};
use google_clis_common as client;
use client::{InvalidOptionsError, CLIError, arg_from_str, writer_from_opts, parse_kv_arg,
input_file_from_opts, input_mime_from_opts, FieldCursor, FieldError, CallType, UploadProtocol,
calltype_from_str, remove_json_null_values, ComplexType, JsonType, JsonTypeInfo};
use std::default::Default;
use std::error::Error as StdError;
use std::str::FromStr;
use serde_json as json;
use clap::ArgMatches;
use http::Uri;
use hyper::client::connect;
use tokio::io::{AsyncRead, AsyncWrite};
use tower_service;
enum DoitError {
IoError(String, io::Error),
ApiError(Error),
}
struct Engine<'n, S> {
opt: ArgMatches<'n>,
hub: api::Spectrum<S>,
gp: Vec<&'static str>,
gpm: Vec<(&'static str, &'static str)>,
}
impl<'n, S> Engine<'n, S>
where
S: tower_service::Service<Uri> + Clone + Send + Sync + 'static,
S::Response: hyper::client::connect::Connection + AsyncRead + AsyncWrite + Send + Unpin + 'static,
S::Future: Send + Unpin + 'static,
S::Error: Into<Box<dyn StdError + Send + Sync>>,
{
async fn _paws_get_spectrum(&self, opt: &ArgMatches<'n>, dry_run: bool, err: &mut InvalidOptionsError)
-> Result<(), DoitError> {
let mut field_cursor = FieldCursor::default();
let mut object = json::value::Value::Object(Default::default());
for kvarg in opt.values_of("kv").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
let last_errc = err.issues.len();
let (key, value) = parse_kv_arg(&*kvarg, err, false);
let mut temp_cursor = field_cursor.clone();
if let Err(field_err) = temp_cursor.set(&*key) {
err.issues.push(field_err);
}
if value.is_none() {
field_cursor = temp_cursor.clone();
if err.issues.len() > last_errc {
err.issues.remove(last_errc);
}
continue;
}
let type_info: Option<(&'static str, JsonTypeInfo)> =
match &temp_cursor.to_string()[..] {
"antenna.height" => Some(("antenna.height", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"antenna.height-type" => Some(("antenna.heightType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"antenna.height-uncertainty" => Some(("antenna.heightUncertainty", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-category" => Some(("deviceDesc.etsiEnDeviceCategory", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-emissions-class" => Some(("deviceDesc.etsiEnDeviceEmissionsClass", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-type" => Some(("deviceDesc.etsiEnDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-technology-id" => Some(("deviceDesc.etsiEnTechnologyId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.fcc-id" => Some(("deviceDesc.fccId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.fcc-tvbd-device-type" => Some(("deviceDesc.fccTvbdDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.manufacturer-id" => Some(("deviceDesc.manufacturerId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.model-id" => Some(("deviceDesc.modelId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.ruleset-ids" => Some(("deviceDesc.rulesetIds", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Vec })),
"device-desc.serial-number" => Some(("deviceDesc.serialNumber", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"location.confidence" => Some(("location.confidence", JsonTypeInfo { jtype: JsonType::Int, ctype: ComplexType::Pod })),
"location.point.center.latitude" => Some(("location.point.center.latitude", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.center.longitude" => Some(("location.point.center.longitude", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.orientation" => Some(("location.point.orientation", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.semi-major-axis" => Some(("location.point.semiMajorAxis", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.semi-minor-axis" => Some(("location.point.semiMinorAxis", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"master-device-desc.etsi-en-device-category" => Some(("masterDeviceDesc.etsiEnDeviceCategory", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.etsi-en-device-emissions-class" => Some(("masterDeviceDesc.etsiEnDeviceEmissionsClass", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.etsi-en-device-type" => Some(("masterDeviceDesc.etsiEnDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.etsi-en-technology-id" => Some(("masterDeviceDesc.etsiEnTechnologyId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.fcc-id" => Some(("masterDeviceDesc.fccId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.fcc-tvbd-device-type" => Some(("masterDeviceDesc.fccTvbdDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.manufacturer-id" => Some(("masterDeviceDesc.manufacturerId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.model-id" => Some(("masterDeviceDesc.modelId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.ruleset-ids" => Some(("masterDeviceDesc.rulesetIds", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Vec })),
"master-device-desc.serial-number" => Some(("masterDeviceDesc.serialNumber", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.adr.code" => Some(("owner.operator.adr.code", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.adr.country" => Some(("owner.operator.adr.country", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.adr.locality" => Some(("owner.operator.adr.locality", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.adr.pobox" => Some(("owner.operator.adr.pobox", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.adr.region" => Some(("owner.operator.adr.region", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.adr.street" => Some(("owner.operator.adr.street", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.email.text" => Some(("owner.operator.email.text", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.fn" => Some(("owner.operator.fn", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.org.text" => Some(("owner.operator.org.text", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.tel.uri" => Some(("owner.operator.tel.uri", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.adr.code" => Some(("owner.owner.adr.code", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.adr.country" => Some(("owner.owner.adr.country", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.adr.locality" => Some(("owner.owner.adr.locality", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.adr.pobox" => Some(("owner.owner.adr.pobox", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.adr.region" => Some(("owner.owner.adr.region", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.adr.street" => Some(("owner.owner.adr.street", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.email.text" => Some(("owner.owner.email.text", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.fn" => Some(("owner.owner.fn", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.org.text" => Some(("owner.owner.org.text", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.tel.uri" => Some(("owner.owner.tel.uri", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"request-type" => Some(("requestType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"type" => Some(("type", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"version" => Some(("version", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
_ => {
let suggestion = FieldCursor::did_you_mean(key, &vec!["adr", "antenna", "center", "code", "confidence", "country", "device-desc", "email", "etsi-en-device-category", "etsi-en-device-emissions-class", "etsi-en-device-type", "etsi-en-technology-id", "fcc-id", "fcc-tvbd-device-type", "fn", "height", "height-type", "height-uncertainty", "latitude", "locality", "location", "longitude", "manufacturer-id", "master-device-desc", "model-id", "operator", "org", "orientation", "owner", "pobox", "point", "region", "request-type", "ruleset-ids", "semi-major-axis", "semi-minor-axis", "serial-number", "street", "tel", "text", "type", "uri", "version"]);
err.issues.push(CLIError::Field(FieldError::Unknown(temp_cursor.to_string(), suggestion, value.map(|v| v.to_string()))));
None
}
};
if let Some((field_cursor_str, type_info)) = type_info {
FieldCursor::from(field_cursor_str).set_json_value(&mut object, value.unwrap(), type_info, err, &temp_cursor);
}
}
let mut request: api::PawsGetSpectrumRequest = json::value::from_value(object).unwrap();
let mut call = self.hub.paws().get_spectrum(request);
for parg in opt.values_of("v").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
let (key, value) = parse_kv_arg(&*parg, err, false);
match key {
_ => {
let mut found = false;
for param in &self.gp {
if key == *param {
found = true;
call = call.param(self.gpm.iter().find(|t| t.0 == key).unwrap_or(&("", key)).1, value.unwrap_or("unset"));
break;
}
}
if !found {
err.issues.push(CLIError::UnknownParameter(key.to_string(),
{let mut v = Vec::new();
v.extend(self.gp.iter().map(|v|*v));
v } ));
}
}
}
}
let protocol = CallType::Standard;
if dry_run {
Ok(())
} else {
assert!(err.issues.len() == 0);
let mut ostream = match writer_from_opts(opt.value_of("out")) {
Ok(mut f) => f,
Err(io_err) => return Err(DoitError::IoError(opt.value_of("out").unwrap_or("-").to_string(), io_err)),
};
match match protocol {
CallType::Standard => call.doit().await,
_ => unreachable!()
} {
Err(api_err) => Err(DoitError::ApiError(api_err)),
Ok((mut response, output_schema)) => {
let mut value = json::value::to_value(&output_schema).expect("serde to work");
remove_json_null_values(&mut value);
json::to_writer_pretty(&mut ostream, &value).unwrap();
ostream.flush().unwrap();
Ok(())
}
}
}
}
async fn _paws_get_spectrum_batch(&self, opt: &ArgMatches<'n>, dry_run: bool, err: &mut InvalidOptionsError)
-> Result<(), DoitError> {
let mut field_cursor = FieldCursor::default();
let mut object = json::value::Value::Object(Default::default());
for kvarg in opt.values_of("kv").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
let last_errc = err.issues.len();
let (key, value) = parse_kv_arg(&*kvarg, err, false);
let mut temp_cursor = field_cursor.clone();
if let Err(field_err) = temp_cursor.set(&*key) {
err.issues.push(field_err);
}
if value.is_none() {
field_cursor = temp_cursor.clone();
if err.issues.len() > last_errc {
err.issues.remove(last_errc);
}
continue;
}
let type_info: Option<(&'static str, JsonTypeInfo)> =
match &temp_cursor.to_string()[..] {
"antenna.height" => Some(("antenna.height", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"antenna.height-type" => Some(("antenna.heightType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"antenna.height-uncertainty" => Some(("antenna.heightUncertainty", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-category" => Some(("deviceDesc.etsiEnDeviceCategory", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-emissions-class" => Some(("deviceDesc.etsiEnDeviceEmissionsClass", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-type" => Some(("deviceDesc.etsiEnDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-technology-id" => Some(("deviceDesc.etsiEnTechnologyId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.fcc-id" => Some(("deviceDesc.fccId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.fcc-tvbd-device-type" => Some(("deviceDesc.fccTvbdDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.manufacturer-id" => Some(("deviceDesc.manufacturerId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.model-id" => Some(("deviceDesc.modelId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.ruleset-ids" => Some(("deviceDesc.rulesetIds", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Vec })),
"device-desc.serial-number" => Some(("deviceDesc.serialNumber", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.etsi-en-device-category" => Some(("masterDeviceDesc.etsiEnDeviceCategory", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.etsi-en-device-emissions-class" => Some(("masterDeviceDesc.etsiEnDeviceEmissionsClass", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.etsi-en-device-type" => Some(("masterDeviceDesc.etsiEnDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.etsi-en-technology-id" => Some(("masterDeviceDesc.etsiEnTechnologyId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.fcc-id" => Some(("masterDeviceDesc.fccId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.fcc-tvbd-device-type" => Some(("masterDeviceDesc.fccTvbdDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.manufacturer-id" => Some(("masterDeviceDesc.manufacturerId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.model-id" => Some(("masterDeviceDesc.modelId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"master-device-desc.ruleset-ids" => Some(("masterDeviceDesc.rulesetIds", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Vec })),
"master-device-desc.serial-number" => Some(("masterDeviceDesc.serialNumber", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.adr.code" => Some(("owner.operator.adr.code", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.adr.country" => Some(("owner.operator.adr.country", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.adr.locality" => Some(("owner.operator.adr.locality", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.adr.pobox" => Some(("owner.operator.adr.pobox", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.adr.region" => Some(("owner.operator.adr.region", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.adr.street" => Some(("owner.operator.adr.street", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.email.text" => Some(("owner.operator.email.text", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.fn" => Some(("owner.operator.fn", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.org.text" => Some(("owner.operator.org.text", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.operator.tel.uri" => Some(("owner.operator.tel.uri", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.adr.code" => Some(("owner.owner.adr.code", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.adr.country" => Some(("owner.owner.adr.country", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.adr.locality" => Some(("owner.owner.adr.locality", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.adr.pobox" => Some(("owner.owner.adr.pobox", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.adr.region" => Some(("owner.owner.adr.region", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.adr.street" => Some(("owner.owner.adr.street", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.email.text" => Some(("owner.owner.email.text", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.fn" => Some(("owner.owner.fn", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.org.text" => Some(("owner.owner.org.text", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"owner.owner.tel.uri" => Some(("owner.owner.tel.uri", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"request-type" => Some(("requestType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"type" => Some(("type", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"version" => Some(("version", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
_ => {
let suggestion = FieldCursor::did_you_mean(key, &vec!["adr", "antenna", "code", "country", "device-desc", "email", "etsi-en-device-category", "etsi-en-device-emissions-class", "etsi-en-device-type", "etsi-en-technology-id", "fcc-id", "fcc-tvbd-device-type", "fn", "height", "height-type", "height-uncertainty", "locality", "manufacturer-id", "master-device-desc", "model-id", "operator", "org", "owner", "pobox", "region", "request-type", "ruleset-ids", "serial-number", "street", "tel", "text", "type", "uri", "version"]);
err.issues.push(CLIError::Field(FieldError::Unknown(temp_cursor.to_string(), suggestion, value.map(|v| v.to_string()))));
None
}
};
if let Some((field_cursor_str, type_info)) = type_info {
FieldCursor::from(field_cursor_str).set_json_value(&mut object, value.unwrap(), type_info, err, &temp_cursor);
}
}
let mut request: api::PawsGetSpectrumBatchRequest = json::value::from_value(object).unwrap();
let mut call = self.hub.paws().get_spectrum_batch(request);
for parg in opt.values_of("v").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
let (key, value) = parse_kv_arg(&*parg, err, false);
match key {
_ => {
let mut found = false;
for param in &self.gp {
if key == *param {
found = true;
call = call.param(self.gpm.iter().find(|t| t.0 == key).unwrap_or(&("", key)).1, value.unwrap_or("unset"));
break;
}
}
if !found {
err.issues.push(CLIError::UnknownParameter(key.to_string(),
{let mut v = Vec::new();
v.extend(self.gp.iter().map(|v|*v));
v } ));
}
}
}
}
let protocol = CallType::Standard;
if dry_run {
Ok(())
} else {
assert!(err.issues.len() == 0);
let mut ostream = match writer_from_opts(opt.value_of("out")) {
Ok(mut f) => f,
Err(io_err) => return Err(DoitError::IoError(opt.value_of("out").unwrap_or("-").to_string(), io_err)),
};
match match protocol {
CallType::Standard => call.doit().await,
_ => unreachable!()
} {
Err(api_err) => Err(DoitError::ApiError(api_err)),
Ok((mut response, output_schema)) => {
let mut value = json::value::to_value(&output_schema).expect("serde to work");
remove_json_null_values(&mut value);
json::to_writer_pretty(&mut ostream, &value).unwrap();
ostream.flush().unwrap();
Ok(())
}
}
}
}
async fn _paws_init(&self, opt: &ArgMatches<'n>, dry_run: bool, err: &mut InvalidOptionsError)
-> Result<(), DoitError> {
let mut field_cursor = FieldCursor::default();
let mut object = json::value::Value::Object(Default::default());
for kvarg in opt.values_of("kv").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
let last_errc = err.issues.len();
let (key, value) = parse_kv_arg(&*kvarg, err, false);
