lewis.moe / bspds-sandbox
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bspds-sandbox / src / sync / import.rs
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1use bytes::Bytes; 2use cid::Cid; 3use ipld_core::ipld::Ipld; 4use iroh_car::CarReader; 5use serde_json::Value as JsonValue; 6use sqlx::PgPool; 7use std::collections::HashMap; 8use std::io::Cursor; 9use thiserror::Error; 10use tracing::debug; 11use uuid::Uuid; 12 13#[derive(Error, Debug)] 14pub enum ImportError { 15 #[error("CAR parsing error: {0}")] 16 CarParse(String), 17 #[error("Expected exactly one root in CAR file")] 18 InvalidRootCount, 19 #[error("Block not found: {0}")] 20 BlockNotFound(String), 21 #[error("Invalid CBOR: {0}")] 22 InvalidCbor(String), 23 #[error("Database error: {0}")] 24 Database(#[from] sqlx::Error), 25 #[error("Block store error: {0}")] 26 BlockStore(String), 27 #[error("Import size limit exceeded")] 28 SizeLimitExceeded, 29 #[error("Repo not found")] 30 RepoNotFound, 31 #[error("Concurrent modification detected")] 32 ConcurrentModification, 33 #[error("Invalid commit structure: {0}")] 34 InvalidCommit(String), 35 #[error("Verification failed: {0}")] 36 VerificationFailed(#[from] super::verify::VerifyError), 37 #[error("DID mismatch: CAR is for {car_did}, but authenticated as {auth_did}")] 38 DidMismatch { car_did: String, auth_did: String }, 39} 40 41#[derive(Debug, Clone)] 42pub struct BlobRef { 43 pub cid: String, 44 pub mime_type: Option<String>, 45} 46 47pub async fn parse_car(data: &[u8]) -> Result<(Cid, HashMap<Cid, Bytes>), ImportError> { 48 let cursor = Cursor::new(data); 49 let mut reader = CarReader::new(cursor) 50 .await 51 .map_err(|e| ImportError::CarParse(e.to_string()))?; 52 let header = reader.header(); 53 let roots = header.roots(); 54 if roots.len() != 1 { 55 return Err(ImportError::InvalidRootCount); 56 } 57 let root = roots[0]; 58 let mut blocks = HashMap::new(); 59 while let Ok(Some((cid, block))) = reader.next_block().await { 60 blocks.insert(cid, Bytes::from(block)); 61 } 62 if !blocks.contains_key(&root) { 63 return Err(ImportError::BlockNotFound(root.to_string())); 64 } 65 Ok((root, blocks)) 66} 67 68pub fn find_blob_refs_ipld(value: &Ipld, depth: usize) -> Vec<BlobRef> { 69 if depth > 32 { 70 return vec![]; 71 } 72 match value { 73 Ipld::List(arr) => arr 74 .iter() 75 .flat_map(|v| find_blob_refs_ipld(v, depth + 1)) 76 .collect(), 77 Ipld::Map(obj) => { 78 if let Some(Ipld::String(type_str)) = obj.get("$type") 79 && type_str == "blob" 80 && let Some(Ipld::Link(link_cid)) = obj.get("ref") 81 { 82 let mime = obj.get("mimeType").and_then(|v| { 83 if let Ipld::String(s) = v { 84 Some(s.clone()) 85 } else { 86 None 87 } 88 }); 89 return vec![BlobRef { 90 cid: link_cid.to_string(), 91 mime_type: mime, 92 }]; 93 } 94 obj.values() 95 .flat_map(|v| find_blob_refs_ipld(v, depth + 1)) 96 .collect() 97 } 98 _ => vec![], 99 } 100} 101 102pub fn find_blob_refs(value: &JsonValue, depth: usize) -> Vec<BlobRef> { 103 if depth > 32 { 104 return vec![]; 105 } 106 match value { 107 JsonValue::Array(arr) => arr 108 .iter() 109 .flat_map(|v| find_blob_refs(v, depth + 1)) 110 .collect(), 111 JsonValue::Object(obj) => { 112 if let Some(JsonValue::String(type_str)) = obj.get("$type") 113 && type_str == "blob" 114 && let Some(JsonValue::Object(ref_obj)) = obj.get("ref") 115 && let Some(JsonValue::String(link)) = ref_obj.get("$link") 116 { 117 let mime = obj 118 .get("mimeType") 119 .and_then(|v| v.as_str()) 120 .map(String::from); 121 return vec![BlobRef { 122 cid: link.clone(), 123 mime_type: mime, 124 }]; 125 } 126 obj.values() 127 .flat_map(|v| find_blob_refs(v, depth + 1)) 128 .collect() 129 } 130 _ => vec![], 131 } 132} 133 134pub fn extract_links(value: &Ipld, links: &mut Vec<Cid>) { 135 match value { 136 Ipld::Link(cid) => { 137 links.push(*cid); 