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fetch.rs
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fetch.rs
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#![allow(unused_assignments)]
static USAGE: &str = r#"
Fetches data from web services for every row using HTTP Get.
Fetch is integrated with `jql` to directly parse out values from an API JSON response.
CACHE OPTIONS:
Fetch caches responses to minimize traffic and maximize performance. It has four
mutually-exclusive caching options:
1. In memory cache (the default)
2. Disk cache
3. Redis cache
4. No cache
In memory Cache:
In memory cache is the default and is used if no caching option is set.
It uses a non-persistent, in-memory, 2 million entry Least Recently Used (LRU)
cache for each fetch session. To change the maximum number of entries in the cache,
set the --mem-cache-size option.
Disk Cache:
For persistent, inter-session caching, a DiskCache can be enabled with the --disk-cache flag.
By default, it will store the cache in the directory ~/.qsv/cache/fetch, with a cache expiry
Time-to-Live (TTL) of 2,419,200 seconds (28 days), and cache hits NOT refreshing the TTL
of cached values.
Set the --disk-cache-dir option and the environment variables QSV_DISKCACHE_TTL_SECS and
QSV_DISKCACHE_TTL_REFRESH to change default DiskCache settings.
Redis Cache:
Another persistent, inter-session cache option is a Redis cache enabled with the --redis flag.
By default, it will connect to a local Redis instance at redis://127.0.0.1:6379/1,
with a cache expiry Time-to-Live (TTL) of 2,419,200 seconds (28 days),
and cache hits NOT refreshing the TTL of cached values.
Set the environment variables QSV_REDIS_CONNSTR, QSV_REDIS_TTL_SECONDS and
QSV_REDIS_TTL_REFRESH to change default Redis settings.
If you don't want responses to be cached at all, use the --no-cache flag.
NETWORK OPTIONS:
Fetch recognizes RateLimit and Retry-After headers and dynamically throttles requests
to be as fast as allowed. The --rate-limit option sets the maximum number of queries per second
(QPS) to be made. The default is 0, which means to go as fast as possible,
automatically throttling as required.
To use a proxy, set the environment variables HTTP_PROXY, HTTPS_PROXY or ALL_PROXY
(e.g. export HTTPS_PROXY=socks5://127.0.0.1:1086).
qsv fetch supports brotli, gzip and deflate automatic decompression for improved throughput
and performance, preferring brotli over gzip over deflate.
It automatically upgrades its connection to the much faster and more efficient HTTP/2 protocol
with adaptive flow control if the server supports it.
See https://www.cloudflare.com/learning/performance/http2-vs-http1.1/ and
https://medium.com/coderscorner/http-2-flow-control-77e54f7fd518 for more info.
URL OPTIONS:
<url-column> needs to be a fully qualified URL path. Alternatively, you can dynamically
construct URLs for each CSV record with the --url-template option (see Examples below).
EXAMPLES USING THE URL-COLUMN ARGUMENT:
data.csv
URL
https://api.zippopotam.us/us/90210
https://api.zippopotam.us/us/94105
https://api.zippopotam.us/us/92802
Given the data.csv above, fetch the JSON response.
$ qsv fetch URL data.csv
Note the output will be a JSONL file - with a minified JSON response per line, not a CSV file.
Now, if we want to generate a CSV file with the parsed City and State, we use the
new-column and jql options. (See https://github.com/yamafaktory/jql#%EF%B8%8F-usage
for more info on how to use the jql JSON Query Language)
$ qsv fetch URL --new-column CityState --jql '"places"[0]"place name","places"[0]"state abbreviation"'
data.csv > data_with_CityState.csv
data_with_CityState.csv
URL, CityState,
https://api.zippopotam.us/us/90210, "[\"Beverly Hills\",\"CA\"]"
https://api.zippopotam.us/us/94105, "[\"San Francisco\",\"CA\"]"
https://api.zippopotam.us/us/92802, "[\"Anaheim\",\"CA\"]"
As you can see, entering jql selectors on the command line is error prone and can quickly become cumbersome.
Alternatively, the jql selector can be saved and loaded from a file using the --jqlfile option.
$ qsv fetch URL --new-column CityState --jqlfile places.jql data.csv > datatest.csv
EXAMPLES USING THE --URL-TEMPLATE OPTION:
Instead of using hardcoded URLs, you can also dynamically construct the URL for each CSV row using CSV column
values in that row.
Exanple 1:
For example, we have a CSV with four columns and we want to geocode against the geocode.earth API that expects
latitude and longitude passed as URL parameters.
addr_data.csv
location, description, latitude, longitude
Home, "house is not a home when there's no one there", 40.68889829703977, -73.99589368107037
X, "marks the spot", 40.78576117777992, -73.96279560368552
work, "moolah", 40.70692672280804, -74.0112264146281
school, "exercise brain", 40.72916494539206, -73.99624185993626
gym, "exercise muscles", 40.73947342617386, -73.99039923885411
Geocode addresses in addr_data.csv, pass the latitude and longitude fields and store
the response in a new column called response into enriched_addr_data.csv.
$ qsv fetch --url-template "https://api.geocode.earth/v1/reverse?point.lat={latitude}&point.lon={longitude}"
addr_data.csv -c response > enriched_addr_data.csv
Example 2:
Geocode addresses in addresses.csv, pass the "street address" and "zip-code" fields
and use jql to parse placename from the JSON response into a new column in addresses_with_placename.csv.
Note how field name non-alphanumeric characters (space and hyphen) in the url-template were replaced with _.
$ qsv fetch --jql '"features"[0]"properties","name"' addresses.csv -c placename --url-template
"https://api.geocode.earth/v1/search/structured?address={street_address}&postalcode={zip_code}"
> addresses_with_placename.csv
USING THE HTTP-HEADER OPTION:
The --http-header option allows you to append arbitrary key value pairs (a valid pair is a key and value
separated by a colon) to the HTTP header (to authenticate against an API, pass custom header fields, etc.).
Note that you can pass as many key-value pairs by using --http-header option repeatedly. For example:
$ qsv fetch URL data.csv --http-header "X-Api-Key:TEST_KEY" -H "X-Api-Secret:ABC123XYZ" -H "Accept-Language: fr-FR"
For more extensive examples, see https://github.com/jqnatividad/qsv/blob/master/tests/test_fetch.rs.
Usage:
qsv fetch [<url-column> | --url-template <template>] [--jql <selector> | --jqlfile <file>] [--http-header <k:v>...] [options] [<input>]
qsv fetch --help
Fetch options:
<url-column> Name of the column with the URL.
Mutually exclusive with --url-template.
--url-template <template> URL template to use. Use column names enclosed with
curly braces to insert the CSV data for a record.
Mutually exclusive with url-column.
-c, --new-column <name> Put the fetched values in a new column. Specifying this option
results in a CSV. Otherwise, the output is in JSONL format.
--jql <selector> Apply jql selector to API returned JSON value.
Mutually exclusive with --jqlfile,
--jqlfile <file> Load jql selector from file instead.
Mutually exclusive with --jql.
--pretty Prettify JSON responses. Otherwise, they're minified.
If the response is not in JSON format, it's passed through.
Note that --pretty requires the --new-column option.
--rate-limit <qps> Rate Limit in Queries Per Second (max: 1000). Note that fetch
dynamically throttles as well based on rate-limit and
retry-after response headers.
Set to 0 to go as fast as possible, automatically throttling as required.
CAUTION: Only use zero for APIs that use RateLimit and/or Retry-After headers,
otherwise your fetch job may look like a Denial Of Service attack.
Even though zero is the default, this is mitigated by --max-errors having a
default of 10.
[default: 0 ]
--timeout <seconds> Timeout for each URL request.
[default: 30 ]
-H, --http-header <k:v> Append custom header(s) to the HTTP header. Pass multiple key-value pairs
by adding this option multiple times, once for each pair. The key and value
should be separated by a colon.
--max-retries <count> Maximum number of retries per record before an error is raised.
[default: 5]
--max-errors <count> Maximum number of errors before aborting.
Set to zero (0) to continue despite errors.
[default: 10 ]
--store-error On error, store error code/message instead of blank value.
--cookies Allow cookies.
--user-agent <agent> Specify custom user agent. It supports the following variables -
$QSV_VERSION, $QSV_TARGET, $QSV_BIN_NAME, $QSV_KIND and $QSV_COMMAND.
Try to follow the syntax here -
https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/User-Agent
--report <d|s> Creates a report of the fetch job. The report has the same name as the input file
with the ".fetch-report" suffix.
There are two kinds of report - d for "detailed" & s for "short". The detailed
report has the same columns as the input CSV with six additional columns -
qsv_fetch_url, qsv_fetch_status, qsv_fetch_cache_hit, qsv_fetch_retries,
qsv_fetch_elapsed_ms & qsv_fetch_response.
The short report only has the six columns without the "qsv_fetch_" prefix.
[default: none]
CACHING OPTIONS:
--no-cache Do not cache responses.
--mem-cache-size <count> Maximum number of entries in the in-memory LRU cache.
[default: 2000000]
--disk-cache Use a persistent disk cache for responses. The cache is stored in the directory
specified by --disk-cache-dir. If the directory does not exist, it will be
created. If the directory exists, it will be used as is.
It has a default Time To Live (TTL)/lifespan of 28 days and cache hits do not
refresh the TTL of cached values.
Adjust the QSV_DISKCACHE_TTL_SECS & QSV_DISKCACHE_TTL_REFRESH env vars
to change DiskCache settings.
--disk-cache-dir <dir> The directory <dir> to store the disk cache. Note that if the directory
does not exist, it will be created. If the directory exists, it will be used as is,
and will not be flushed. This option allows you to maintain several disk caches
for different fetch jobs (e.g. one for geocoding, another for weather, etc.)
[default: ~/.qsv/cache/fetch]
--redis-cache Use Redis to cache responses. It connects to "redis://127.0.0.1:6379/1"
with a connection pool size of 20, with a TTL of 28 days, and a cache hit
NOT renewing an entry's TTL.
Adjust the QSV_REDIS_CONNSTR, QSV_REDIS_MAX_POOL_SIZE, QSV_REDIS_TTL_SECONDS &
QSV_REDIS_TTL_REFRESH env vars respectively to change Redis settings.
This option is ignored if the --disk-cache option is enabled.
--cache-error Cache error responses even if a request fails. If an identical URL is requested,
the cached error is returned. Otherwise, the fetch is attempted again
for --max-retries.
--flush-cache Flush all the keys in the current cache on startup. This only applies to
Disk and Redis caches.
Common options:
-h, --help Display this message
-o, --output <file> Write output to <file> instead of stdout.
-n, --no-headers When set, the first row will not be interpreted
as headers. Namely, it will be sorted with the rest
of the rows. Otherwise, the first row will always
appear as the header row in the output.
-d, --delimiter <arg> The field delimiter for reading CSV data.
Must be a single character. (default: ,)
-p, --progressbar Show progress bars. Will also show the cache hit rate upon completion.
Not valid for stdin.
"#;
use std::{fs, num::NonZeroU32, sync::OnceLock, thread, time};
use cached::{
proc_macro::{cached, io_cached},
stores::DiskCacheBuilder,
Cached, IOCached, RedisCache, Return, SizedCache,
};
use dynfmt::Format;
use governor::{
clock::DefaultClock,
middleware::NoOpMiddleware,
state::{direct::NotKeyed, InMemoryState},
Quota, RateLimiter,
};
use indicatif::{HumanCount, MultiProgress, ProgressBar, ProgressDrawTarget};
use log::{
debug, error, info, log_enabled, warn,
Level::{Debug, Trace, Warn},
};
use rand::Rng;
use regex::Regex;
use reqwest::{
blocking::Client,
header::{HeaderMap, HeaderName, HeaderValue},
};
use serde::{Deserialize, Serialize};
use serde_json::{json, Value};
use simdutf8::basic::from_utf8;
use simple_expand_tilde::expand_tilde;
use url::Url;
use crate::{
config::{Config, Delimiter},
regex_oncelock,
select::SelectColumns,
util, CliError, CliResult,
};
#[derive(Deserialize)]
struct Args {
arg_url_column: SelectColumns,
arg_input: Option<String>,
flag_url_template: Option<String>,
flag_new_column: Option<String>,
flag_jql: Option<String>,
flag_jqlfile: Option<String>,
flag_pretty: bool,
flag_rate_limit: u32,
flag_timeout: u16,
flag_http_header: Vec<String>,
flag_max_retries: u8,
flag_max_errors: u64,
flag_store_error: bool,
flag_cookies: bool,
flag_user_agent: Option<String>,
flag_report: String,
flag_no_cache: bool,
flag_mem_cache_size: usize,
flag_disk_cache: bool,