let mut temp_cursor = field_cursor.clone();
if let Err(field_err) = temp_cursor.set(&*key) {
err.issues.push(field_err);
}
if value.is_none() {
field_cursor = temp_cursor.clone();
if err.issues.len() > last_errc {
err.issues.remove(last_errc);
}
continue;
}
let type_info: Option<(&'static str, JsonTypeInfo)> =
match &temp_cursor.to_string()[..] {
"device-desc.etsi-en-device-category" => Some(("deviceDesc.etsiEnDeviceCategory", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-emissions-class" => Some(("deviceDesc.etsiEnDeviceEmissionsClass", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-type" => Some(("deviceDesc.etsiEnDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-technology-id" => Some(("deviceDesc.etsiEnTechnologyId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.fcc-id" => Some(("deviceDesc.fccId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.fcc-tvbd-device-type" => Some(("deviceDesc.fccTvbdDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.manufacturer-id" => Some(("deviceDesc.manufacturerId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.model-id" => Some(("deviceDesc.modelId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.ruleset-ids" => Some(("deviceDesc.rulesetIds", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Vec })),
"device-desc.serial-number" => Some(("deviceDesc.serialNumber", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"location.confidence" => Some(("location.confidence", JsonTypeInfo { jtype: JsonType::Int, ctype: ComplexType::Pod })),
"location.point.center.latitude" => Some(("location.point.center.latitude", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.center.longitude" => Some(("location.point.center.longitude", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.orientation" => Some(("location.point.orientation", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.semi-major-axis" => Some(("location.point.semiMajorAxis", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.semi-minor-axis" => Some(("location.point.semiMinorAxis", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"type" => Some(("type", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"version" => Some(("version", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
_ => {
let suggestion = FieldCursor::did_you_mean(key, &vec!["center", "confidence", "device-desc", "etsi-en-device-category", "etsi-en-device-emissions-class", "etsi-en-device-type", "etsi-en-technology-id", "fcc-id", "fcc-tvbd-device-type", "latitude", "location", "longitude", "manufacturer-id", "model-id", "orientation", "point", "ruleset-ids", "semi-major-axis", "semi-minor-axis", "serial-number", "type", "version"]);
err.issues.push(CLIError::Field(FieldError::Unknown(temp_cursor.to_string(), suggestion, value.map(|v| v.to_string()))));
None
}
};
if let Some((field_cursor_str, type_info)) = type_info {
FieldCursor::from(field_cursor_str).set_json_value(&mut object, value.unwrap(), type_info, err, &temp_cursor);
}
}
let mut request: api::PawsInitRequest = json::value::from_value(object).unwrap();
let mut call = self.hub.paws().init(request);
for parg in opt.values_of("v").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
let (key, value) = parse_kv_arg(&*parg, err, false);
match key {
_ => {
let mut found = false;
for param in &self.gp {
if key == *param {
found = true;
call = call.param(self.gpm.iter().find(|t| t.0 == key).unwrap_or(&("", key)).1, value.unwrap_or("unset"));
break;
}
}
if !found {
err.issues.push(CLIError::UnknownParameter(key.to_string(),
{let mut v = Vec::new();
v.extend(self.gp.iter().map(|v|*v));
v } ));
}
}
}
}
let protocol = CallType::Standard;
if dry_run {
Ok(())
} else {
assert!(err.issues.len() == 0);
let mut ostream = match writer_from_opts(opt.value_of("out")) {
Ok(mut f) => f,
Err(io_err) => return Err(DoitError::IoError(opt.value_of("out").unwrap_or("-").to_string(), io_err)),
};
match match protocol {
CallType::Standard => call.doit().await,
_ => unreachable!()
} {
Err(api_err) => Err(DoitError::ApiError(api_err)),
Ok((mut response, output_schema)) => {
let mut value = json::value::to_value(&output_schema).expect("serde to work");
remove_json_null_values(&mut value);
json::to_writer_pretty(&mut ostream, &value).unwrap();
ostream.flush().unwrap();
Ok(())
}
}
}
}
async fn _paws_notify_spectrum_use(&self, opt: &ArgMatches<'n>, dry_run: bool, err: &mut InvalidOptionsError)
-> Result<(), DoitError> {
let mut field_cursor = FieldCursor::default();
let mut object = json::value::Value::Object(Default::default());
for kvarg in opt.values_of("kv").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
let last_errc = err.issues.len();
let (key, value) = parse_kv_arg(&*kvarg, err, false);
let mut temp_cursor = field_cursor.clone();
if let Err(field_err) = temp_cursor.set(&*key) {
err.issues.push(field_err);
}
if value.is_none() {
field_cursor = temp_cursor.clone();
if err.issues.len() > last_errc {
err.issues.remove(last_errc);
}
continue;
}
let type_info: Option<(&'static str, JsonTypeInfo)> =
match &temp_cursor.to_string()[..] {
"device-desc.etsi-en-device-category" => Some(("deviceDesc.etsiEnDeviceCategory", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-emissions-class" => Some(("deviceDesc.etsiEnDeviceEmissionsClass", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-type" => Some(("deviceDesc.etsiEnDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-technology-id" => Some(("deviceDesc.etsiEnTechnologyId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.fcc-id" => Some(("deviceDesc.fccId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.fcc-tvbd-device-type" => Some(("deviceDesc.fccTvbdDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.manufacturer-id" => Some(("deviceDesc.manufacturerId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.model-id" => Some(("deviceDesc.modelId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.ruleset-ids" => Some(("deviceDesc.rulesetIds", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Vec })),
