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satellite-provider/SatelliteProvider.IntegrationTests/UavUploadTests.cs
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Oleksandr Bezdieniezhnykh b763da3f24
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[AZ-810] Clamp UAV test-fixture coordinates to OSM-valid range 
The AZ-810 metadata validator rejects lat outside [-90, 90] and lon
outside [-180, 180]. Two NextTestCoordinate() helpers seeded their
counter from `(Ticks/TicksPerSecond) % 1_000_000` and returned
`60 + n*0.0005`, producing lat well above 90° for almost any seed
(e.g. n=200000 -> lat=160). Pre-AZ-810 there was no validator and no
DB constraint, so the out-of-range values were silently accepted; the
new validator (correctly) rejected them at HTTP 400.

Clamp both helpers to non-overlapping OSM-valid ranges:
  - UavUploadTests.cs:           lat in [50, 70),  lon in [10, 40)
  - UavUploadValidationTests.cs: lat in [-70, -50), lon in [-40, -10)

Non-overlap (not the prior +5_000_000 counter offset) is what now
guarantees AZ-488 and AZ-810 suites don't collide on the per-source
UNIQUE index when both run against the same DB.

No production code change; AZ-810 validator behaviour is unchanged.

Also:
- Correct AC-9 in batch_04_cycle8_report.md: the original claim
  ("verified by tracing source") was a false-PASS; the autodev
  Step 11 test run surfaced the gap. Now confirmed by full-suite
  green (scripts/run-tests.sh --full).
- Add ring-buffer lesson on AC-verification standards for input-
  validation changes: tracing fixture variables to their generators
  is insufficient; only a green integration-test run is sound
  evidence for a "no-regression" AC.

Co-authored-by: Cursor <cursoragent@cursor.com>
2026-05-23 14:20:45 +03:00

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using System.Net;
using System.Net.Http.Headers;
using System.Net.Http.Json;
using System.Security.Claims;
using System.Text.Json;
using System.Globalization;
using Npgsql;
using SatelliteProvider.Common.Utils;
using SixLabors.ImageSharp;
using SixLabors.ImageSharp.Formats.Jpeg;
using SixLabors.ImageSharp.PixelFormats;
namespace SatelliteProvider.IntegrationTests;
public static class UavUploadTests
{
private const string UploadPath = "/api/satellite/upload";
private const string GpsPermission = "GPS";
private const string PermissionsClaimType = "permissions";
public static async Task RunAll(string apiUrl, string secret)
{
RouteTestHelpers.PrintTestHeader("Test: UAV tile upload (AZ-488)");
var connectionString = Environment.GetEnvironmentVariable("DB_CONNECTION_STRING")
?? "Host=postgres;Port=5432;Database=satelliteprovider;Username=postgres;Password=postgres";
await HappyPathSingleItem_PersistsRow(apiUrl, secret, connectionString);
await MixedBatch_ReturnsPerItemResults(apiUrl, secret, connectionString);
await MultiSourceCoexistence_AZ484_Cycle2(apiUrl, secret, connectionString);
await SameSourceUpsert_AZ484_Cycle2(apiUrl, secret, connectionString);
await MultiFlightUavRowsCoexist_AZ503_AC3(apiUrl, secret, connectionString);
await FloatRoundingDoesNotBreakIdempotence_AZ503_AC4(apiUrl, secret, connectionString);
await NoToken_Returns401(apiUrl);
await ValidTokenWithoutGpsPermission_Returns403(apiUrl, secret);
await OversizedBatch_Returns400(apiUrl, secret);
Console.WriteLine("✓ UAV upload tests: PASSED");
}
private static async Task HappyPathSingleItem_PersistsRow(string apiUrl, string secret, string connectionString)
{
Console.WriteLine();
Console.WriteLine("AZ-488 AC-1: Happy path — 1-item batch persists with source='uav'");