flag_disk_cache_dir: Option<String>,
flag_redis_cache: bool,
flag_cache_error: bool,
flag_flush_cache: bool,
flag_output: Option<String>,
flag_no_headers: bool,
flag_delimiter: Option<Delimiter>,
flag_progressbar: bool,
}
// set memcache size - the default is 2 million entries
// and is set through the docopt usage text
static MEM_CACHE_SIZE: OnceLock<usize> = OnceLock::new();
static QSV_REDIS_CONNSTR_ENV: &str = "QSV_REDIS_CONNSTR";
static QSV_REDIS_MAX_POOL_SIZE_ENV: &str = "QSV_REDIS_MAX_POOL_SIZE";
static QSV_REDIS_TTL_SECS_ENV: &str = "QSV_REDIS_TTL_SECS";
static QSV_REDIS_TTL_REFRESH_ENV: &str = "QSV_REDIS_TTL_REFRESH";
static DEFAULT_REDIS_CONN_STRING: OnceLock<String> = OnceLock::new();
static DEFAULT_REDIS_TTL_SECS: u64 = 60 * 60 * 24 * 28; // 28 days in seconds
static DEFAULT_REDIS_POOL_SIZE: u32 = 20;
// disk cache TTL is also 28 days by default
static DEFAULT_DISKCACHE_TTL_SECS: u64 = 60 * 60 * 24 * 28;
static TIMEOUT_SECS: OnceLock<u64> = OnceLock::new();
const FETCH_REPORT_PREFIX: &str = "qsv_fetch_";
const FETCH_REPORT_SUFFIX: &str = ".fetch-report.tsv";
// prioritize compression schemes. Zstd, first, then Brotli, then gzip, then deflate, and * last
pub static DEFAULT_ACCEPT_ENCODING: &str =
"zstd;q=1.0, br;q=0.8, gzip;q=0.6, deflate;q=0.4, *;q=0.2";
// for governor/ratelimiter
const MINIMUM_WAIT_MS: u64 = 10;
const MIN_WAIT: time::Duration = time::Duration::from_millis(MINIMUM_WAIT_MS);
// for --report option
#[derive(PartialEq, Eq)]
pub enum ReportKind {
Detailed,
Short,
None,
}
#[derive(Debug)]
pub struct RedisConfig {
pub conn_str: String,
pub max_pool_size: u32,
pub ttl_secs: u64,
pub ttl_refresh: bool,
}
impl RedisConfig {
pub fn new() -> RedisConfig {
Self {
conn_str: std::env::var(QSV_REDIS_CONNSTR_ENV)
.unwrap_or_else(|_| DEFAULT_REDIS_CONN_STRING.get().unwrap().to_string()),
max_pool_size: std::env::var(QSV_REDIS_MAX_POOL_SIZE_ENV)
.unwrap_or_else(|_| DEFAULT_REDIS_POOL_SIZE.to_string())
.parse()
.unwrap_or(DEFAULT_REDIS_POOL_SIZE),
ttl_secs: std::env::var(QSV_REDIS_TTL_SECS_ENV)
.unwrap_or_else(|_| DEFAULT_REDIS_TTL_SECS.to_string())
.parse()
.unwrap_or(DEFAULT_REDIS_TTL_SECS),
ttl_refresh: util::get_envvar_flag(QSV_REDIS_TTL_REFRESH_ENV),
}
}
}
#[derive(Debug)]
pub struct DiskCacheConfig {
pub ttl_secs: u64,
pub ttl_refresh: bool,
}
impl DiskCacheConfig {
pub fn new() -> DiskCacheConfig {
Self {
ttl_secs: std::env::var("QSV_DISKCACHE_TTL_SECS")
.unwrap_or_else(|_| DEFAULT_DISKCACHE_TTL_SECS.to_string())
.parse()
.unwrap_or(DEFAULT_DISKCACHE_TTL_SECS),
ttl_refresh: util::get_envvar_flag("QSV_DISKCACHE_TTL_REFRESH"),
}
}
}
#[derive(Debug, Default, PartialEq, Eq)]
pub enum CacheType {
#[default]
None,
InMemory,
Disk,
Redis,
}
#[derive(Serialize, Deserialize, Clone, PartialEq, Eq, Hash)]
pub struct FetchResponse {
pub response: String,
pub status_code: u16,
pub retries: u8,
}
static DISKCACHE_DIR: OnceLock<String> = OnceLock::new();
static REDISCONFIG: OnceLock<RedisConfig> = OnceLock::new();
static DISKCACHECONFIG: OnceLock<DiskCacheConfig> = OnceLock::new();
pub fn run(argv: &[&str]) -> CliResult<()> {
let args: Args = util::get_args(USAGE, argv)?;
// connect to Redis at localhost, using database 1 by default when --redis-cache is enabled
// fetch uses database 1 by default, as opposed to the database 2 with fetchpost
DEFAULT_REDIS_CONN_STRING
.set("redis://127.0.0.1:6379/1".to_string())
.unwrap();
// set memcache size
MEM_CACHE_SIZE.set(args.flag_mem_cache_size).unwrap();
// set timeout
TIMEOUT_SECS
.set(util::timeout_secs(args.flag_timeout)?)
.unwrap();
// setup diskcache dir response caching
let diskcache_dir = if let Some(dir) = &args.flag_disk_cache_dir {
if dir.starts_with('~') {
// expand the tilde
let expanded_dir = expand_tilde(dir).unwrap();
expanded_dir.to_string_lossy().to_string()
} else {
dir.to_string()
}
} else {
String::new()
};
let cache_type = if args.flag_no_cache {
CacheType::None
} else if args.flag_disk_cache {
// if --flush-cache is set, flush the cache directory first if it exists
if args.flag_flush_cache
&& !diskcache_dir.is_empty()
&& fs::metadata(&diskcache_dir).is_ok()
{
if let Err(e) = fs::remove_dir_all(&diskcache_dir) {
return fail_clierror!(r#"Cannot remove cache directory "{diskcache_dir}": {e:?}"#);
}
info!("flushed DiskCache directory: {diskcache_dir}");
}
// check if the cache directory exists, if it doesn't, create it
if !diskcache_dir.is_empty() {
if let Err(e) = fs::create_dir_all(&diskcache_dir) {
return fail_clierror!(r#"Cannot create cache directory "{diskcache_dir}": {e:?}"#);
}
}
DISKCACHE_DIR.set(diskcache_dir).unwrap();
// initialize DiskCache Config
DISKCACHECONFIG.set(DiskCacheConfig::new()).unwrap();
CacheType::Disk
} else if args.flag_redis_cache {
// initialize Redis Config
REDISCONFIG.set(RedisConfig::new()).unwrap();
// check if redis connection is valid
let conn_str = &REDISCONFIG.get().unwrap().conn_str;
let redis_client = match redis::Client::open(conn_str.to_string()) {
Ok(rc) => rc,
Err(e) => {
return fail_incorrectusage_clierror!(
r#"Invalid Redis connection string "{conn_str}": {e:?}"#
)
},
};
let mut redis_conn;
match redis_client.get_connection() {
Err(e) => {
return fail_clierror!(r#"Cannot connect to Redis using "{conn_str}": {e:?}"#)
},
Ok(x) => redis_conn = x,
}
if args.flag_flush_cache {
redis::cmd("FLUSHDB").execute(&mut redis_conn);
info!("flushed Redis database.");
}
CacheType::Redis
} else {
CacheType::InMemory
};
log::info!("Cache Type: {cache_type:?}");
let mut rconfig = Config::new(&args.arg_input)
.delimiter(args.flag_delimiter)
.trim(csv::Trim::All)
.no_headers(args.flag_no_headers);
let mut rdr = rconfig.reader()?;
let mut wtr = if args.flag_new_column.is_some() {
// when adding a new column for the response, the output
// is a regular CSV file
Config::new(&args.flag_output).writer()?
} else {
// otherwise, the output is a JSONL file. So we need to configure
// the csv writer so it doesn't double double quote the JSON response
// and its flexible (i.e. "column counts are different row to row")
Config::new(&args.flag_output)
.quote_style(csv::QuoteStyle::Never)
.flexible(true)
.writer()?
};
let mut headers = rdr.byte_headers()?.clone();
let include_existing_columns = if let Some(name) = args.flag_new_column {
// write header with new column
headers.push_field(name.as_bytes());
wtr.write_byte_record(&headers)?;
true
} else {
if args.flag_pretty {
return fail_incorrectusage_clierror!(
"The --pretty option requires the --new-column option."
);
}
false
};
let mut column_index = 0_usize;
if args.flag_url_template.is_none() {
rconfig = rconfig.select(args.arg_url_column);
let sel = rconfig.selection(&headers)?;
column_index = *sel.iter().next().unwrap();
if sel.len() != 1 {
return fail!("Only a single URL column may be selected.");
}
}
let mut dynfmt_url_template = String::new();
if let Some(ref url_template) = args.flag_url_template {
if args.flag_no_headers {
return fail_incorrectusage_clierror!("--url-template option requires column headers.");
}
let str_headers = rdr.headers()?.clone();
let mut dynfmt_fields = Vec::with_capacity(10); // 10 is a reasonable default to save allocs
dynfmt_url_template = url_template.to_string();
// first, get the fields used in the url template
let (safe_headers, _) =
util::safe_header_names(&str_headers, false, false, None, "", false);
let formatstr_re: &'static Regex = regex_oncelock!(r"\{(?P<key>\w+)?\}");
for format_fields in formatstr_re.captures_iter(url_template) {
dynfmt_fields.push(format_fields.name("key").unwrap().as_str());
}
// we sort the fields so we can do binary_search
dynfmt_fields.sort_unstable();
// now, get the indices of the columns for the lookup vec
for (i, field) in safe_headers.iter().enumerate() {
if dynfmt_fields.binary_search(&field.as_str()).is_ok() {
let field_with_curly = format!("{{{field}}}");
let field_index = format!("{{{i}}}");
dynfmt_url_template = dynfmt_url_template.replace(&field_with_curly, &field_index);
}
}
debug!("dynfmt_fields: {dynfmt_fields:?} url_template: {dynfmt_url_template}");
}
let rate_limit = match args.flag_rate_limit {
0 => NonZeroU32::new(u32::MAX).unwrap(),
1..=1000 => NonZeroU32::new(args.flag_rate_limit).unwrap(),
_ => {
return fail_incorrectusage_clierror!(
"Rate Limit should be between 0 to 1000 queries per second."
)
},
};
debug!("RATE LIMIT: {rate_limit}");
let http_headers: HeaderMap = {
let mut map = HeaderMap::with_capacity(args.flag_http_header.len() + 1);
for header in args.flag_http_header {
let vals: Vec<&str> = header.split(':').collect();
if vals.len() != 2 {
return fail_incorrectusage_clierror!(
"{vals:?} is not a valid key-value pair. Expecting a key and a value \
separated by a colon."
);
}
// allocate new String for header key to put into map
let k: String = String::from(vals[0].trim());
let header_name: HeaderName =
match HeaderName::from_lowercase(k.to_lowercase().as_bytes()) {
Ok(h) => h,
Err(e) => return fail_incorrectusage_clierror!("Invalid header name: {e}"),
};
// allocate new String for header value to put into map
let v: String = String::from(vals[1].trim());
let header_val: HeaderValue = match HeaderValue::from_str(v.as_str()) {
Ok(v) => v,
Err(e) => return fail_incorrectusage_clierror!("Invalid header value: {e}"),
};
map.append(header_name, header_val);
}
map.append(
reqwest::header::ACCEPT_ENCODING,
HeaderValue::from_str(DEFAULT_ACCEPT_ENCODING).unwrap(),
);
map
};
debug!("HTTP Header: {http_headers:?}");
let client_timeout = time::Duration::from_secs(*TIMEOUT_SECS.get().unwrap_or(&30));
let client = Client::builder()
.user_agent(util::set_user_agent(args.flag_user_agent)?)
.default_headers(http_headers)
.cookie_store(args.flag_cookies)
.brotli(true)
.gzip(true)
.deflate(true)
.zstd(true)
.use_rustls_tls()
.http2_adaptive_window(true)
.connection_verbose(log_enabled!(Debug) || log_enabled!(Trace))
.timeout(client_timeout)
.build()?;
// set rate limiter with allow_burst set to 1 - see https://github.com/antifuchs/governor/issues/39
let limiter =
RateLimiter::direct(Quota::per_second(rate_limit).allow_burst(NonZeroU32::new(1).unwrap()));
// prep progress bars
let show_progress =
(args.flag_progressbar || util::get_envvar_flag("QSV_PROGRESSBAR")) && !rconfig.is_stdin();
// create multi_progress to stderr with a maximum refresh of 5 per second
let multi_progress = MultiProgress::with_draw_target(ProgressDrawTarget::stderr_with_hz(5));
let progress = multi_progress.add(ProgressBar::new(0));
let mut record_count = 0;
let error_progress = multi_progress.add(ProgressBar::new(args.flag_max_errors));
if args.flag_max_errors > 0 && show_progress {
console::set_colors_enabled(true); // as error progress bar is red
error_progress.set_style(
indicatif::ProgressStyle::default_bar()
.template("{bar:37.red/white} {percent}%{msg} ({per_sec:7})")
.unwrap(),
);
error_progress.set_message(format!(
" of {} max errors",
HumanCount(args.flag_max_errors)
));
} else {
error_progress.set_draw_target(ProgressDrawTarget::hidden());
}
if show_progress {
record_count = util::count_rows(&rconfig)?;
util::prep_progress(&progress, record_count);
} else {
multi_progress.set_draw_target(ProgressDrawTarget::hidden());
}
let jql_selector: Option<String> = match args.flag_jqlfile {
Some(ref jql_file) => Some(fs::read_to_string(jql_file)?),
None => args.flag_jql.as_ref().map(std::string::ToString::to_string),
};
// prepare report
let report = if args.flag_report.to_lowercase().starts_with('d') {
// if it starts with d, its a detailed report
ReportKind::Detailed
} else if args.flag_report.to_lowercase().starts_with('s') {
// if it starts with s, its a short report
ReportKind::Short
} else {
ReportKind::None
};
let mut report_wtr;
let report_path;
if report == ReportKind::None {
// no report, point report_wtr to /dev/null (AKA sink)
report_wtr = Config::new(&Some("sink".to_string())).writer()?;
report_path = String::new();
} else {
report_path = args
.arg_input
.clone()
.unwrap_or_else(|| "stdin.csv".to_string());
report_wtr = Config::new(&Some(report_path.clone() + FETCH_REPORT_SUFFIX))
.delimiter(Some(Delimiter(b'\t')))
.writer()?;
let mut report_headers = if report == ReportKind::Detailed {
headers.clone()
} else {
csv::ByteRecord::new()
};
let rptcol_prefix = if report == ReportKind::Detailed {
FETCH_REPORT_PREFIX
} else {
""
};
// the fetch report has the following columns:
// url - URL used, status - HTTP status code, cache_hit - cache hit flag,
// retries - retry attempts, elapsed - elapsed time (milliseconds) & response.
let report_header_fields = vec![
format!("{rptcol_prefix}url"),
format!("{rptcol_prefix}status"),
format!("{rptcol_prefix}cache_hit"),
format!("{rptcol_prefix}retries"),
format!("{rptcol_prefix}elapsed_ms"),
format!("{rptcol_prefix}response"),
];
report_headers = csv::ByteRecord::from(report_header_fields);
report_wtr.write_byte_record(&report_headers)?;
}
// amortize memory allocations
// why optimize for mem & speed, when we're just doing single-threaded, throttled URL fetches?
// we still optimize since fetch is backed by a memoized cache (in memory or Redis, when --redis
// is used), so we want to return responses as fast as possible as we bypass the network
// request with a cache hit
let mut record = csv::ByteRecord::new();
let mut jsonl_record = csv::ByteRecord::new();
let mut report_record = csv::ByteRecord::new();
let mut url = String::with_capacity(100);
let mut record_vec: Vec<String> = Vec::with_capacity(headers.len());
let mut redis_cache_hits: u64 = 0;
let mut disk_cache_hits: u64 = 0;
let mut intermediate_redis_value: Return<String> = Return {
was_cached: false,
value: String::new(),
};
let mut intermediate_value: Return<FetchResponse> = Return {
was_cached: false,
value: FetchResponse {
response: String::new(),
status_code: 0_u16,
retries: 0_u8,
},
};
let mut final_value = String::with_capacity(150);
let mut final_response = FetchResponse {
response: String::new(),
status_code: 0_u16,
retries: 0_u8,
};
let empty_response = FetchResponse {
response: String::new(),
status_code: 0_u16,
retries: 0_u8,
};
let mut running_error_count = 0_u64;
let mut running_success_count = 0_u64;
let mut was_cached;
let mut now = time::Instant::now();
while rdr.read_byte_record(&mut record)? {
if show_progress {
progress.inc(1);
}
if report != ReportKind::None {
now = time::Instant::now();
};
if args.flag_url_template.is_some() {
// we're using a URL template.
// let's dynamically construct the URL with it
record_vec.clear();
for field in &record {
record_vec.push(from_utf8(field).unwrap_or_default().to_owned());
}
if let Ok(formatted) =
dynfmt::SimpleCurlyFormat.format(&dynfmt_url_template, &*record_vec)
{
url = formatted.into_owned();
}
} else if let Ok(s) = from_utf8(&record[column_index]) {
// we're not using a URL template,
// just use the field as-is as the URL
s.clone_into(&mut url);
} else {
url = String::new();
}
if url.is_empty() {
final_response.clone_from(&empty_response);
was_cached = false;
} else {
match cache_type {
CacheType::InMemory => {
intermediate_value = get_cached_response(
&url,
&client,
&limiter,
&jql_selector,
args.flag_store_error,
args.flag_pretty,
include_existing_columns,
args.flag_max_retries,
);
final_response = intermediate_value.value;
was_cached = intermediate_value.was_cached;
if !args.flag_cache_error && final_response.status_code != 200 {
let mut cache = GET_CACHED_RESPONSE.lock().unwrap();
cache.cache_remove(&url);
}
},
CacheType::Disk => {
intermediate_value = get_diskcache_response(
&url,
&client,
&limiter,
&jql_selector,
args.flag_store_error,
args.flag_pretty,
include_existing_columns,
args.flag_max_retries,
)?;
final_response = intermediate_value.value;
was_cached = intermediate_value.was_cached;
if was_cached {
disk_cache_hits += 1;
// log::debug!("Disk cache hit for {url} hit: {disk_cache_hits}");
}
if !args.flag_cache_error && final_response.status_code != 200 {
let _ = GET_DISKCACHE_RESPONSE.cache_remove(&url);
// log::debug!("Removed Disk cache for {url}");
}
},
CacheType::Redis => {
intermediate_redis_value = get_redis_response(
&url,
&client,
&limiter,
&jql_selector,
args.flag_store_error,
args.flag_pretty,
include_existing_columns,
args.flag_max_retries,
)?;
was_cached = intermediate_redis_value.was_cached;
if was_cached {
redis_cache_hits += 1;
}
final_response = match serde_json::from_str(&intermediate_redis_value) {
Ok(r) => r,
Err(e) => {
return fail_clierror!(
"Cannot deserialize Redis cache value. Try flushing the Redis \
cache with --flushdb: {e}"
)
},
};
if !args.flag_cache_error && final_response.status_code != 200 {
let key = format!(
"{}{:?}{}{}{}",
url,
jql_selector,
args.flag_store_error,
args.flag_pretty,
include_existing_columns
);
if GET_REDIS_RESPONSE.cache_remove(&key).is_err() && log_enabled!(Warn) {
// failure to remove cache keys is non-fatal. Continue, but log it.
wwarn!(r#"Cannot remove Redis key "{key}""#);
};
}
},
CacheType::None => {
final_response = get_response(
&url,
&client,
&limiter,
&jql_selector,
args.flag_store_error,
args.flag_pretty,
include_existing_columns,
args.flag_max_retries,
);
was_cached = false;
},
}
};
if final_response.status_code == 200 {
running_success_count += 1;
} else {
running_error_count += 1;
error_progress.inc(1);
}
final_value.clone_from(&final_response.response);
if include_existing_columns {
record.push_field(final_value.as_bytes());
wtr.write_byte_record(&record)?;
} else {
jsonl_record.clear();
if final_value.is_empty() {
jsonl_record.push_field(b"{}");
} else {
jsonl_record.push_field(final_value.as_bytes());
}
wtr.write_byte_record(&jsonl_record)?;
}
if report != ReportKind::None {
if report == ReportKind::Detailed {
report_record.clone_from(&record);
} else {
report_record.clear();
}
report_record.push_field(url.as_bytes());
report_record.push_field(final_response.status_code.to_string().as_bytes());
report_record.push_field(if was_cached { b"1" } else { b"0" });
report_record.push_field(final_response.retries.to_string().as_bytes());
report_record.push_field(now.elapsed().as_millis().to_string().as_bytes());
if include_existing_columns {
report_record.push_field(final_value.as_bytes());
} else {
report_record.push_field(jsonl_record.as_slice());
}
report_wtr.write_byte_record(&report_record)?;
}
if args.flag_max_errors > 0 && running_error_count >= args.flag_max_errors {
break;
}
}
report_wtr.flush()?;
if show_progress {
match cache_type {
CacheType::InMemory => {
util::update_cache_info!(progress, GET_CACHED_RESPONSE);
},
CacheType::Disk => {
util::update_cache_info!(progress, disk_cache_hits, record_count);
},
CacheType::Redis => {
util::update_cache_info!(progress, redis_cache_hits, record_count);
},
CacheType::None => (),
}
util::finish_progress(&progress);
if running_error_count == 0 {
error_progress.finish_and_clear();
} else if running_error_count >= args.flag_max_errors {
error_progress.finish();
// sleep so we can dependably write eprintln without messing up progress bars
thread::sleep(time::Duration::from_nanos(10));
let abort_msg = format!(
"{} max errors. Fetch aborted.",
HumanCount(args.flag_max_errors)
);
winfo!("{abort_msg}");
} else {
error_progress.abandon();
}
}
let mut end_msg = format!(
"{} records successfully fetched as {}. {} errors.",
HumanCount(running_success_count),
if include_existing_columns {
"CSV"
} else {
"JSONL"
},
HumanCount(running_error_count)
);
if report != ReportKind::None {
use std::fmt::Write;
write!(
&mut end_msg,
" {} report created: \"{}{FETCH_REPORT_SUFFIX}\"",
if report == ReportKind::Detailed {
"Detailed"
} else {
"Short"
},
report_path
)
.unwrap();
}
winfo!("{end_msg}");
Ok(wtr.flush()?)
}
// we only need url in the cache key
// as this is an in-memory cache that is only used for one qsv session