138 } 139 Ipld::Map(map) => { 140 for v in map.values() { 141 extract_links(v, links); 142 } 143 } 144 Ipld::List(arr) => { 145 for v in arr { 146 extract_links(v, links); 147 } 148 } 149 _ => {} 150 } 151} 152 153#[derive(Debug)] 154pub struct ImportedRecord { 155 pub collection: String, 156 pub rkey: String, 157 pub cid: Cid, 158 pub blob_refs: Vec<BlobRef>, 159} 160 161pub fn walk_mst( 162 blocks: &HashMap<Cid, Bytes>, 163 root_cid: &Cid, 164) -> Result<Vec<ImportedRecord>, ImportError> { 165 let mut records = Vec::new(); 166 walk_mst_node(blocks, root_cid, &[], &mut records)?; 167 Ok(records) 168} 169 170fn walk_mst_node( 171 blocks: &HashMap<Cid, Bytes>, 172 cid: &Cid, 173 prev_key: &[u8], 174 records: &mut Vec<ImportedRecord>, 175) -> Result<(), ImportError> { 176 let block = blocks 177 .get(cid) 178 .ok_or_else(|| ImportError::BlockNotFound(cid.to_string()))?; 179 let value: Ipld = serde_ipld_dagcbor::from_slice(block) 180 .map_err(|e| ImportError::InvalidCbor(e.to_string()))?; 181 182 if let Ipld::Map(ref obj) = value { 183 if let Some(Ipld::Link(left_cid)) = obj.get("l") { 184 walk_mst_node(blocks, left_cid, prev_key, records)?; 185 } 186 187 let mut current_key = prev_key.to_vec(); 188 189 if let Some(Ipld::List(entries)) = obj.get("e") { 190 for entry in entries { 191 if let Ipld::Map(entry_obj) = entry { 192 let prefix_len = entry_obj.get("p").and_then(|p| { 193 if let Ipld::Integer(n) = p { 194 Some(*n as usize) 195 } else { 196 None 197 } 198 }).unwrap_or(0); 199 200 let key_suffix = entry_obj.get("k").and_then(|k| { 201 if let Ipld::Bytes(b) = k { 202 Some(b.clone()) 203 } else { 204 None 205 } 206 }); 207 208 if let Some(suffix) = key_suffix { 209 current_key.truncate(prefix_len); 210 current_key.extend_from_slice(&suffix); 211 } 212 213 if let Some(Ipld::Link(tree_cid)) = entry_obj.get("t") { 214 walk_mst_node(blocks, tree_cid, &current_key, records)?; 215 } 216 217 let record_cid = entry_obj.get("v").and_then(|v| { 218 if let Ipld::Link(cid) = v { 219 Some(*cid) 220 } else { 221 None 222 } 223 }); 224 225 if let Some(record_cid) = record_cid { 226 if let Ok(full_key) = String::from_utf8(current_key.clone()) { 227 if let Some(record_block) = blocks.get(&record_cid) 228 && let Ok(record_value) = 229 serde_ipld_dagcbor::from_slice::<Ipld>(record_block) 230 { 231 let blob_refs = find_blob_refs_ipld(&record_value, 0); 232 let parts: Vec<&str> = full_key.split('/').collect(); 233 if parts.len() >= 2 { 234 let collection = parts[..parts.len() - 1].join("/"); 235 let rkey = parts[parts.len() - 1].to_string(); 236 records.push(ImportedRecord { 237 collection, 238 rkey, 239 cid: record_cid, 240 blob_refs, 241 }); 242 } 243 } 244 } 245 } 246 } 247 } 248 } 249 } 250 Ok(()) 251} 252 253pub struct CommitInfo { 254 pub rev: Option<String>, 255 pub prev: Option<String>, 256} 257 258pub struct ImportResult { 259 pub records: Vec<ImportedRecord>, 260 pub data_cid: Cid, 261} 262 263fn extract_commit_info(commit: &Ipld) -> Result<(Cid, CommitInfo), ImportError> { 264 let obj = match commit { 265 Ipld::Map(m) => m, 266 _ => { 267 return Err(ImportError::InvalidCommit( 268 "Commit must be a map".to_string(), 269 )); 270 } 271 }; 272 let data_cid = obj 273 .get("data") 274 .and_then(|d| { 275 if let Ipld::Link(cid) = d { 276 Some(*cid) 277 } else { 278 None 279 } 280 }) 281 .ok_or_else(|| ImportError::InvalidCommit("Missing data field".to_string()))?; 282 let rev = obj.get("rev").and_then(|r| { 283 if let Ipld::String(s) = r { 284 Some(s.clone()) 285 } else { 286 None 287 } 288 }); 289 let prev = obj.get("prev").and_then(|p| { 290 if let Ipld::Link(cid) = p { 291 Some(cid.to_string()) 292 } else if let Ipld::Null = p { 293 None 294 } else { 295 None 296 } 297 }); 298 Ok((data_cid, CommitInfo { rev, prev })) 299} 300 301pub async fn apply_import( 