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google-apis-rs/gen/cloudmonitoring2_beta2-cli/src/main.rs
Sebastian Thiel 1216fcf695 set version 5.0.4 and publish APIs
2024-03-05 21:02:48 +01:00

1004 lines
47 KiB
Rust
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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_cloudmonitoring2_beta2::{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::CloudMonitoring<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 _metric_descriptors_create(&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()[..] {
"description" => Some(("description", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"name" => Some(("name", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"project" => Some(("project", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"type-descriptor.metric-type" => Some(("typeDescriptor.metricType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
"type-descriptor.value-type" => Some(("typeDescriptor.valueType", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
_ => {
let suggestion = FieldCursor::did_you_mean(key, &vec!["description", "metric-type", "name", "project", "type-descriptor", "value-type"]);
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::MetricDescriptor = json::value::from_value(object).unwrap();
let mut call = self.hub.metric_descriptors().create(request, opt.value_of("project").unwrap_or(""));
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);
for scope in self.opt.values_of("url").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
call = call.add_scope(scope);
}
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 _metric_descriptors_delete(&self, opt: &ArgMatches<'n>, dry_run: bool, err: &mut InvalidOptionsError)
-> Result<(), DoitError> {
let mut call = self.hub.metric_descriptors().delete(opt.value_of("project").unwrap_or(""), opt.value_of("metric").unwrap_or(""));
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);
for scope in self.opt.values_of("url").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
call = call.add_scope(scope);
}
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 _metric_descriptors_list(&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()[..] {
"kind" => Some(("kind", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
_ => {
let suggestion = FieldCursor::did_you_mean(key, &vec!["kind"]);
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::ListMetricDescriptorsRequest = json::value::from_value(object).unwrap();
let mut call = self.hub.metric_descriptors().list(request, opt.value_of("project").unwrap_or(""));
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 {
"query" => {
call = call.query(value.unwrap_or(""));
},
"page-token" => {
call = call.page_token(value.unwrap_or(""));
},
"count" => {
call = call.count( value.map(|v| arg_from_str(v, err, "count", "int32")).unwrap_or(-0));
},
_ => {
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.extend(["count", "page-token", "query"].iter().map(|v|*v));
v } ));
}
}
}
}
let protocol = CallType::Standard;
if dry_run {
Ok(())
} else {
assert!(err.issues.len() == 0);
for scope in self.opt.values_of("url").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
call = call.add_scope(scope);
}
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 _timeseries_list(&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()[..] {
"kind" => Some(("kind", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
_ => {
let suggestion = FieldCursor::did_you_mean(key, &vec!["kind"]);
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::ListTimeseriesRequest = json::value::from_value(object).unwrap();
let mut call = self.hub.timeseries().list(request, opt.value_of("project").unwrap_or(""), opt.value_of("metric").unwrap_or(""), opt.value_of("youngest").unwrap_or(""));
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 {
"window" => {
call = call.window(value.unwrap_or(""));
},
"timespan" => {
call = call.timespan(value.unwrap_or(""));
},
"page-token" => {
call = call.page_token(value.unwrap_or(""));
},
"oldest" => {
call = call.oldest(value.unwrap_or(""));
},
"labels" => {
call = call.add_labels(value.unwrap_or(""));
},
"count" => {
call = call.count( value.map(|v| arg_from_str(v, err, "count", "int32")).unwrap_or(-0));
},
"aggregator" => {
call = call.aggregator(value.unwrap_or(""));
},
_ => {
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.extend(["aggregator", "count", "labels", "oldest", "page-token", "timespan", "window"].iter().map(|v|*v));
v } ));
}
}
}
}
let protocol = CallType::Standard;
if dry_run {
Ok(())
} else {
assert!(err.issues.len() == 0);