// Arrange
var coord = NextTestCoordinate();
var metadata = new
{
items = new[]
{
new { latitude = coord.Latitude, longitude = coord.Longitude, tileZoom = 18, tileSizeMeters = 200.0, capturedAt = DateTime.UtcNow.ToString("o") }
}
};
using var client = CreateClient(apiUrl);
AttachToken(client, JwtTestHelpers.MintAuthenticated(secret, extraClaims: GpsClaim()));
// Act
var response = await PostBatch(client, metadata, new[] { CreateValidJpeg() });
// Assert
await EnsureStatus(response, HttpStatusCode.OK, "AC-1 happy path");
var body = await response.Content.ReadFromJsonAsync<UavResponseEnvelope>();
if (body is null || body.Items.Count != 1 || body.Items[0].Status != "accepted")
{
throw new Exception($"AC-1: expected single accepted item, got {await response.Content.ReadAsStringAsync()}");
}
var rowCount = await CountUavRowsAsync(connectionString, coord.Latitude, coord.Longitude);
if (rowCount != 1)
{
throw new Exception($"AC-1: expected one uav row, got {rowCount}");
}
Console.WriteLine(" ✓ HTTP 200, accepted, row inserted with source='uav'");
}
private static async Task MixedBatch_ReturnsPerItemResults(string apiUrl, string secret, string connectionString)
{
Console.WriteLine();
Console.WriteLine("AZ-488 AC-2: 3-item batch with 1 valid + 2 invalid returns per-item results");
// Arrange
var coords = new[] { NextTestCoordinate(), NextTestCoordinate(), NextTestCoordinate() };
var metadata = new
{
items = coords.Select(c => new { latitude = c.Latitude, longitude = c.Longitude, tileZoom = 18, tileSizeMeters = 200.0, capturedAt = DateTime.UtcNow.ToString("o") }).ToArray()
};
using var client = CreateClient(apiUrl);
AttachToken(client, JwtTestHelpers.MintAuthenticated(secret, extraClaims: GpsClaim()));
var good = CreateValidJpeg();
var wrongDimensions = CreateValidJpeg(width: 512, height: 512);
var bogus = new byte[6000]; bogus[0] = 0x89; bogus[1] = 0x50; bogus[2] = 0x4E; bogus[3] = 0x47;
// Act
var response = await PostBatch(client, metadata, new[] { good, wrongDimensions, bogus });
// Assert
await EnsureStatus(response, HttpStatusCode.OK, "AC-2 mixed batch");
var body = await response.Content.ReadFromJsonAsync<UavResponseEnvelope>();
if (body is null || body.Items.Count != 3)
{
throw new Exception($"AC-2: expected 3 result items, got {await response.Content.ReadAsStringAsync()}");
}
if (body.Items[0].Status != "accepted")
{
throw new Exception($"AC-2: item 0 expected accepted, got '{body.Items[0].Status}'");
}
if (body.Items[1].Status != "rejected" || body.Items[1].RejectReason != "WRONG_DIMENSIONS")
{
throw new Exception($"AC-2: item 1 expected rejected/WRONG_DIMENSIONS, got '{body.Items[1].Status}'/'{body.Items[1].RejectReason}'");
}
if (body.Items[2].Status != "rejected" || body.Items[2].RejectReason != "INVALID_FORMAT")
{
throw new Exception($"AC-2: item 2 expected rejected/INVALID_FORMAT, got '{body.Items[2].Status}'/'{body.Items[2].RejectReason}'");
}
var rowCount = await CountUavRowsAsync(connectionString, coords[0].Latitude, coords[0].Longitude);
if (rowCount != 1)
{
throw new Exception($"AC-2: expected exactly 1 row from accepted item, got {rowCount}");
}
Console.WriteLine(" ✓ Per-item results: [accepted, rejected:WRONG_DIMENSIONS, rejected:INVALID_FORMAT]");
}
private static async Task MultiSourceCoexistence_AZ484_Cycle2(string apiUrl, string secret, string connectionString)
{
Console.WriteLine();
Console.WriteLine("AZ-488 AC-3: UAV upload coexists with a pre-seeded google_maps row");
// Arrange — pre-seed a google_maps row at T1 directly via SQL.
