use std::io;
use std::pin::pin;

use test_case::test_case;
use tokio::io::AsyncReadExt;
use tokio::io::AsyncSeekExt;

use super::B3Digest;
use super::BlobService;
use super::MemoryBlobService;
use super::SledBlobService;
use crate::fixtures;

// TODO: avoid having to define all different services we test against for all functions.
// maybe something like rstest can be used?

fn gen_memory_blob_service() -> impl BlobService {
    MemoryBlobService::default()
}
fn gen_sled_blob_service() -> impl BlobService {
    SledBlobService::new_temporary().unwrap()
}

// TODO: add GRPC blob service here.

/// Using [BlobService::has] on a non-existing blob should return false
#[test_case(gen_memory_blob_service(); "memory")]
#[test_case(gen_sled_blob_service(); "sled")]
fn has_nonexistent_false(blob_service: impl BlobService) {
    tokio::runtime::Runtime::new().unwrap().block_on(async {
        assert!(!blob_service
            .has(&fixtures::BLOB_A_DIGEST)
            .await
            .expect("must not fail"));
    })
}

/// Trying to read a non-existing blob should return a None instead of a reader.
#[test_case(gen_memory_blob_service(); "memory")]
#[test_case(gen_sled_blob_service(); "sled")]
fn not_found_read(blob_service: impl BlobService) {
    tokio::runtime::Runtime::new().unwrap().block_on(async {
        assert!(blob_service
            .open_read(&fixtures::BLOB_A_DIGEST)
            .await
            .expect("must not fail")
            .is_none())
    })
}

/// Put a blob in the store, check has, get it back.
/// We test both with small and big blobs.
#[test_case(gen_memory_blob_service(), &fixtures::BLOB_A, &fixtures::BLOB_A_DIGEST; "memory-small")]
#[test_case(gen_sled_blob_service(), &fixtures::BLOB_A, &fixtures::BLOB_A_DIGEST; "sled-small")]
#[test_case(gen_memory_blob_service(), &fixtures::BLOB_B, &fixtures::BLOB_B_DIGEST; "memory-big")]
#[test_case(gen_sled_blob_service(), &fixtures::BLOB_B, &fixtures::BLOB_B_DIGEST; "sled-big")]
fn put_has_get(blob_service: impl BlobService, blob_contents: &[u8], blob_digest: &B3Digest) {
    tokio::runtime::Runtime::new().unwrap().block_on(async {
        let mut w = blob_service.open_write().await;

        let l = tokio::io::copy(&mut io::Cursor::new(blob_contents), &mut w)
            .await
            .expect("copy must succeed");
        assert_eq!(
            blob_contents.len(),
            l as usize,
            "written bytes must match blob length"
        );

        let digest = w.close().await.expect("close must succeed");

        assert_eq!(*blob_digest, digest, "returned digest must be correct");

        assert!(
            blob_service.has(blob_digest).await.expect("must not fail"),
            "blob service should now have the blob"
        );

        let mut r = blob_service
            .open_read(blob_digest)
            .await
            .expect("open_read must succeed")
            .expect("must be some");

        let mut buf: Vec<u8> = Vec::new();
        let mut pinned_reader = pin!(r);
        let l = tokio::io::copy(&mut pinned_reader, &mut buf)
            .await
            .expect("copy must succeed");
        // let l = io::copy(&mut r, &mut buf).expect("copy must succeed");

        assert_eq!(
            blob_contents.len(),
            l as usize,
            "read bytes must match blob length"
        );

        assert_eq!(blob_contents, buf, "read blob contents must match");
    })
}

/// Put a blob in the store, and seek inside it a bit.
#[test_case(gen_memory_blob_service(); "memory")]
#[test_case(gen_sled_blob_service(); "sled")]
fn put_seek(blob_service: impl BlobService) {
    tokio::runtime::Runtime::new().unwrap().block_on(async {
        let mut w = blob_service.open_write().await;

        tokio::io::copy(&mut io::Cursor::new(&fixtures::BLOB_B.to_vec()), &mut w)
            .await
            .expect("copy must succeed");
        w.close().await.expect("close must succeed");

        // open a blob for reading
        let mut r = blob_service
            .open_read(&fixtures::BLOB_B_DIGEST)
            .await
            .expect("open_read must succeed")
            .expect("must be some");

        let mut pos: u64 = 0;

        // read the first 10 bytes, they must match the data in the fixture.
        {
            let mut buf = [0; 10];
            r.read_exact(&mut buf).await.expect("must succeed");

            assert_eq!(
                &fixtures::BLOB_B[pos as usize..pos as usize + buf.len()],
                buf,
                "expected first 10 bytes to match"
            );

            pos += buf.len() as u64;
        }
        // seek by 0 bytes, using SeekFrom::Start.
        let p = r
            .seek(io::SeekFrom::Start(pos))
            .await
            .expect("must not fail");
        assert_eq!(pos, p);

        // read the next 10 bytes, they must match the data in the fixture.
        {
            let mut buf = [0; 10];
            r.read_exact(&mut buf).await.expect("must succeed");

            assert_eq!(
                &fixtures::BLOB_B[pos as usize..pos as usize + buf.len()],
                buf,
                "expected data to match"
            );

            pos += buf.len() as u64;
        }

        // seek by 5 bytes, using SeekFrom::Start.
        let p = r
            .seek(io::SeekFrom::Start(pos + 5))
            .await
            .expect("must not fail");
        pos += 5;
        assert_eq!(pos, p);

        // read the next 10 bytes, they must match the data in the fixture.
        {
            let mut buf = [0; 10];
            r.read_exact(&mut buf).await.expect("must succeed");

            assert_eq!(
                &fixtures::BLOB_B[pos as usize..pos as usize + buf.len()],
                buf,
                "expected data to match"
            );

            pos += buf.len() as u64;
        }

        // seek by 12345 bytes, using SeekFrom::
        let p = r
            .seek(io::SeekFrom::Current(12345))
            .await
            .expect("must not fail");
        pos += 12345;
        assert_eq!(pos, p);

        // read the next 10 bytes, they must match the data in the fixture.
        {
            let mut buf = [0; 10];
            r.read_exact(&mut buf).await.expect("must succeed");

            assert_eq!(
                &fixtures::BLOB_B[pos as usize..pos as usize + buf.len()],
                buf,
                "expected data to match"
            );

            #[allow(unused_assignments)]
            {
                pos += buf.len() as u64;
            }
        }

        // seeking to the end is okay…
        let p = r
            .seek(io::SeekFrom::Start(fixtures::BLOB_B.len() as u64))
            .await
            .expect("must not fail");
        pos = fixtures::BLOB_B.len() as u64;
        assert_eq!(pos, p);

        {
            // but it returns no more data.
            let mut buf: Vec<u8> = Vec::new();
            r.read_to_end(&mut buf).await.expect("must not fail");
            assert!(buf.is_empty(), "expected no more data to be read");
        }

        // seeking past the end…
        // should either be ok, but then return 0 bytes.
        // this matches the behaviour or a Cursor<Vec<u8>>.
        if let Ok(_pos) = r
            .seek(io::SeekFrom::Start(fixtures::BLOB_B.len() as u64 + 1))
            .await
        {
            let mut buf: Vec<u8> = Vec::new();
            r.read_to_end(&mut buf).await.expect("must not fail");
            assert!(buf.is_empty(), "expected no more data to be read");
        }
        // or not be okay.

        // TODO: this is only broken for the gRPC version
        // We expect seeking backwards or relative to the end to fail.
        // r.seek(io::SeekFrom::Current(-1))
        //     .expect_err("SeekFrom::Current(-1) expected to fail");

        // r.seek(io::SeekFrom::Start(pos - 1))
        //     .expect_err("SeekFrom::Start(pos-1) expected to fail");

        // r.seek(io::SeekFrom::End(0))
        //     .expect_err("SeekFrom::End(_) expected to fail");
    })
}