"device-desc.serial-number" => Some(("deviceDesc.serialNumber", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"location.confidence" => Some(("location.confidence", JsonTypeInfo { jtype: JsonType::Int, ctype: ComplexType::Pod })),
"location.point.center.latitude" => Some(("location.point.center.latitude", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.center.longitude" => Some(("location.point.center.longitude", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.orientation" => Some(("location.point.orientation", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.semi-major-axis" => Some(("location.point.semiMajorAxis", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.semi-minor-axis" => Some(("location.point.semiMinorAxis", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"type" => Some(("type", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"version" => Some(("version", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
_ => {
let suggestion = FieldCursor::did_you_mean(key, &vec!["center", "confidence", "device-desc", "etsi-en-device-category", "etsi-en-device-emissions-class", "etsi-en-device-type", "etsi-en-technology-id", "fcc-id", "fcc-tvbd-device-type", "latitude", "location", "longitude", "manufacturer-id", "model-id", "orientation", "point", "ruleset-ids", "semi-major-axis", "semi-minor-axis", "serial-number", "type", "version"]);
err.issues.push(CLIError::Field(FieldError::Unknown(temp_cursor.to_string(), suggestion, value.map(|v| v.to_string()))));
None
}
};
if let Some((field_cursor_str, type_info)) = type_info {
FieldCursor::from(field_cursor_str).set_json_value(&mut object, value.unwrap(), type_info, err, &temp_cursor);
}
}
let mut request: api::PawsNotifySpectrumUseRequest = json::value::from_value(object).unwrap();
let mut call = self.hub.paws().notify_spectrum_use(request);
for parg in opt.values_of("v").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
let (key, value) = parse_kv_arg(&*parg, err, false);
match key {
_ => {
let mut found = false;
for param in &self.gp {
if key == *param {
found = true;
call = call.param(self.gpm.iter().find(|t| t.0 == key).unwrap_or(&("", key)).1, value.unwrap_or("unset"));
break;
}
}
if !found {
err.issues.push(CLIError::UnknownParameter(key.to_string(),
{let mut v = Vec::new();
v.extend(self.gp.iter().map(|v|*v));
v } ));
}
}
}
}
let protocol = CallType::Standard;
if dry_run {
Ok(())
} else {
assert!(err.issues.len() == 0);
let mut ostream = match writer_from_opts(opt.value_of("out")) {
Ok(mut f) => f,
Err(io_err) => return Err(DoitError::IoError(opt.value_of("out").unwrap_or("-").to_string(), io_err)),
};
match match protocol {
CallType::Standard => call.doit().await,
_ => unreachable!()
} {
Err(api_err) => Err(DoitError::ApiError(api_err)),
Ok((mut response, output_schema)) => {
let mut value = json::value::to_value(&output_schema).expect("serde to work");
remove_json_null_values(&mut value);
json::to_writer_pretty(&mut ostream, &value).unwrap();
ostream.flush().unwrap();
Ok(())
}
}
}
}
async fn _paws_register(&self, opt: &ArgMatches<'n>, dry_run: bool, err: &mut InvalidOptionsError)
-> Result<(), DoitError> {
let mut field_cursor = FieldCursor::default();
let mut object = json::value::Value::Object(Default::default());
for kvarg in opt.values_of("kv").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
let last_errc = err.issues.len();
let (key, value) = parse_kv_arg(&*kvarg, err, false);
let mut temp_cursor = field_cursor.clone();
if let Err(field_err) = temp_cursor.set(&*key) {
err.issues.push(field_err);
}
if value.is_none() {
field_cursor = temp_cursor.clone();
if err.issues.len() > last_errc {
err.issues.remove(last_errc);
}
continue;
}
let type_info: Option<(&'static str, JsonTypeInfo)> =
match &temp_cursor.to_string()[..] {
"antenna.height" => Some(("antenna.height", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"antenna.height-type" => Some(("antenna.heightType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"antenna.height-uncertainty" => Some(("antenna.heightUncertainty", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-category" => Some(("deviceDesc.etsiEnDeviceCategory", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-emissions-class" => Some(("deviceDesc.etsiEnDeviceEmissionsClass", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-device-type" => Some(("deviceDesc.etsiEnDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.etsi-en-technology-id" => Some(("deviceDesc.etsiEnTechnologyId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.fcc-id" => Some(("deviceDesc.fccId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.fcc-tvbd-device-type" => Some(("deviceDesc.fccTvbdDeviceType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.manufacturer-id" => Some(("deviceDesc.manufacturerId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.model-id" => Some(("deviceDesc.modelId", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-desc.ruleset-ids" => Some(("deviceDesc.rulesetIds", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Vec })),
