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Adds Tesla API integration
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Adds an endpoint to interact with the Tesla API via a command proxy.

This includes fetching vehicle information and configuring telemetry settings. It introduces new models to represent the Tesla API responses and request structures.
This commit is contained in:
Szakáts Alpár
2025-08-17 12:03:26 +02:00
parent 663bb4b019
commit f049d023c9
4 changed files with 195 additions and 0 deletions
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33
Source/ProofOfConcept/Models/TelemetryConfigRequest.cs Normal file
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using System.Text.Json.Serialization;
namespace ProofOfConcept.Models;
public sealed class TelemetryConfigRequest
{
[JsonPropertyName("vins")]
public List<string> Vins { get; set; } = new();
[JsonPropertyName("config")]
public TelemetryConfig Config { get; set; } = new();
}
public sealed class TelemetryConfig
{
[JsonPropertyName("hostname")]
public string Hostname { get; set; } = string.Empty;
[JsonPropertyName("port")]
public int Port { get; set; }
[JsonPropertyName("ca")]
public string CertificateAuthority { get; set; } = string.Empty;
[JsonPropertyName("fields")]
public Dictionary<string, TelemetryFieldConfig> Fields { get; set; } = new();
}
public sealed class TelemetryFieldConfig
{
[JsonPropertyName("interval_seconds")]
public int IntervalSeconds { get; set; }
}

29
Source/ProofOfConcept/Models/VehiclesResponse.cs Normal file
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namespace ProofOfConcept.Models;
using System.Text.Json.Serialization;
public sealed class VehiclesEnvelope
{
[JsonPropertyName("response")]
public List<VehicleSummary> Response { get; set; } = new();
[JsonPropertyName("count")]
public int Count { get; set; }
}
public sealed class VehicleSummary
{
// Tesla fields commonly present on /api/1/vehicles
[JsonPropertyName("id")] public long Id { get; set; }
[JsonPropertyName("vehicle_id")] public long VehicleId { get; set; }
[JsonPropertyName("vin")] public string? Vin { get; set; }
[JsonPropertyName("display_name")] public string? DisplayName { get; set; }
[JsonPropertyName("state")] public string? State { get; set; }
// Extra fields sometimes included; safe to keep nullable
[JsonPropertyName("in_service")] public bool? InService { get; set; }
[JsonPropertyName("calendar_enabled")] public bool? CalendarEnabled { get; set; }
[JsonPropertyName("id_s")] public string? IdS { get; set; }
[JsonPropertyName("option_codes")] public string? OptionCodes { get; set; }
[JsonPropertyName("color")] public string? Color { get; set; }
}

46
Source/ProofOfConcept/Program.cs
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87
Source/ProofOfConcept/Utilities/CertificateAuthority.cs Normal file
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namespace ProofOfConcept.Utilities;
using System.Net;
using System.Security.Cryptography;
using System.Security.Cryptography.X509Certificates;
public static class CertificateAuthority
{
/// <summary>
/// Create a self-signed Root CA certificate.
/// </summary>
/// <param name="subjectName">Distinguished Name (e.g., "CN=My Root CA, O=MyOrg, C=HU").</param>
/// <param name="validYears">Validity in years.</param>
/// <returns>X509Certificate2 with private key.</returns>
public static X509Certificate2 CreateRootCA(string subjectName, int validYears = 10)
{
using var key = ECDsa.Create(ECCurve.NamedCurves.nistP256);
var req = new CertificateRequest(
new X500DistinguishedName(subjectName),
key,
HashAlgorithmName.SHA256);
req.CertificateExtensions.Add(new X509BasicConstraintsExtension(true, true, 1, true));
req.CertificateExtensions.Add(new X509KeyUsageExtension(X509KeyUsageFlags.KeyCertSign | X509KeyUsageFlags.CrlSign, true));
req.CertificateExtensions.Add(new X509SubjectKeyIdentifierExtension(req.PublicKey, false));
var notBefore = DateTimeOffset.UtcNow.AddMinutes(-5);
var notAfter = notBefore.AddYears(validYears);
var cert = req.CreateSelfSigned(notBefore, notAfter);
// Attach private key so we can export
return cert.CopyWithPrivateKey(key);
}
/// <summary>
/// