1use std::ffi::c_void;
19use std::sync::Arc;
20
21use async_ffi::{FfiFuture, FutureExt};
22use async_trait::async_trait;
23use datafusion_catalog::{SchemaProvider, TableProvider};
24use datafusion_common::error::{DataFusionError, Result};
25use datafusion_proto::logical_plan::{
26 DefaultLogicalExtensionCodec, LogicalExtensionCodec,
27};
28use stabby::string::String as SString;
29use stabby::vec::Vec as SVec;
30use tokio::runtime::Handle;
31
32use crate::execution::FFI_TaskContextProvider;
33use crate::proto::logical_extension_codec::FFI_LogicalExtensionCodec;
34use crate::table_provider::{FFI_TableProvider, ForeignTableProvider};
35use crate::util::{FFI_Option, FFI_Result};
36use crate::{df_result, sresult_return};
37
38#[repr(C)]
40#[derive(Debug)]
41pub struct FFI_SchemaProvider {
42 pub owner_name: FFI_Option<SString>,
43
44 pub table_names: unsafe extern "C" fn(provider: &Self) -> SVec<SString>,
45
46 pub table: unsafe extern "C" fn(
47 provider: &Self,
48 name: SString,
49 ) -> FfiFuture<
50 FFI_Result<FFI_Option<FFI_TableProvider>>,
51 >,
52
53 pub register_table: unsafe extern "C" fn(
54 provider: &Self,
55 name: SString,
56 table: FFI_TableProvider,
57 )
58 -> FFI_Result<FFI_Option<FFI_TableProvider>>,
59
60 pub deregister_table:
61 unsafe extern "C" fn(
62 provider: &Self,
63 name: SString,
64 ) -> FFI_Result<FFI_Option<FFI_TableProvider>>,
65
66 pub table_exist: unsafe extern "C" fn(provider: &Self, name: SString) -> bool,
67
68 pub logical_codec: FFI_LogicalExtensionCodec,
69
70 pub clone: unsafe extern "C" fn(plan: &Self) -> Self,
73
74 pub release: unsafe extern "C" fn(arg: &mut Self),
76
77 pub version: unsafe extern "C" fn() -> u64,
79
80 pub private_data: *mut c_void,
83
84 pub library_marker_id: extern "C" fn() -> usize,
88}
89
90unsafe impl Send for FFI_SchemaProvider {}
91unsafe impl Sync for FFI_SchemaProvider {}
92
93struct ProviderPrivateData {
94 provider: Arc<dyn SchemaProvider>,
95 runtime: Option<Handle>,
96}
97
98impl FFI_SchemaProvider {
99 unsafe fn inner(&self) -> &Arc<dyn SchemaProvider> {
100 unsafe {
101 let private_data = self.private_data as *const ProviderPrivateData;
102 &(*private_data).provider
103 }
104 }
105
106 unsafe fn runtime(&self) -> Option<Handle> {
107 unsafe {
108 let private_data = self.private_data as *const ProviderPrivateData;
109 (*private_data).runtime.clone()
110 }
111 }
112}
113
114unsafe extern "C" fn table_names_fn_wrapper(
115 provider: &FFI_SchemaProvider,
116) -> SVec<SString> {
117 unsafe {
118 let provider = provider.inner();
119
120 let table_names = provider.table_names();
121 table_names.into_iter().map(|s| s.into()).collect()
122 }
123}
124
125unsafe extern "C" fn table_fn_wrapper(
126 provider: &FFI_SchemaProvider,
127 name: SString,
128) -> FfiFuture<FFI_Result<FFI_Option<FFI_TableProvider>>> {
129 unsafe {
130 let runtime = provider.runtime();
131 let logical_codec = provider.logical_codec.clone();
132 let provider = Arc::clone(provider.inner());
133
134 async move {
135 let table = sresult_return!(provider.table(name.as_str()).await)
136 .map(|t| {
137 FFI_TableProvider::new_with_ffi_codec(t, true, runtime, logical_codec)
138 })
139 .into();
140
141 FFI_Result::Ok(table)
142 }
143 .into_ffi()
144 }
145}
146
147unsafe extern "C" fn register_table_fn_wrapper(
148 provider: &FFI_SchemaProvider,
149 name: SString,
150 table: FFI_TableProvider,
151) -> FFI_Result<FFI_Option<FFI_TableProvider>> {
152 unsafe {
153 let runtime = provider.runtime();
154 let logical_codec = provider.logical_codec.clone();
155 let provider = provider.inner();
156
157 let table = Arc::new(ForeignTableProvider(table));
158
159 let returned_table = sresult_return!(provider.register_table(name.into(), table))
160 .map(|t| {
161 FFI_TableProvider::new_with_ffi_codec(t, true, runtime, logical_codec)
162 });
163
164 FFI_Result::Ok(returned_table.into())
165 }
166}
167
168unsafe extern "C" fn deregister_table_fn_wrapper(
169 provider: &FFI_SchemaProvider,
170 name: SString,
171) -> FFI_Result<FFI_Option<FFI_TableProvider>> {
172 unsafe {
173 let runtime = provider.runtime();
174 let logical_codec = provider.logical_codec.clone();
175 let provider = provider.inner();
176
177 let returned_table = sresult_return!(provider.deregister_table(name.as_str()))
178 .map(|t| {
179 FFI_TableProvider::new_with_ffi_codec(t, true, runtime, logical_codec)
180 });
181
182 FFI_Result::Ok(returned_table.into())
183 }
184}
185
186unsafe extern "C" fn table_exist_fn_wrapper(
187 provider: &FFI_SchemaProvider,
188 name: SString,
189) -> bool {
190 unsafe { provider.inner().table_exist(name.as_str()) }
191}
192
193unsafe extern "C" fn release_fn_wrapper(provider: &mut FFI_SchemaProvider) {
194 unsafe {
195 debug_assert!(!provider.private_data.is_null());
196 let private_data =
197 Box::from_raw(provider.private_data as *mut ProviderPrivateData);
198 drop(private_data);
199 provider.private_data = std::ptr::null_mut();
200 }
201}
202
203unsafe extern "C" fn clone_fn_wrapper(
204 provider: &FFI_SchemaProvider,
205) -> FFI_SchemaProvider {
206 unsafe {
207 let old_private_data = provider.private_data as *const ProviderPrivateData;
208 let runtime = (*old_private_data).runtime.clone();
209
210 let private_data = Box::into_raw(Box::new(ProviderPrivateData {
211 provider: Arc::clone(&(*old_private_data).provider),
212 runtime,
213 })) as *mut c_void;
214
215 FFI_SchemaProvider {
216 owner_name: provider.owner_name.clone(),
217 table_names: table_names_fn_wrapper,
218 table: table_fn_wrapper,
219 register_table: register_table_fn_wrapper,
220 deregister_table: deregister_table_fn_wrapper,
221 table_exist: table_exist_fn_wrapper,
222 logical_codec: provider.logical_codec.clone(),
223 clone: clone_fn_wrapper,
224 release: release_fn_wrapper,
225 version: super::version,
226 private_data,
227 library_marker_id: crate::get_library_marker_id,
228 }
229 }
230}
231
232impl Drop for FFI_SchemaProvider {
233 fn drop(&mut self) {
234 unsafe { (self.release)(self) }
235 }
236}
237
238impl FFI_SchemaProvider {
239 pub fn new(
241 provider: Arc<dyn SchemaProvider>,
242 runtime: Option<Handle>,
243 task_ctx_provider: impl Into<FFI_TaskContextProvider>,
244 logical_codec: Option<Arc<dyn LogicalExtensionCodec>>,
245 ) -> Self {
246 let task_ctx_provider = task_ctx_provider.into();