"device-desc.serial-number" => Some(("deviceDesc.serialNumber", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.operator.adr.code" => Some(("deviceOwner.operator.adr.code", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.operator.adr.country" => Some(("deviceOwner.operator.adr.country", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.operator.adr.locality" => Some(("deviceOwner.operator.adr.locality", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.operator.adr.pobox" => Some(("deviceOwner.operator.adr.pobox", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.operator.adr.region" => Some(("deviceOwner.operator.adr.region", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.operator.adr.street" => Some(("deviceOwner.operator.adr.street", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.operator.email.text" => Some(("deviceOwner.operator.email.text", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.operator.fn" => Some(("deviceOwner.operator.fn", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.operator.org.text" => Some(("deviceOwner.operator.org.text", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.operator.tel.uri" => Some(("deviceOwner.operator.tel.uri", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.owner.adr.code" => Some(("deviceOwner.owner.adr.code", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.owner.adr.country" => Some(("deviceOwner.owner.adr.country", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.owner.adr.locality" => Some(("deviceOwner.owner.adr.locality", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.owner.adr.pobox" => Some(("deviceOwner.owner.adr.pobox", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.owner.adr.region" => Some(("deviceOwner.owner.adr.region", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.owner.adr.street" => Some(("deviceOwner.owner.adr.street", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.owner.email.text" => Some(("deviceOwner.owner.email.text", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.owner.fn" => Some(("deviceOwner.owner.fn", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.owner.org.text" => Some(("deviceOwner.owner.org.text", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"device-owner.owner.tel.uri" => Some(("deviceOwner.owner.tel.uri", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"location.confidence" => Some(("location.confidence", JsonTypeInfo { jtype: JsonType::Int, ctype: ComplexType::Pod })),
"location.point.center.latitude" => Some(("location.point.center.latitude", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.center.longitude" => Some(("location.point.center.longitude", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.orientation" => Some(("location.point.orientation", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.semi-major-axis" => Some(("location.point.semiMajorAxis", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"location.point.semi-minor-axis" => Some(("location.point.semiMinorAxis", JsonTypeInfo { jtype: JsonType::Float, ctype: ComplexType::Pod })),
"type" => Some(("type", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"version" => Some(("version", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
_ => {
let suggestion = FieldCursor::did_you_mean(key, &vec!["adr", "antenna", "center", "code", "confidence", "country", "device-desc", "device-owner", "email", "etsi-en-device-category", "etsi-en-device-emissions-class", "etsi-en-device-type", "etsi-en-technology-id", "fcc-id", "fcc-tvbd-device-type", "fn", "height", "height-type", "height-uncertainty", "latitude", "locality", "location", "longitude", "manufacturer-id", "model-id", "operator", "org", "orientation", "owner", "pobox", "point", "region", "ruleset-ids", "semi-major-axis", "semi-minor-axis", "serial-number", "street", "tel", "text", "type", "uri", "version"]);
err.issues.push(CLIError::Field(FieldError::Unknown(temp_cursor.to_string(), suggestion, value.map(|v| v.to_string()))));
None
}
};
if let Some((field_cursor_str, type_info)) = type_info {
FieldCursor::from(field_cursor_str).set_json_value(&mut object, value.unwrap(), type_info, err, &temp_cursor);
}
}
let mut request: api::PawsRegisterRequest = json::value::from_value(object).unwrap();
let mut call = self.hub.paws().register(request);
for parg in opt.values_of("v").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
let (key, value) = parse_kv_arg(&*parg, err, false);
match key {
_ => {
let mut found = false;
for param in &self.gp {
if key == *param {
found = true;
call = call.param(self.gpm.iter().find(|t| t.0 == key).unwrap_or(&("", key)).1, value.unwrap_or("unset"));
break;
}
}
if !found {
err.issues.push(CLIError::UnknownParameter(key.to_string(),
{let mut v = Vec::new();
v.extend(self.gp.iter().map(|v|*v));
v } ));
}
}
}
}
let protocol = CallType::Standard;
if dry_run {
Ok(())
} else {
assert!(err.issues.len() == 0);
let mut ostream = match writer_from_opts(opt.value_of("out")) {
Ok(mut f) => f,
Err(io_err) => return Err(DoitError::IoError(opt.value_of("out").unwrap_or("-").to_string(), io_err)),
};
match match protocol {
CallType::Standard => call.doit().await,
_ => unreachable!()
} {
Err(api_err) => Err(DoitError::ApiError(api_err)),
Ok((mut response, output_schema)) => {
let mut value = json::value::to_value(&output_schema).expect("serde to work");
remove_json_null_values(&mut value);
json::to_writer_pretty(&mut ostream, &value).unwrap();
ostream.flush().unwrap();
Ok(())
}
}
}
}
async fn _paws_verify_device(&self, opt: &ArgMatches<'n>, dry_run: bool, err: &mut InvalidOptionsError)
-> Result<(), DoitError> {
let mut field_cursor = FieldCursor::default();
let mut object = json::value::Value::Object(Default::default());
for kvarg in opt.values_of("kv").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
let last_errc = err.issues.len();
let (key, value) = parse_kv_arg(&*kvarg, err, false);
let mut temp_cursor = field_cursor.clone();
if let Err(field_err) = temp_cursor.set(&*key) {
err.issues.push(field_err);
}
if value.is_none() {
field_cursor = temp_cursor.clone();
if err.issues.len() > last_errc {
err.issues.remove(last_errc);
}
continue;
}
let type_info: Option<(&'static str, JsonTypeInfo)> =
match &temp_cursor.to_string()[..] {
"type" => Some(("type", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"version" => Some(("version", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
_ => {
let suggestion = FieldCursor::did_you_mean(key, &vec!["type", "version"]);
err.issues.push(CLIError::Field(FieldError::Unknown(temp_cursor.to_string(), suggestion, value.map(|v| v.to_string()))));
