use std::collections::{BTreeMap, BTreeSet};
use std::fs::File;
use std::io::{BufReader, Read};
use std::process::Command;
use anyhow::Result;
use walkdir::WalkDir;
use abstio::{DataPacks, Entry, Manifest};
use abstutil::{must_run_cmd, prettyprint_usize, CmdArgs, Parallelism, Timer};
const MD5_BUF_READ_SIZE: usize = 4096;
#[tokio::main]
async fn main() {
let mut args = CmdArgs::new();
let version = args.optional("--version").unwrap_or("dev".to_string());
if args.enabled("--upload") {
assert_eq!(version, "dev");
args.done();
upload(version);
} else if args.enabled("--inc_upload") {
assert_ne!(version, "dev");
args.done();
incremental_upload(version);
} else if args.enabled("--dry") {
let single_file = args.optional_free();
args.done();
if let Some(path) = single_file {
let local = md5sum(&path);
let truth = Manifest::load()
.entries
.remove(&path)
.expect(&format!("{} not in data/MANIFEST.txt", path))
.checksum;
if local != truth {
println!("{} has changed", path);
}
} else {
just_compare();
}
} else if args.enabled("--opt-into-all") {
args.done();
opt_into_all();
} else {
let minimal = args.enabled("--minimal");
let dont_delete = args.enabled("--dont_delete");
args.done();
download_updates(version, minimal, !dont_delete).await;
}
}
async fn download_updates(version: String, minimal: bool, delete_local: bool) {
let data_packs = DataPacks::load_or_create();
let truth = Manifest::load().filter(data_packs);
let local = generate_manifest(&truth);
if delete_local {
for path in local.entries.keys() {
if !truth.entries.contains_key(path) {
rm(&path);
}
}
}
let mut failed = Vec::new();
for (path, entry) in truth.entries {
if local.entries.get(&path).map(|x| &x.checksum) != Some(&entry.checksum) {
if minimal && !path.contains("montlake") && path != "data/system/us/seattle/city.bin" {
continue;
}
std::fs::create_dir_all(std::path::Path::new(&path).parent().unwrap()).unwrap();
match download_file(&version, &path).await {
Ok(bytes) => {
println!(
"> decompress {}, which is {} bytes compressed",
path,
prettyprint_usize(bytes.len())
);
let mut decoder = flate2::read::GzDecoder::new(&bytes[..]);
let mut out = File::create(&path).unwrap();
if let Err(err) = std::io::copy(&mut decoder, &mut out) {
println!("{}, but continuing", err);
failed.push(format!("{} failed: {}", path, err));
}
}
Err(err) => {
println!("{}, but continuing", err);
failed.push(format!("{} failed: {}", path, err));
}
};
}
}
if !failed.is_empty() {
panic!("Failed to download stuff: {:?}", failed);
}
remove_empty_directories("data/input");
remove_empty_directories("data/system");
}
fn just_compare() {
let data_packs = DataPacks::load_or_create();
let truth = Manifest::load().filter(data_packs);
let local = generate_manifest(&truth);
for path in local.entries.keys() {
if !truth.entries.contains_key(path) {
println!("- Remove {}", path);
}
}
for (path, entry) in truth.entries {
if local.entries.get(&path).map(|x| &x.checksum) != Some(&entry.checksum) {
println!("- Update {}", path);
}
}
}
fn upload(version: String) {
let remote_base = format!("/home/dabreegster/s3_abst_data/{}", version);
let remote: Manifest = abstio::maybe_read_json(
format!("{}/MANIFEST.json", remote_base),
&mut Timer::throwaway(),
)
.unwrap_or(Manifest {
entries: BTreeMap::new(),
});
let mut local = generate_manifest(&remote);
for path in remote.entries.keys() {
if !local.entries.contains_key(path) {
rm(&format!("{}/{}.gz", remote_base, path));
}
}
let local_entries = std::mem::replace(&mut local.entries, BTreeMap::new());
for (path, entry) in Timer::new("compress files").parallelize(
"compress files",
Parallelism::Fastest,
local_entries.into_iter().collect(),
|(path, mut entry)| {
let remote_path = format!("{}/{}.gz", remote_base, path);
let changed = remote.entries.get(&path).map(|x| &x.checksum) != Some(&entry.checksum);
if changed {
compress(&path, &remote_path);
}
entry.compressed_size_bytes = std::fs::metadata(&remote_path)
.expect(&format!("Compressed {} not there?", remote_path))
.len();
(path, entry)
},
) {
local.entries.insert(path, entry);
}
abstio::write_json(format!("{}/MANIFEST.json", remote_base), &local);
abstio::write_json("data/MANIFEST.json".to_string(), &local);
must_run_cmd(
Command::new("aws")
.arg("s3")
.arg("sync")
.arg("--delete")
.arg(format!("{}/data", remote_base))
.arg(format!("s3://abstreet/{}/data", version)),
);
must_run_cmd(
Command::new("aws")
.arg("s3")
.arg("cp")
.arg(format!("{}/MANIFEST.json", remote_base))
.arg(format!("s3://abstreet/{}/MANIFEST.json", version)),
);
}
fn incremental_upload(version: String) {
let remote_base = "tmp_incremental_upload";
let mut truth = Manifest::load();
let local = generate_manifest(&truth);
let mut changes = false;
for (path, entry) in Timer::new("compress files")
.parallelize(
"compress files",
Parallelism::Fastest,