for scope in self.opt.values_of("url").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
call = call.add_scope(scope);
}
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 _timeseries_write(&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()[..] {
"common-labels" => Some(("commonLabels", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Map })),
_ => {
let suggestion = FieldCursor::did_you_mean(key, &vec!["common-labels"]);
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::WriteTimeseriesRequest = json::value::from_value(object).unwrap();
let mut call = self.hub.timeseries().write(request, opt.value_of("project").unwrap_or(""));
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);
for scope in self.opt.values_of("url").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
call = call.add_scope(scope);
}
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 _timeseries_descriptors_list(&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()[..] {
"kind" => Some(("kind", JsonTypeInfo { jtype: JsonType::String, ctype: ComplexType::Pod })),
_ => {
let suggestion = FieldCursor::did_you_mean(key, &vec!["kind"]);
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::ListTimeseriesDescriptorsRequest = json::value::from_value(object).unwrap();
let mut call = self.hub.timeseries_descriptors().list(request, opt.value_of("project").unwrap_or(""), opt.value_of("metric").unwrap_or(""), opt.value_of("youngest").unwrap_or(""));
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 {
"window" => {
call = call.window(value.unwrap_or(""));
},
"timespan" => {
call = call.timespan(value.unwrap_or(""));
},
"page-token" => {
call = call.page_token(value.unwrap_or(""));
},
"oldest" => {
call = call.oldest(value.unwrap_or(""));
},
"labels" => {
call = call.add_labels(value.unwrap_or(""));
},
"count" => {
call = call.count( value.map(|v| arg_from_str(v, err, "count", "int32")).unwrap_or(-0));
},
"aggregator" => {
call = call.aggregator(value.unwrap_or(""));
},
_ => {
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.extend(["aggregator", "count", "labels", "oldest", "page-token", "timespan", "window"].iter().map(|v|*v));
v } ));
}
}
}
}
let protocol = CallType::Standard;
if dry_run {
Ok(())
} else {
assert!(err.issues.len() == 0);
for scope in self.opt.values_of("url").map(|i|i.collect()).unwrap_or(Vec::new()).iter() {
call = call.add_scope(scope);
}
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() {
("metric-descriptors", Some(opt)) => {
match opt.subcommand() {
("create", Some(opt)) => {
call_result = self._metric_descriptors_create(opt, dry_run, &mut err).await;
},
("delete", Some(opt)) => {
call_result = self._metric_descriptors_delete(opt, dry_run, &mut err).await;
},
("list", Some(opt)) => {
call_result = self._metric_descriptors_list(opt, dry_run, &mut err).await;
},
_ => {
err.issues.push(CLIError::MissingMethodError("metric-descriptors".to_string()));
writeln!(io::stderr(), "{}\n", opt.usage()).ok();
}
}
},
("timeseries", Some(opt)) => {
match opt.subcommand() {
("list", Some(opt)) => {
call_result = self._timeseries_list(opt, dry_run, &mut err).await;
},
("write", Some(opt)) => {
call_result = self._timeseries_write(opt, dry_run, &mut err).await;
},
_ => {
err.issues.push(CLIError::MissingMethodError("timeseries".to_string()));
writeln!(io::stderr(), "{}\n", opt.usage()).ok();
}
}
},
("timeseries-descriptors", Some(opt)) => {
match opt.subcommand() {
("list", Some(opt)) => {
call_result = self._timeseries_descriptors_list(opt, dry_run, &mut err).await;
},
_ => {
err.issues.push(CLIError::MissingMethodError("timeseries-descriptors".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, "cloudmonitoring2-beta2-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!("{}/cloudmonitoring2-beta2", config_dir)).build().await.unwrap();
let engine = Engine {
opt: opt,
hub: api::CloudMonitoring::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 = [
("metric-descriptors", "methods: 'create', 'delete' and 'list'", vec![
("create",
Some(r##"Create a new metric."##),
"Details at http://byron.github.io/google-apis-rs/google_cloudmonitoring2_beta2_cli/metric-descriptors_create",
vec![
(Some(r##"project"##),
None,
Some(r##"The project id. The value can be the numeric project ID or string-based project name."##),
Some(true),
Some(false)),
(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)),
]),
("delete",
Some(r##"Delete an existing metric."##),
"Details at http://byron.github.io/google-apis-rs/google_cloudmonitoring2_beta2_cli/metric-descriptors_delete",
vec![
(Some(r##"project"##),
None,
Some(r##"The project ID to which the metric belongs."##),
Some(true),