None
}
};
if let Some((field_cursor_str, type_info)) = type_info {
FieldCursor::from(field_cursor_str).set_json_value(&mut object, value.unwrap(), type_info, err, &temp_cursor);
}
}
let mut request: api::PawsVerifyDeviceRequest = json::value::from_value(object).unwrap();
let mut call = self.hub.paws().verify_device(request);
for parg in opt.values_of("v").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
let (key, value) = parse_kv_arg(&*parg, err, false);
match key {
_ => {
let mut found = false;
for param in &self.gp {
if key == *param {
found = true;
call = call.param(self.gpm.iter().find(|t| t.0 == key).unwrap_or(&("", key)).1, value.unwrap_or("unset"));
break;
}
}
if !found {
err.issues.push(CLIError::UnknownParameter(key.to_string(),
{let mut v = Vec::new();
v.extend(self.gp.iter().map(|v|*v));
v } ));
}
}
}
}
let protocol = CallType::Standard;
if dry_run {
Ok(())
} else {
assert!(err.issues.len() == 0);
let mut ostream = match writer_from_opts(opt.value_of("out")) {
Ok(mut f) => f,
Err(io_err) => return Err(DoitError::IoError(opt.value_of("out").unwrap_or("-").to_string(), io_err)),
};
match match protocol {
CallType::Standard => call.doit().await,
_ => unreachable!()
} {
Err(api_err) => Err(DoitError::ApiError(api_err)),
Ok((mut response, output_schema)) => {
let mut value = json::value::to_value(&output_schema).expect("serde to work");
remove_json_null_values(&mut value);
json::to_writer_pretty(&mut ostream, &value).unwrap();
ostream.flush().unwrap();
Ok(())
}
}
}
}
async fn _doit(&self, dry_run: bool) -> Result<Result<(), DoitError>, Option<InvalidOptionsError>> {
let mut err = InvalidOptionsError::new();
let mut call_result: Result<(), DoitError> = Ok(());
let mut err_opt: Option<InvalidOptionsError> = None;
match self.opt.subcommand() {
("paws", Some(opt)) => {
match opt.subcommand() {
("get-spectrum", Some(opt)) => {
call_result = self._paws_get_spectrum(opt, dry_run, &mut err).await;
},
("get-spectrum-batch", Some(opt)) => {
call_result = self._paws_get_spectrum_batch(opt, dry_run, &mut err).await;
},
("init", Some(opt)) => {
call_result = self._paws_init(opt, dry_run, &mut err).await;
},
("notify-spectrum-use", Some(opt)) => {
call_result = self._paws_notify_spectrum_use(opt, dry_run, &mut err).await;
},
("register", Some(opt)) => {
call_result = self._paws_register(opt, dry_run, &mut err).await;
},
("verify-device", Some(opt)) => {
call_result = self._paws_verify_device(opt, dry_run, &mut err).await;
},
_ => {
err.issues.push(CLIError::MissingMethodError("paws".to_string()));
writeln!(io::stderr(), "{}\n", opt.usage()).ok();
}
}
},
_ => {
err.issues.push(CLIError::MissingCommandError);
writeln!(io::stderr(), "{}\n", self.opt.usage()).ok();
}
}
if dry_run {
if err.issues.len() > 0 {
err_opt = Some(err);
}
Err(err_opt)
} else {
Ok(call_result)
}
}
// Please note that this call will fail if any part of the opt can't be handled
async fn new(opt: ArgMatches<'n>, connector: S) -> Result<Engine<'n, S>, InvalidOptionsError> {
let (config_dir, secret) = {
let config_dir = match client::assure_config_dir_exists(opt.value_of("folder").unwrap_or("~/.google-service-cli")) {
Err(e) => return Err(InvalidOptionsError::single(e, 3)),
Ok(p) => p,
};
match client::application_secret_from_directory(&config_dir, "spectrum1-explorer-secret.json",
"{\"installed\":{\"auth_uri\":\"https://accounts.google.com/o/oauth2/auth\",\"client_secret\":\"hCsslbCUyfehWMmbkG8vTYxG\",\"token_uri\":\"https://accounts.google.com/o/oauth2/token\",\"client_email\":\"\",\"redirect_uris\":[\"urn:ietf:wg:oauth:2.0:oob\",\"oob\"],\"client_x509_cert_url\":\"\",\"client_id\":\"620010449518-9ngf7o4dhs0dka470npqvor6dc5lqb9b.apps.googleusercontent.com\",\"auth_provider_x509_cert_url\":\"https://www.googleapis.com/oauth2/v1/certs\"}}") {
Ok(secret) => (config_dir, secret),
Err(e) => return Err(InvalidOptionsError::single(e, 4))
}
};
let client = hyper::Client::builder().build(connector);
let auth = oauth2::InstalledFlowAuthenticator::with_client(
secret,
oauth2::InstalledFlowReturnMethod::HTTPRedirect,
client.clone(),
).persist_tokens_to_disk(format!("{}/spectrum1-explorer", config_dir)).build().await.unwrap();
let engine = Engine {
opt: opt,
hub: api::Spectrum::new(client, auth),
gp: vec!["alt", "fields", "key", "oauth-token", "pretty-print", "quota-user", "user-ip"],
gpm: vec![
("oauth-token", "oauth_token"),
("pretty-print", "prettyPrint"),
("quota-user", "quotaUser"),
("user-ip", "userIp"),
]
};
match engine._doit(true).await {
Err(Some(err)) => Err(err),
Err(None) => Ok(engine),
Ok(_) => unreachable!(),
}
}
async fn doit(&self) -> Result<(), DoitError> {
match self._doit(false).await {
Ok(res) => res,
Err(_) => unreachable!(),
}
}
}
#[tokio::main]
async fn main() {
let mut exit_status = 0i32;
let arg_data = [
("paws", "methods: 'get-spectrum', 'get-spectrum-batch', 'init', 'notify-spectrum-use', 'register' and 'verify-device'", vec![
("get-spectrum",
Some(r##"Requests information about the available spectrum for a device at a location. Requests from a fixed-mode device must include owner information so the device can be registered with the database."##),
"Details at http://byron.github.io/google-apis-rs/google_spectrum1_explorer_cli/paws_get-spectrum",
vec![
(Some(r##"kv"##),
Some(r##"r"##),
Some(r##"Set various fields of the request structure, matching the key=value form"##),
Some(true),
Some(true)),
(Some(r##"v"##),
Some(r##"p"##),
Some(r##"Set various optional parameters, matching the key=value form"##),
Some(false),
Some(true)),
(Some(r##"out"##),
Some(r##"o"##),
Some(r##"Specify the file into which to write the program's output"##),
Some(false),
Some(false)),
]),
("get-spectrum-batch",
Some(r##"The Google Spectrum Database does not support batch requests, so this method always yields an UNIMPLEMENTED error."##),