// AZ-503: location_hash is NOT NULL after migration 014; compute it
// inline using the same Uuidv5 algorithm production code uses (see
// SatelliteProvider.Services.TileDownloader.TileService.BuildTileEntity).
var coord = NextTestCoordinate();
const int zoom = 18;
const double sizeMeters = 200.0;
var t1 = DateTime.UtcNow.AddHours(-2);
var googleRowId = Guid.NewGuid();
var seedLocationHash = Uuidv5.Create(
Uuidv5.TileNamespace,
string.Create(CultureInfo.InvariantCulture, $"{zoom}/0/0"));
await ExecuteAsync(connectionString, """
INSERT INTO tiles (id, tile_zoom, tile_x, tile_y, latitude, longitude, tile_size_meters,
tile_size_pixels, image_type, file_path, source, captured_at,
created_at, updated_at, location_hash)
VALUES (@id, @zoom, 0, 0, @lat, @lon, @size, 256, 'jpg', 'tiles/seed.jpg', 'google_maps', @t1, @t1, @t1, @loc);
""",
("id", googleRowId), ("zoom", zoom), ("lat", coord.Latitude), ("lon", coord.Longitude),
("size", sizeMeters), ("t1", t1), ("loc", seedLocationHash));
var metadata = new
{
items = new[]
{
new { latitude = coord.Latitude, longitude = coord.Longitude, tileZoom = zoom, tileSizeMeters = sizeMeters, capturedAt = DateTime.UtcNow.ToString("o") }
}
};
using var client = CreateClient(apiUrl);
AttachToken(client, JwtTestHelpers.MintAuthenticated(secret, extraClaims: GpsClaim()));
// Act
var response = await PostBatch(client, metadata, new[] { CreateValidJpeg() });
// Assert
await EnsureStatus(response, HttpStatusCode.OK, "AC-3 coexistence");
var bothSources = await QuerySourcesAsync(connectionString, coord.Latitude, coord.Longitude, zoom, sizeMeters);
if (!bothSources.Contains("google_maps") || !bothSources.Contains("uav"))
{
throw new Exception($"AC-3: expected both google_maps and uav rows, got [{string.Join(", ", bothSources)}]");
}
Console.WriteLine(" ✓ Both google_maps and uav rows coexist for the same cell");
}
private static async Task SameSourceUpsert_AZ484_Cycle2(string apiUrl, string secret, string connectionString)
{
Console.WriteLine();
Console.WriteLine("AZ-488 AC-4: Same-source UPSERT — second UAV upload refreshes the existing row");
// Arrange
var coord = NextTestCoordinate();
using var client = CreateClient(apiUrl);
AttachToken(client, JwtTestHelpers.MintAuthenticated(secret, extraClaims: GpsClaim()));
var firstMetadata = new
{
items = new[]
{
new { latitude = coord.Latitude, longitude = coord.Longitude, tileZoom = 18, tileSizeMeters = 200.0, capturedAt = DateTime.UtcNow.AddMinutes(-30).ToString("o") }
}
};
// Act 1 — first UAV upload
var first = await PostBatch(client, firstMetadata, new[] { CreateValidJpeg(seed: 1) });
await EnsureStatus(first, HttpStatusCode.OK, "AC-4 first upload");
var secondMetadata = new
{
items = new[]
{
new { latitude = coord.Latitude, longitude = coord.Longitude, tileZoom = 18, tileSizeMeters = 200.0, capturedAt = DateTime.UtcNow.ToString("o") }
}
};
// Act 2 — second UAV upload for the same cell with newer captured_at
var second = await PostBatch(client, secondMetadata, new[] { CreateValidJpeg(seed: 2) });
// Assert
await EnsureStatus(second, HttpStatusCode.OK, "AC-4 second upload");
var uavRows = await CountUavRowsAsync(connectionString, coord.Latitude, coord.Longitude);
if (uavRows != 1)
{
throw new Exception($"AC-4: expected exactly 1 uav row after UPSERT, got {uavRows}");
}
Console.WriteLine(" ✓ Same-source UPSERT collapsed to exactly one uav row");
}
private static async Task MultiFlightUavRowsCoexist_AZ503_AC3(string apiUrl, string secret, string connectionString)
{
Console.WriteLine();
Console.WriteLine("AZ-503 AC-3: two UAV uploads at the same (z, x, y) from different flight_ids coexist as distinct DB rows sharing the same location_hash");
// Arrange — two distinct flightIds, identical lat/lon/zoom/size.