Some(false)),
(Some(r##"metric"##),
None,
Some(r##"Name of the metric."##),
Some(true),
Some(false)),
(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)),
]),
("list",
Some(r##"List metric descriptors that match the query. If the query is not set, then all of the metric descriptors will be returned. Large responses will be paginated, use the nextPageToken returned in the response to request subsequent pages of results by setting the pageToken query parameter to the value of the nextPageToken."##),
"Details at http://byron.github.io/google-apis-rs/google_cloudmonitoring2_beta2_cli/metric-descriptors_list",
vec![
(Some(r##"project"##),
None,
Some(r##"The project id. The value can be the numeric project ID or string-based project name."##),
Some(true),
Some(false)),
(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)),
]),
]),
("timeseries", "methods: 'list' and 'write'", vec![
("list",
Some(r##"List the data points of the time series that match the metric and labels values and that have data points in the interval. Large responses are paginated; use the nextPageToken returned in the response to request subsequent pages of results by setting the pageToken query parameter to the value of the nextPageToken."##),
"Details at http://byron.github.io/google-apis-rs/google_cloudmonitoring2_beta2_cli/timeseries_list",
vec![
(Some(r##"project"##),
None,
Some(r##"The project ID to which this time series belongs. The value can be the numeric project ID or string-based project name."##),
Some(true),
Some(false)),
(Some(r##"metric"##),
None,
Some(r##"Metric names are protocol-free URLs as listed in the Supported Metrics page. For example, compute.googleapis.com/instance/disk/read_ops_count."##),
Some(true),
Some(false)),
(Some(r##"youngest"##),
None,
Some(r##"End of the time interval (inclusive), which is expressed as an RFC 3339 timestamp."##),
Some(true),
Some(false)),
(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)),
]),
("write",
Some(r##"Put data points to one or more time series for one or more metrics. If a time series does not exist, a new time series will be created. It is not allowed to write a time series point that is older than the existing youngest point of that time series. Points that are older than the existing youngest point of that time series will be discarded silently. Therefore, users should make sure that points of a time series are written sequentially in the order of their end time."##),
"Details at http://byron.github.io/google-apis-rs/google_cloudmonitoring2_beta2_cli/timeseries_write",
vec![
(Some(r##"project"##),
None,
Some(r##"The project ID. The value can be the numeric project ID or string-based project name."##),
Some(true),
Some(false)),
(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)),
]),
]),
("timeseries-descriptors", "methods: 'list'", vec![
("list",
Some(r##"List the descriptors of the time series that match the metric and labels values and that have data points in the interval. Large responses are paginated; use the nextPageToken returned in the response to request subsequent pages of results by setting the pageToken query parameter to the value of the nextPageToken."##),
"Details at http://byron.github.io/google-apis-rs/google_cloudmonitoring2_beta2_cli/timeseries-descriptors_list",
vec![
(Some(r##"project"##),
None,
Some(r##"The project ID to which this time series belongs. The value can be the numeric project ID or string-based project name."##),
Some(true),
Some(false)),
(Some(r##"metric"##),
None,
Some(r##"Metric names are protocol-free URLs as listed in the Supported Metrics page. For example, compute.googleapis.com/instance/disk/read_ops_count."##),
Some(true),
Some(false)),
(Some(r##"youngest"##),
None,
Some(r##"End of the time interval (inclusive), which is expressed as an RFC 3339 timestamp."##),
Some(true),
Some(false)),
(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("cloudmonitoring2-beta2")
.author("Sebastian Thiel <byronimo@gmail.com>")
.version("5.0.4+20170501")
.about("Accesses Google Cloud Monitoring data.")
.after_help("All documentation details can be found at http://byron.github.io/google-apis-rs/google_cloudmonitoring2_beta2_cli")
.arg(Arg::with_name("url")
.long("scope")
.help("Specify the authentication a method should be executed in. Each scope requires the user to grant this application permission to use it.If unset, it defaults to the shortest scope url for a particular method.")
.multiple(true)
.takes_value(true))
.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()
.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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