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svrnty-mcp-gateway/tests/Svrnty.MCP.Gateway.Infrastructure.Tests/Routing/ToolBasedStrategyTests.cs
Svrnty 19ef79362e refactor: rename OpenHarbor.MCP to Svrnty.MCP across all libraries 
- Renamed all directories: OpenHarbor.MCP.* → Svrnty.MCP.*
- Updated all namespaces in 179 C# files
- Renamed 20 .csproj files and 3 .sln files
- Updated 193 documentation references
- Updated 33 references in main CODEX codebase
- Updated Codex.sln with new paths
- Build verified: 0 errors

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Co-Authored-By: Claude <noreply@anthropic.com>
2025-10-22 21:04:17 -04:00

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using Xunit;
using Svrnty.MCP.Gateway.Infrastructure.Routing;
using Svrnty.MCP.Gateway.Core.Models;
namespace Svrnty.MCP.Gateway.Infrastructure.Tests.Routing;
/// <summary>
/// Unit tests for ToolBasedStrategy following TDD approach.
/// Tests tool-based routing with pattern matching.
/// </summary>
public class ToolBasedStrategyTests
{
[Fact]
public async Task SelectServerAsync_WithExactMatch_ReturnsMatchedServer()
{
// Arrange
var toolMapping = new Dictionary<string, string>
{
{ "search_documents", "server-1" },
{ "get_document", "server-2" }
};
var strategy = new ToolBasedStrategy(toolMapping);
var servers = new List<ServerInfo>
{
new ServerInfo { Id = "server-1", IsHealthy = true },
new ServerInfo { Id = "server-2", IsHealthy = true }
};
var context = new RoutingContext { ToolName = "search_documents" };
// Act
var selected = await strategy.SelectServerAsync(servers, context);
// Assert
Assert.NotNull(selected);
Assert.Equal("server-1", selected.Id);
}
[Fact]
public async Task SelectServerAsync_WithWildcardPattern_MatchesCorrectly()
{
// Arrange
var toolMapping = new Dictionary<string, string>
{
{ "search_*", "server-1" },
{ "get_*", "server-2" }
};
var strategy = new ToolBasedStrategy(toolMapping);
var servers = new List<ServerInfo>
{
new ServerInfo { Id = "server-1", IsHealthy = true },
new ServerInfo { Id = "server-2", IsHealthy = true }
};
var context1 = new RoutingContext { ToolName = "search_documents" };
var context2 = new RoutingContext { ToolName = "get_user" };
// Act
var selected1 = await strategy.SelectServerAsync(servers, context1);
var selected2 = await strategy.SelectServerAsync(servers, context2);
// Assert
Assert.Equal("server-1", selected1!.Id);
Assert.Equal("server-2", selected2!.Id);
}
[Fact]
public async Task SelectServerAsync_WithNoMatch_FallsBackToRoundRobin()
{
// Arrange
var toolMapping = new Dictionary<string, string>
{
{ "search_*", "server-1" }
};
var strategy = new ToolBasedStrategy(toolMapping);
var servers = new List<ServerInfo>
{
new ServerInfo { Id = "server-1", IsHealthy = true },
new ServerInfo { Id = "server-2", IsHealthy = true }
};
var context = new RoutingContext { ToolName = "unknown_tool" };
// Act
var selected = await strategy.SelectServerAsync(servers, context);
// Assert - should fall back to round-robin (first healthy server)
Assert.NotNull(selected);
Assert.True(selected.Id == "server-1" || selected.Id == "server-2");
}
[Fact]
public async Task SelectServerAsync_WhenMappedServerUnhealthy_SelectsNextHealthy()
{
// Arrange
var toolMapping = new Dictionary<string, string>
{
{ "search_documents", "server-1" }
};
var strategy = new ToolBasedStrategy(toolMapping);
var servers = new List<ServerInfo>
{
new ServerInfo { Id = "server-1", IsHealthy = false },
new ServerInfo { Id = "server-2", IsHealthy = true }
};
var context = new RoutingContext { ToolName = "search_documents" };
// Act
var selected = await strategy.SelectServerAsync(servers, context);
// Assert - should select next healthy server
Assert.NotNull(selected);
Assert.Equal("server-2", selected.Id);
}
[Fact]
public async Task SelectServerAsync_WithMultiplePatterns_UsesFirstMatch()
{
// Arrange
var toolMapping = new Dictionary<string, string>
{
{ "search_*", "server-1" },
{ "*_documents", "server-2" }
};
var strategy = new ToolBasedStrategy(toolMapping);
var servers = new List<ServerInfo>
{
new ServerInfo { Id = "server-1", IsHealthy = true },
new ServerInfo { Id = "server-2", IsHealthy = true }
};
var context = new RoutingContext { ToolName = "search_documents" };
// Act
var selected = await strategy.SelectServerAsync(servers, context);
// Assert - should use first matching pattern
Assert.NotNull(selected);
Assert.Equal("server-1", selected.Id);
}
[Fact]
public async Task SelectServerAsync_WithNullToolName_FallsBackToRoundRobin()
{
// Arrange
var toolMapping = new Dictionary<string, string>
{
{ "search_*", "server-1" }
};
var strategy = new ToolBasedStrategy(toolMapping);
var servers = new List<ServerInfo>
{
new ServerInfo { Id = "server-1", IsHealthy = true },
new ServerInfo { Id = "server-2", IsHealthy = true }
};
var context = new RoutingContext { ToolName = null };
// Act
var selected = await strategy.SelectServerAsync(servers, context);
// Assert
Assert.NotNull(selected);
}
[Fact]
public async Task SelectServerAsync_WithEmptyMapping_UsesRoundRobin()
{
// Arrange
var toolMapping = new Dictionary<string, string>();
var strategy = new ToolBasedStrategy(toolMapping);
var servers = new List<ServerInfo>
{
new ServerInfo { Id = "server-1", IsHealthy = true },
new ServerInfo { Id = "server-2", IsHealthy = true }
};
var context = new RoutingContext { ToolName = "any_tool" };
// Act
var selected = await strategy.SelectServerAsync(servers, context);
// Assert - should use round-robin
Assert.NotNull(selected);
}
[Fact]
public async Task SelectServerAsync_WithNoHealthyServers_ReturnsNull()
{
// Arrange
var toolMapping = new Dictionary<string, string>
{
{ "search_*", "server-1" }
};
var strategy = new ToolBasedStrategy(toolMapping);
var servers = new List<ServerInfo>
{
new ServerInfo { Id = "server-1", IsHealthy = false }
};
var context = new RoutingContext { ToolName = "search_documents" };
// Act
var selected = await strategy.SelectServerAsync(servers, context);
// Assert
Assert.Null(selected);
}
}
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