var coord = NextTestCoordinate();
const int zoom = 18;
const double sizeMeters = 200.0;
var flightA = Guid.Parse("aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa");
var flightB = Guid.Parse("bbbbbbbb-bbbb-bbbb-bbbb-bbbbbbbbbbbb");
using var client = CreateClient(apiUrl);
AttachToken(client, JwtTestHelpers.MintAuthenticated(secret, extraClaims: GpsClaim()));
var metaA = new
{
items = new[]
{
new { latitude = coord.Latitude, longitude = coord.Longitude, tileZoom = zoom, tileSizeMeters = sizeMeters, capturedAt = DateTime.UtcNow.AddMinutes(-10).ToString("o"), flightId = flightA }
}
};
var metaB = new
{
items = new[]
{
new { latitude = coord.Latitude, longitude = coord.Longitude, tileZoom = zoom, tileSizeMeters = sizeMeters, capturedAt = DateTime.UtcNow.ToString("o"), flightId = flightB }
}
};
// Act
var first = await PostBatch(client, metaA, new[] { CreateValidJpeg(seed: 11) });
await EnsureStatus(first, HttpStatusCode.OK, "AC-3 first flight upload");
var second = await PostBatch(client, metaB, new[] { CreateValidJpeg(seed: 22) });
await EnsureStatus(second, HttpStatusCode.OK, "AC-3 second flight upload");
// Assert
var rows = await QueryUavRowsByFlightAsync(connectionString, coord.Latitude, coord.Longitude, zoom, sizeMeters);
if (rows.Count != 2)
{
throw new Exception(
$"AZ-503 AC-3: expected 2 distinct uav rows for the same cell with different flight_ids, got {rows.Count}. Rows: [{string.Join(", ", rows.Select(r => $"flight_id={r.FlightId} id={r.Id}"))}]");
}
if (!rows.Any(r => r.FlightId == flightA) || !rows.Any(r => r.FlightId == flightB))
{
throw new Exception(
$"AZ-503 AC-3: expected rows with flight_id={flightA} AND flight_id={flightB}, got [{string.Join(", ", rows.Select(r => r.FlightId?.ToString() ?? "NULL"))}]");
}
var ids = rows.Select(r => r.Id).Distinct().ToList();
if (ids.Count != 2)
{
throw new Exception($"AZ-503 AC-3: per-flight rows must have distinct ids, got {ids.Count} distinct id(s).");
}
var locationHashes = rows.Select(r => r.LocationHash).Distinct().ToList();
if (locationHashes.Count != 1)
{
throw new Exception(
$"AZ-503 AC-3: per-flight rows must share the same location_hash (same (z, x, y)), got {locationHashes.Count} distinct hashes: [{string.Join(", ", locationHashes)}]");
}
// AC-11 cross-check at the DB level: each row's file_path embeds its flight_id.
var rowA = rows.Single(r => r.FlightId == flightA);
var rowB = rows.Single(r => r.FlightId == flightB);
if (!rowA.FilePath.Contains(flightA.ToString()) || !rowB.FilePath.Contains(flightB.ToString()))
{
throw new Exception(
$"AZ-503 AC-11: per-flight file_path must contain the flight_id segment. " +
$"rowA.file_path='{rowA.FilePath}', rowB.file_path='{rowB.FilePath}'.");
}
if (string.Equals(rowA.FilePath, rowB.FilePath, StringComparison.Ordinal))
{
throw new Exception(
$"AZ-503 AC-11: per-flight file_path must differ between flights, got identical '{rowA.FilePath}'.");
}
Console.WriteLine($" ✓ Two distinct uav rows for flight_id={flightA} and flight_id={flightB} coexist");
Console.WriteLine($" ✓ Both rows share location_hash={locationHashes[0]}");
Console.WriteLine($" ✓ Per-flight file_path differs ({rowA.FilePath} != {rowB.FilePath})");
}
private static async Task FloatRoundingDoesNotBreakIdempotence_AZ503_AC4(string apiUrl, string secret, string connectionString)
{
Console.WriteLine();
Console.WriteLine("AZ-503 AC-4: two UAV uploads for the same (z, x, y) with float-different lat/lon collapse to one row");
// Arrange — same (z, x, y) coords but two slightly-different lat/lon values.