247 let logical_codec =
248 logical_codec.unwrap_or_else(|| Arc::new(DefaultLogicalExtensionCodec {}));
249 let logical_codec = FFI_LogicalExtensionCodec::new(
250 logical_codec,
251 runtime.clone(),
252 task_ctx_provider.clone(),
253 );
254 Self::new_with_ffi_codec(provider, runtime, logical_codec)
255 }
256
257 pub fn new_with_ffi_codec(
258 provider: Arc<dyn SchemaProvider>,
259 runtime: Option<Handle>,
260 logical_codec: FFI_LogicalExtensionCodec,
261 ) -> Self {
262 if let Some(provider) = provider.downcast_ref::<ForeignSchemaProvider>() {
263 return provider.0.clone();
264 }
265
266 let owner_name = provider.owner_name().map(|s| s.into()).into();
267 let private_data = Box::new(ProviderPrivateData { provider, runtime });
268
269 Self {
270 owner_name,
271 table_names: table_names_fn_wrapper,
272 table: table_fn_wrapper,
273 register_table: register_table_fn_wrapper,
274 deregister_table: deregister_table_fn_wrapper,
275 table_exist: table_exist_fn_wrapper,
276 logical_codec,
277 clone: clone_fn_wrapper,
278 release: release_fn_wrapper,
279 version: super::version,
280 private_data: Box::into_raw(private_data) as *mut c_void,
281 library_marker_id: crate::get_library_marker_id,
282 }
283 }
284}
285
286#[derive(Debug)]
291pub struct ForeignSchemaProvider(pub FFI_SchemaProvider);
292
293unsafe impl Send for ForeignSchemaProvider {}
294unsafe impl Sync for ForeignSchemaProvider {}
295
296impl From<&FFI_SchemaProvider> for Arc<dyn SchemaProvider> {
297 fn from(provider: &FFI_SchemaProvider) -> Self {
298 if (provider.library_marker_id)() == crate::get_library_marker_id() {
299 return Arc::clone(unsafe { provider.inner() });
300 }
301
302 Arc::new(ForeignSchemaProvider(provider.clone())) as Arc<dyn SchemaProvider>
303 }
304}
305
306impl Clone for FFI_SchemaProvider {
307 fn clone(&self) -> Self {
308 unsafe { (self.clone)(self) }
309 }
310}
311
312#[async_trait]
313impl SchemaProvider for ForeignSchemaProvider {
314 fn owner_name(&self) -> Option<&str> {
315 let name: Option<&SString> = self.0.owner_name.as_ref();
316 name.map(|s| s.as_str())
317 }
318
319 fn table_names(&self) -> Vec<String> {
320 unsafe {
321 (self.0.table_names)(&self.0)
322 .into_iter()
323 .map(|s| s.into())
324 .collect()
325 }
326 }
327
328 async fn table(
329 &self,
330 name: &str,
331 ) -> Result<Option<Arc<dyn TableProvider>>, DataFusionError> {
332 unsafe {
333 let table: Option<FFI_TableProvider> =
334 df_result!((self.0.table)(&self.0, name.into()).await)?.into();
335
336 let table = table.as_ref().map(<Arc<dyn TableProvider>>::from);
337
338 Ok(table)
339 }
340 }
341
342 fn register_table(
343 &self,
344 name: String,
345 table: Arc<dyn TableProvider>,
346 ) -> Result<Option<Arc<dyn TableProvider>>> {
347 unsafe {
348 let ffi_table = match table.downcast_ref::<ForeignTableProvider>() {
349 Some(t) => t.0.clone(),
350 None => FFI_TableProvider::new_with_ffi_codec(
351 table,
352 true,
353 None,
354 self.0.logical_codec.clone(),
355 ),
356 };
357
358 let returned_provider: Option<FFI_TableProvider> =
359 df_result!((self.0.register_table)(&self.0, name.into(), ffi_table))?
360 .into();
361
362 Ok(returned_provider
363 .map(|t| Arc::new(ForeignTableProvider(t)) as Arc<dyn TableProvider>))
364 }
365 }
366
367 fn deregister_table(&self, name: &str) -> Result<Option<Arc<dyn TableProvider>>> {
368 let returned_provider: Option<FFI_TableProvider> = unsafe {
369 df_result!((self.0.deregister_table)(&self.0, name.into()))?.into()
370 };
371
372 Ok(returned_provider
373 .map(|t| Arc::new(ForeignTableProvider(t)) as Arc<dyn TableProvider>))
374 }
375
376 fn table_exist(&self, name: &str) -> bool {
378 unsafe { (self.0.table_exist)(&self.0, name.into()) }
379 }
380}
381
382#[cfg(test)]
383mod tests {
384 use arrow::datatypes::Schema;
385 use datafusion::catalog::MemorySchemaProvider;
386 use datafusion::datasource::empty::EmptyTable;
387
388 use super::*;
389
390 fn empty_table() -> Arc<dyn TableProvider> {
391 Arc::new(EmptyTable::new(Arc::new(Schema::empty())))
392 }
393
394 #[tokio::test]
395 async fn test_round_trip_ffi_schema_provider() {
396 let schema_provider = Arc::new(MemorySchemaProvider::new());
397 assert!(
398 schema_provider
399 .as_ref()
400 .register_table("prior_table".to_string(), empty_table())
401 .unwrap()
402 .is_none()
403 );
404
405 let (_ctx, task_ctx_provider) = crate::util::tests::test_session_and_ctx();
406
407 let mut ffi_schema_provider =
408 FFI_SchemaProvider::new(schema_provider, None, task_ctx_provider, None);
409 ffi_schema_provider.library_marker_id = crate::mock_foreign_marker_id;
410
411 let foreign_schema_provider: Arc<dyn SchemaProvider> =
412 (&ffi_schema_provider).into();
413
414 let prior_table_names = foreign_schema_provider.table_names();
415 assert_eq!(prior_table_names.len(), 1);
416 assert_eq!(prior_table_names[0], "prior_table");
417
418 let returned_schema = foreign_schema_provider
420 .register_table("prior_table".to_string(), empty_table());
421 assert!(returned_schema.is_err());
422 assert_eq!(foreign_schema_provider.table_names().len(), 1);
423
424 let returned_schema = foreign_schema_provider
426 .register_table("second_table".to_string(), empty_table())
427 .expect("Unable to register table");
428 assert!(returned_schema.is_none());
429 assert_eq!(foreign_schema_provider.table_names().len(), 2);
430
431 let returned_schema = foreign_schema_provider
433 .deregister_table("prior_table")
434 .expect("Unable to deregister table");
435 assert!(returned_schema.is_some());
436 assert_eq!(foreign_schema_provider.table_names().len(), 1);
437
438 let returned_schema = foreign_schema_provider
440 .table("prior_table")
441 .await
442 .expect("Unable to query table");
443 assert!(returned_schema.is_none());
444 assert!(!foreign_schema_provider.table_exist("prior_table"));
445
446 let returned_schema = foreign_schema_provider
448 .table("second_table")
449 .await
450 .expect("Unable to query table");
451 assert!(returned_schema.is_some());
452 assert!(foreign_schema_provider.table_exist("second_table"));
453 }
454
455 #[test]
456 fn test_ffi_schema_provider_local_bypass() {
457 let schema_provider = Arc::new(MemorySchemaProvider::new());
458
459 let (_ctx, task_ctx_provider) = crate::util::tests::test_session_and_ctx();
460 let mut ffi_schema =
461 FFI_SchemaProvider::new(schema_provider, None, task_ctx_provider, None);
462
463 let foreign_schema: Arc<dyn SchemaProvider> = (&ffi_schema).into();
465 assert!(
466 foreign_schema
467 .downcast_ref::<MemorySchemaProvider>()
468 .is_some()
469 );
470
471 ffi_schema.library_marker_id = crate::mock_foreign_marker_id;
473 let foreign_schema: Arc<dyn SchemaProvider> = (&ffi_schema).into();
474 assert!(
475 foreign_schema
476 .downcast_ref::<ForeignSchemaProvider>()
477 .is_some()
478 );
479 }
480}