local.entries.into_iter().collect(),
|(path, mut entry)| {
if truth.entries.get(&path).map(|x| &x.checksum) != Some(&entry.checksum) {
let remote_path = format!("{}/{}.gz", remote_base, path);
compress(&path, &remote_path);
entry.compressed_size_bytes = std::fs::metadata(&remote_path)
.expect(&format!("Compressed {} not there?", remote_path))
.len();
Some((path, entry))
} else {
None
}
},
)
.into_iter()
.flatten()
{
truth.entries.insert(path, entry);
changes = true;
}
if !changes {
return;
}
abstio::write_json("data/MANIFEST.json".to_string(), &truth);
must_run_cmd(
Command::new("aws")
.arg("s3")
.arg("sync")
.arg(format!("{}/data", remote_base))
.arg(format!("s3://abstreet/{}/data", version)),
);
must_run_cmd(
Command::new("aws")
.arg("s3")
.arg("cp")
.arg("data/MANIFEST.json")
.arg(format!("s3://abstreet/{}/MANIFEST.json", version)),
);
must_run_cmd(Command::new("rm").arg("-rfv").arg(remote_base));
}
fn opt_into_all() {
let mut data_packs = DataPacks {
runtime: BTreeSet::new(),
input: BTreeSet::new(),
};
for path in Manifest::load().entries.keys() {
if path.starts_with("data/system/extra_fonts") || path.starts_with("data/input/shared") {
continue;
}
let parts = path.split("/").collect::<Vec<_>>();
let mut city = format!("{}/{}", parts[2], parts[3]);
if Manifest::is_file_part_of_huge_seattle(path) {
city = "us/huge_seattle".to_string();
}
if parts[1] == "input" {
data_packs.input.insert(city);
} else if parts[1] == "system" {
data_packs.runtime.insert(city);
}
}
println!("{}", abstutil::to_json(&data_packs));
}
fn generate_manifest(truth: &Manifest) -> Manifest {
let mut paths = Vec::new();
for entry in WalkDir::new("data/input")
.into_iter()
.chain(WalkDir::new("data/system").into_iter())
.filter_map(|e| e.ok())
{
if entry.file_type().is_dir() {
continue;
}
let orig_path = entry.path().display().to_string();
let path = orig_path.replace("\\", "/");
if path.contains("system/assets/")
|| path.contains("system/proposals")
|| path.contains("system/study_areas")
{
continue;
}
paths.push((orig_path, path));
}
let mut kv = BTreeMap::new();
for (path, entry) in Timer::new("compute md5sums").parallelize(
"compute md5sums",
Parallelism::Fastest,
paths,
|(orig_path, path)| {
let uncompressed_size_bytes = std::fs::metadata(&orig_path).unwrap().len();
let checksum = if uncompressed_size_bytes < 1024 * 1024 * 1024 {
md5sum(&orig_path)
} else if truth
.entries
.get(&path)
.map(|entry| entry.uncompressed_size_bytes == uncompressed_size_bytes)
.unwrap_or(false)
{
truth.entries[&path].checksum.clone()
} else {
md5sum(&orig_path)
};
(
path,
Entry {
checksum,
uncompressed_size_bytes,
compressed_size_bytes: 0,
},
)
},
) {
kv.insert(path, entry);
}
Manifest { entries: kv }
}
fn md5sum(path: &str) -> String {
let mut file = File::open(path).unwrap();
let mut buffer = [0 as u8; MD5_BUF_READ_SIZE];
let mut context = md5::Context::new();
while let Ok(n) = file.read(&mut buffer) {
if n == 0 {
break;
}
context.consume(&buffer[..n]);
}
format!("{:x}", context.compute())
}
fn rm(path: &str) {
println!("> rm {}", path);
match std::fs::remove_file(path) {
Ok(_) => {}
Err(e) => match e.kind() {
std::io::ErrorKind::NotFound => {
println!("file {} does not exist, continuing", &path);
}
other_error => {
panic!("problem removing file: {:?}", other_error);
}
},
}
}
async fn download_file(version: &str, path: &str) -> Result<Vec<u8>> {
if false {
return abstio::slurp_file(format!(
"/home/dabreegster/s3_abst_data/{}/{}.gz",
version, path
));
}
let url = format!(
"http://abstreet.s3-website.us-east-2.amazonaws.com/{}/{}.gz",
version, path
);
println!("> download {}", url);
let (mut tx, rx) = futures_channel::mpsc::channel(1000);
abstio::print_download_progress(rx);
abstio::download_bytes(url, &mut tx).await
}
fn remove_empty_directories(root: &str) {
loop {
let mut all_paths = Vec::new();
let mut all_dirs = Vec::new();
for entry in WalkDir::new(root).into_iter().filter_map(|e| e.ok()) {
let path = entry.path().display().to_string();
all_paths.push(path.clone());
if entry.file_type().is_dir() {
all_dirs.push(path);
}
}
all_dirs.retain(|dir| !all_paths.iter().any(|p| p != dir && p.starts_with(dir)));
if all_dirs.is_empty() {
break;
} else {
for x in all_dirs {
println!("> Removing empty directory {}", x);
std::fs::remove_dir(&x).unwrap();
}
}
}
}
fn compress(path: &str, remote_path: &str) {
assert!(!path.ends_with(".gz"));
assert!(remote_path.ends_with(".gz"));
std::fs::create_dir_all(std::path::Path::new(remote_path).parent().unwrap()).unwrap();
println!("> compressing {}", path);
let mut input = BufReader::new(File::open(path).unwrap());
let out = File::create(remote_path).unwrap();
let mut encoder = flate2::write::GzEncoder::new(out, flate2::Compression::best());
std::io::copy(&mut input, &mut encoder).unwrap();
encoder.finish().unwrap();
}