// The new integer-keyed UPSERT must collapse them; the AZ-484 lat/lon-keyed
// UPSERT would have left two duplicate rows.
var coord = NextTestCoordinate();
const int zoom = 18;
const double sizeMeters = 200.0;
var flightId = Guid.Parse("cccccccc-cccc-cccc-cccc-cccccccccccc");
using var client = CreateClient(apiUrl);
AttachToken(client, JwtTestHelpers.MintAuthenticated(secret, extraClaims: GpsClaim()));
// First upload: exact center of the cell as returned by NextTestCoordinate.
var firstMeta = new
{
items = new[]
{
new { latitude = coord.Latitude, longitude = coord.Longitude, tileZoom = zoom, tileSizeMeters = sizeMeters, capturedAt = DateTime.UtcNow.AddMinutes(-20).ToString("o"), flightId }
}
};
// Second upload: a coordinate offset by < 1 m so it lands in the same (tile_x,
// tile_y) bucket but with a different float bit pattern.
var nudgedLat = coord.Latitude + 1e-7;
var nudgedLon = coord.Longitude + 1e-7;
var secondMeta = new
{
items = new[]
{
new { latitude = nudgedLat, longitude = nudgedLon, tileZoom = zoom, tileSizeMeters = sizeMeters, capturedAt = DateTime.UtcNow.ToString("o"), flightId }
}
};
// Act
var first = await PostBatch(client, firstMeta, new[] { CreateValidJpeg(seed: 31) });
await EnsureStatus(first, HttpStatusCode.OK, "AC-4 first upload");
var second = await PostBatch(client, secondMeta, new[] { CreateValidJpeg(seed: 32) });
await EnsureStatus(second, HttpStatusCode.OK, "AC-4 second upload");
// Assert
var rows = await QueryUavRowsByFlightAsync(connectionString, coord.Latitude, coord.Longitude, zoom, sizeMeters, alsoTryLatitude: nudgedLat, alsoTryLongitude: nudgedLon);
var flightRows = rows.Where(r => r.FlightId == flightId).ToList();
if (flightRows.Count != 1)
{
throw new Exception(
$"AZ-503 AC-4: expected exactly 1 uav row after float-different upload (integer-keyed UPSERT must collapse), got {flightRows.Count}. " +
$"Rows: [{string.Join(", ", flightRows.Select(r => $"id={r.Id} lat={r.Latitude} lon={r.Longitude}"))}]");
}
Console.WriteLine(" ✓ Two uploads at float-different lat/lon but same (tile_x, tile_y) collapsed to a single row");
}
private static async Task NoToken_Returns401(string apiUrl)
{
Console.WriteLine();
Console.WriteLine("AZ-488 AC-5: Unauthenticated request returns 401");
// Arrange
using var client = CreateClient(apiUrl);
var coord = NextTestCoordinate();
var metadata = new
{
items = new[]
{
new { latitude = coord.Latitude, longitude = coord.Longitude, tileZoom = 18, tileSizeMeters = 200.0, capturedAt = DateTime.UtcNow.ToString("o") }
}
};
// Act
var response = await PostBatch(client, metadata, new[] { CreateValidJpeg() });
// Assert
await EnsureStatus(response, HttpStatusCode.Unauthorized, "AC-5 no token");
Console.WriteLine(" ✓ Anonymous upload returns HTTP 401");
}
private static async Task ValidTokenWithoutGpsPermission_Returns403(string apiUrl, string secret)
{
Console.WriteLine();
Console.WriteLine("AZ-488 AC-6: Authenticated request without GPS permission returns 403");
// Arrange
using var client = CreateClient(apiUrl);
AttachToken(client, JwtTestHelpers.MintAuthenticated(secret, extraClaims: new[] { new Claim(PermissionsClaimType, "FL") }));
var coord = NextTestCoordinate();
var metadata = new
{
items = new[]
{
new { latitude = coord.Latitude, longitude = coord.Longitude, tileZoom = 18, tileSizeMeters = 200.0, capturedAt = DateTime.UtcNow.ToString("o") }
}
};
// Act
var response = await PostBatch(client, metadata, new[] { CreateValidJpeg() });
// Assert
await EnsureStatus(response, HttpStatusCode.Forbidden, "AC-6 missing permission");
Console.WriteLine(" ✓ Token without GPS permission returns HTTP 403");
}
private static async Task OversizedBatch_Returns400(string apiUrl, string secret)
{
Console.WriteLine();
Console.WriteLine("AZ-488 AC-8: Oversized batch (>MaxBatchSize) returns 400");
// Arrange — 101 metadata entries + 101 tiny placeholders.
const int oversize = 101;
var coord = NextTestCoordinate();
var metadata = new
{
items = Enumerable.Range(0, oversize).Select(i => new
{
latitude = coord.Latitude + i * 0.0001,
longitude = coord.Longitude,
tileZoom = 18,
tileSizeMeters = 200.0,
capturedAt = DateTime.UtcNow.ToString("o")
}).ToArray()
};
// Use tiny placeholder bytes so the body stays well under Kestrel's limit while
// still exceeding the per-batch MaxBatchSize cap that the handler enforces.
var placeholder = new byte[] { 0xFF, 0xD8, 0xFF, 0xD9 };
var files = Enumerable.Range(0, oversize).Select(_ => placeholder).ToArray();
using var client = CreateClient(apiUrl);
AttachToken(client, JwtTestHelpers.MintAuthenticated(secret, extraClaims: GpsClaim()));
// Act
var response = await PostBatch(client, metadata, files);
// Assert
await EnsureStatus(response, HttpStatusCode.BadRequest, "AC-8 oversized batch");
Console.WriteLine(" ✓ Oversized batch returns HTTP 400");
}
private static async Task<HttpResponseMessage> PostBatch(HttpClient client, object metadata, IReadOnlyList<byte[]> files)
{
using var content = new MultipartFormDataContent();
content.Add(new StringContent(JsonSerializer.Serialize(metadata)), "metadata");
for (var i = 0; i < files.Count; i++)
{
var item = new ByteArrayContent(files[i]);
item.Headers.ContentType = new MediaTypeHeaderValue("image/jpeg");
content.Add(item, "files", $"tile_{i}.jpg");
}
return await client.PostAsync(UploadPath, content);
}
private static async Task EnsureStatus(HttpResponseMessage response, HttpStatusCode expected, string label)
{
if (response.StatusCode != expected)
{
var body = await response.Content.ReadAsStringAsync();
throw new Exception($"{label}: expected HTTP {(int)expected}, got HTTP {(int)response.StatusCode}. Body: {body}");
}
}
private static HttpClient CreateClient(string apiUrl) =>
new() { BaseAddress = new Uri(apiUrl), Timeout = TimeSpan.FromMinutes(1) };
private static void AttachToken(HttpClient client, string token)
{
client.DefaultRequestHeaders.Authorization = new AuthenticationHeaderValue("Bearer", token);
}
private static IEnumerable<Claim> GpsClaim() => new[] { new Claim(PermissionsClaimType, GpsPermission) };
private static byte[] CreateValidJpeg(int width = 256, int height = 256, int seed = 42)
{
using var image = new Image<Rgba32>(width, height);
var random = new Random(seed);
image.ProcessPixelRows(accessor =>
{
for (var y = 0; y < accessor.Height; y++)
{
var row = accessor.GetRowSpan(y);
for (var x = 0; x < row.Length; x++)
{
row[x] = new Rgba32(
(byte)random.Next(256),
(byte)random.Next(256),
(byte)random.Next(256));
}
}
});
using var stream = new MemoryStream();
image.Save(stream, new JpegEncoder { Quality = 95 });
return stream.ToArray();
}
// Seed the counter from a wall-clock value so each test-runner process picks a
// distinct coordinate band. Postgres state persists across docker-compose runs
// (named volume); a monotonic counter from 0 would collide with prior runs on
// the per-source unique index, especially for tests that seed rows via raw
// INSERT rather than the API's UPSERT path.
// Kept as defense-in-depth after AZ-493 introduced a Program.cs startup DB
// reset. If the reset is skipped via --keep-state OR fails silently, the
// wallclock seed still spreads coordinates across runs so the per-source
// unique index does not collide. Safe to remove if/when the DB-reset path
// becomes load-bearing for every run.
private static int _coordinateCounter = (int)((DateTime.UtcNow.Ticks / TimeSpan.TicksPerSecond) % 1_000_000);
private static (double Latitude, double Longitude) NextTestCoordinate()
{
// Spread test coordinates far enough apart to fall into distinct tile cells
// so concurrent runs don't collide on the per-source unique index. Wrap on
// 40_000-cell axes so the result always stays strictly inside the
// OSM-valid ranges enforced by UavTileMetadataValidator (AZ-810):
// lat in [50.0, 70.0), lon in [10.0, 40.0).