302 db: &PgPool, 303 user_id: Uuid, 304 root: Cid, 305 blocks: HashMap<Cid, Bytes>, 306 max_blocks: usize, 307) -> Result<ImportResult, ImportError> { 308 if blocks.len() > max_blocks { 309 return Err(ImportError::SizeLimitExceeded); 310 } 311 let root_block = blocks 312 .get(&root) 313 .ok_or_else(|| ImportError::BlockNotFound(root.to_string()))?; 314 let commit: Ipld = serde_ipld_dagcbor::from_slice(root_block) 315 .map_err(|e| ImportError::InvalidCbor(e.to_string()))?; 316 let (data_cid, _commit_info) = extract_commit_info(&commit)?; 317 let records = walk_mst(&blocks, &data_cid)?; 318 debug!( 319 "Importing {} blocks and {} records for user {}", 320 blocks.len(), 321 records.len(), 322 user_id 323 ); 324 let mut tx = db.begin().await?; 325 let repo = sqlx::query!( 326 "SELECT repo_root_cid FROM repos WHERE user_id = $1 FOR UPDATE NOWAIT", 327 user_id 328 ) 329 .fetch_optional(&mut *tx) 330 .await 331 .map_err(|e| { 332 if let sqlx::Error::Database(ref db_err) = e 333 && db_err.code().as_deref() == Some("55P03") 334 { 335 return ImportError::ConcurrentModification; 336 } 337 ImportError::Database(e) 338 })?; 339 if repo.is_none() { 340 return Err(ImportError::RepoNotFound); 341 } 342 let block_chunks: Vec<Vec<(&Cid, &Bytes)>> = blocks 343 .iter() 344 .collect::<Vec<_>>() 345 .chunks(100) 346 .map(|c| c.to_vec()) 347 .collect(); 348 for chunk in block_chunks { 349 for (cid, data) in chunk { 350 let cid_bytes = cid.to_bytes(); 351 sqlx::query!( 352 "INSERT INTO blocks (cid, data) VALUES ($1, $2) ON CONFLICT (cid) DO NOTHING", 353 &cid_bytes, 354 data.as_ref() 355 ) 356 .execute(&mut *tx) 357 .await?; 358 } 359 } 360 sqlx::query!("DELETE FROM records WHERE repo_id = $1", user_id) 361 .execute(&mut *tx) 362 .await?; 363 for record in &records { 364 let record_cid_str = record.cid.to_string(); 365 sqlx::query!( 366 r#" 367 INSERT INTO records (repo_id, collection, rkey, record_cid) 368 VALUES ($1, $2, $3, $4) 369 ON CONFLICT (repo_id, collection, rkey) DO UPDATE SET record_cid = $4 370 "#, 371 user_id, 372 record.collection, 373 record.rkey, 374 record_cid_str 375 ) 376 .execute(&mut *tx) 377 .await?; 378 } 379 tx.commit().await?; 380 debug!( 381 "Successfully imported {} blocks and {} records", 382 blocks.len(), 383 records.len() 384 ); 385 Ok(ImportResult { records, data_cid }) 386} 387 388#[cfg(test)] 389mod tests { 390 use super::*; 391 392 #[test] 393 fn test_find_blob_refs() { 394 let record = serde_json::json!({ 395 "$type": "app.bsky.feed.post", 396 "text": "Hello world", 397 "embed": { 398 "$type": "app.bsky.embed.images", 399 "images": [ 400 { 401 "alt": "Test image", 402 "image": { 403 "$type": "blob", 404 "ref": { 405 "$link": "bafkreihdwdcefgh4dqkjv67uzcmw7ojee6xedzdetojuzjevtenxquvyku" 406 }, 407 "mimeType": "image/jpeg", 408 "size": 12345 409 } 410 } 411 ] 412 } 413 }); 414 let blob_refs = find_blob_refs(&record, 0); 415 assert_eq!(blob_refs.len(), 1); 416 assert_eq!( 417 blob_refs[0].cid, 418 "bafkreihdwdcefgh4dqkjv67uzcmw7ojee6xedzdetojuzjevtenxquvyku" 419 ); 420 assert_eq!(blob_refs[0].mime_type, Some("image/jpeg".to_string())); 421 } 422 423 #[test] 424 fn test_find_blob_refs_no_blobs() { 425 let record = serde_json::json!({ 426 "$type": "app.bsky.feed.post", 427 "text": "Hello world" 428 }); 429 let blob_refs = find_blob_refs(&record, 0); 430 assert!(blob_refs.is_empty()); 431 } 432 433 #[test] 434 fn test_find_blob_refs_depth_limit() { 435 fn deeply_nested(depth: usize) -> JsonValue { 436 if depth == 0 { 437 serde_json::json!({ 438 "$type": "blob", 439 "ref": { "$link": "bafkreitest" }, 440 "mimeType": "image/png" 441 }) 442 } else { 443 serde_json::json!({ "nested": deeply_nested(depth - 1) }) 444 } 445 } 446 let deep = deeply_nested(40); 447 let blob_refs = find_blob_refs(&deep, 0); 448 assert!(blob_refs.is_empty()); 449 } 450}