"Details at http://byron.github.io/google-apis-rs/google_spectrum1_explorer_cli/paws_get-spectrum-batch",
vec![
(Some(r##"kv"##),
Some(r##"r"##),
Some(r##"Set various fields of the request structure, matching the key=value form"##),
Some(true),
Some(true)),
(Some(r##"v"##),
Some(r##"p"##),
Some(r##"Set various optional parameters, matching the key=value form"##),
Some(false),
Some(true)),
(Some(r##"out"##),
Some(r##"o"##),
Some(r##"Specify the file into which to write the program's output"##),
Some(false),
Some(false)),
]),
("init",
Some(r##"Initializes the connection between a white space device and the database."##),
"Details at http://byron.github.io/google-apis-rs/google_spectrum1_explorer_cli/paws_init",
vec![
(Some(r##"kv"##),
Some(r##"r"##),
Some(r##"Set various fields of the request structure, matching the key=value form"##),
Some(true),
Some(true)),
(Some(r##"v"##),
Some(r##"p"##),
Some(r##"Set various optional parameters, matching the key=value form"##),
Some(false),
Some(true)),
(Some(r##"out"##),
Some(r##"o"##),
Some(r##"Specify the file into which to write the program's output"##),
Some(false),
Some(false)),
]),
("notify-spectrum-use",
Some(r##"Notifies the database that the device has selected certain frequency ranges for transmission. Only to be invoked when required by the regulator. The Google Spectrum Database does not operate in domains that require notification, so this always yields an UNIMPLEMENTED error."##),
"Details at http://byron.github.io/google-apis-rs/google_spectrum1_explorer_cli/paws_notify-spectrum-use",
vec![
(Some(r##"kv"##),
Some(r##"r"##),
Some(r##"Set various fields of the request structure, matching the key=value form"##),
Some(true),
Some(true)),
(Some(r##"v"##),
Some(r##"p"##),
Some(r##"Set various optional parameters, matching the key=value form"##),
Some(false),
Some(true)),
(Some(r##"out"##),
Some(r##"o"##),
Some(r##"Specify the file into which to write the program's output"##),
Some(false),
Some(false)),
]),
("register",
Some(r##"The Google Spectrum Database implements registration in the getSpectrum method. As such this always returns an UNIMPLEMENTED error."##),
"Details at http://byron.github.io/google-apis-rs/google_spectrum1_explorer_cli/paws_register",
vec![
(Some(r##"kv"##),
Some(r##"r"##),
Some(r##"Set various fields of the request structure, matching the key=value form"##),
Some(true),
Some(true)),
(Some(r##"v"##),
Some(r##"p"##),
Some(r##"Set various optional parameters, matching the key=value form"##),
Some(false),
Some(true)),
(Some(r##"out"##),
Some(r##"o"##),
Some(r##"Specify the file into which to write the program's output"##),
Some(false),
Some(false)),
]),
("verify-device",
Some(r##"Validates a device for white space use in accordance with regulatory rules. The Google Spectrum Database does not support master/slave configurations, so this always yields an UNIMPLEMENTED error."##),
"Details at http://byron.github.io/google-apis-rs/google_spectrum1_explorer_cli/paws_verify-device",
vec![
(Some(r##"kv"##),
Some(r##"r"##),
Some(r##"Set various fields of the request structure, matching the key=value form"##),
Some(true),
Some(true)),
(Some(r##"v"##),
Some(r##"p"##),
Some(r##"Set various optional parameters, matching the key=value form"##),
Some(false),
Some(true)),
(Some(r##"out"##),
Some(r##"o"##),
Some(r##"Specify the file into which to write the program's output"##),
Some(false),
Some(false)),
]),
]),
];
let mut app = App::new("spectrum1-explorer")
.author("Sebastian Thiel <byronimo@gmail.com>")
.version("5.0.2+20170306")
.about("API for spectrum-management functions.")
.after_help("All documentation details can be found at http://byron.github.io/google-apis-rs/google_spectrum1_explorer_cli")
.arg(Arg::with_name("folder")
.long("config-dir")
.help("A directory into which we will store our persistent data. Defaults to a user-writable directory that we will create during the first invocation.[default: ~/.google-service-cli")
.multiple(false)
.takes_value(true))
.arg(Arg::with_name("debug")
.long("debug")
.help("Debug print all errors")
.multiple(false)
.takes_value(false));
for &(main_command_name, about, ref subcommands) in arg_data.iter() {
let mut mcmd = SubCommand::with_name(main_command_name).about(about);
for &(sub_command_name, ref desc, url_info, ref args) in subcommands {
let mut scmd = SubCommand::with_name(sub_command_name);
if let &Some(desc) = desc {
scmd = scmd.about(desc);
}
scmd = scmd.after_help(url_info);
for &(ref arg_name, ref flag, ref desc, ref required, ref multi) in args {
let arg_name_str =
match (arg_name, flag) {
(&Some(an), _ ) => an,
(_ , &Some(f)) => f,
_ => unreachable!(),
};
let mut arg = Arg::with_name(arg_name_str)
.empty_values(false);
if let &Some(short_flag) = flag {
arg = arg.short(short_flag);
}
if let &Some(desc) = desc {
arg = arg.help(desc);
}
if arg_name.is_some() && flag.is_some() {
arg = arg.takes_value(true);
}
if let &Some(required) = required {
arg = arg.required(required);
}
if let &Some(multi) = multi {
arg = arg.multiple(multi);
}
scmd = scmd.arg(arg);
}
mcmd = mcmd.subcommand(scmd);
}
app = app.subcommand(mcmd);
}
let matches = app.get_matches();
let debug = matches.is_present("adebug");
let connector = hyper_rustls::HttpsConnectorBuilder::new().with_native_roots()
.https_or_http()
.enable_http1()
.enable_http2()
.build();
match Engine::new(matches, connector).await {
Err(err) => {
exit_status = err.exit_code;
writeln!(io::stderr(), "{}", err).ok();
},
Ok(engine) => {
if let Err(doit_err) = engine.doit().await {
exit_status = 1;
match doit_err {
DoitError::IoError(path, err) => {
writeln!(io::stderr(), "Failed to open output file '{}': {}", path, err).ok();
},
DoitError::ApiError(err) => {
if debug {
writeln!(io::stderr(), "{:#?}", err).ok();
} else {
writeln!(io::stderr(), "{}", err).ok();
}
}
}
}
}
}
std::process::exit(exit_status);
}
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