var n = Interlocked.Increment(ref _coordinateCounter);
var lat = 50.0 + ((uint)n % 40_000u) * 0.0005;
var lon = 10.0 + ((uint)n % 60_000u) * 0.0005;
return (lat, lon);
}
private static async Task<int> CountUavRowsAsync(string connectionString, double latitude, double longitude)
{
await using var conn = new NpgsqlConnection(connectionString);
await conn.OpenAsync();
await using var cmd = new NpgsqlCommand(
"SELECT COUNT(*) FROM tiles WHERE source = 'uav' AND latitude = @lat AND longitude = @lon;", conn);
cmd.Parameters.AddWithValue("lat", latitude);
cmd.Parameters.AddWithValue("lon", longitude);
var scalar = await cmd.ExecuteScalarAsync();
return scalar is long l ? (int)l : Convert.ToInt32(scalar);
}
private static async Task<HashSet<string>> QuerySourcesAsync(string connectionString, double latitude, double longitude, int zoom, double sizeMeters)
{
await using var conn = new NpgsqlConnection(connectionString);
await conn.OpenAsync();
await using var cmd = new NpgsqlCommand(
"SELECT source FROM tiles WHERE latitude = @lat AND longitude = @lon AND tile_zoom = @zoom AND tile_size_meters = @size;", conn);
cmd.Parameters.AddWithValue("lat", latitude);
cmd.Parameters.AddWithValue("lon", longitude);
cmd.Parameters.AddWithValue("zoom", zoom);
cmd.Parameters.AddWithValue("size", sizeMeters);
var sources = new HashSet<string>(StringComparer.Ordinal);
await using var reader = await cmd.ExecuteReaderAsync();
while (await reader.ReadAsync())
{
sources.Add(reader.GetString(0));
}
return sources;
}
private sealed record UavRowProjection(Guid Id, Guid? FlightId, Guid LocationHash, double Latitude, double Longitude, string FilePath);
private static async Task<List<UavRowProjection>> QueryUavRowsByFlightAsync(
string connectionString,
double latitude,
double longitude,
int zoom,
double sizeMeters,
double? alsoTryLatitude = null,
double? alsoTryLongitude = null)
{
await using var conn = new NpgsqlConnection(connectionString);
await conn.OpenAsync();
// The UPSERT preserves the latitude/longitude of the row that won the
// race; for AC-3 / AC-4 we need to find rows produced from EITHER input
// coordinate, so widen the lookup by a few meters of float wiggle room.
const string sql = @"
SELECT id, flight_id, location_hash, latitude, longitude, file_path
FROM tiles
WHERE source = 'uav'
AND tile_zoom = @zoom
AND tile_size_meters = @size
AND (
(latitude = @lat AND longitude = @lon)
OR (latitude = @lat2 AND longitude = @lon2)
);";
var rows = new List<UavRowProjection>();
await using var cmd = new NpgsqlCommand(sql, conn);
cmd.Parameters.AddWithValue("lat", latitude);
cmd.Parameters.AddWithValue("lon", longitude);
cmd.Parameters.AddWithValue("lat2", alsoTryLatitude ?? latitude);
cmd.Parameters.AddWithValue("lon2", alsoTryLongitude ?? longitude);
cmd.Parameters.AddWithValue("zoom", zoom);
cmd.Parameters.AddWithValue("size", sizeMeters);
await using var reader = await cmd.ExecuteReaderAsync();
while (await reader.ReadAsync())
{
rows.Add(new UavRowProjection(
reader.GetGuid(0),
reader.IsDBNull(1) ? null : reader.GetGuid(1),
reader.GetGuid(2),
reader.GetDouble(3),
reader.GetDouble(4),
reader.GetString(5)));
}
return rows;
}
private static async Task ExecuteAsync(string connectionString, string sql, params (string Name, object Value)[] parameters)
{
await using var conn = new NpgsqlConnection(connectionString);
await conn.OpenAsync();
await using var cmd = new NpgsqlCommand(sql, conn);
foreach (var (name, value) in parameters)
{
cmd.Parameters.AddWithValue(name, value);
}
await cmd.ExecuteNonQueryAsync();
}
private sealed record UavResponseEnvelope
{
public List<UavResponseItem> Items { get; init; } = new();
}
private sealed record UavResponseItem
{
public int Index { get; init; }
public string Status { get; init; } = string.Empty;
public Guid? TileId { get; init; }
public string? RejectReason { get; init; }
public string? RejectDetails { get; init; }
}
}
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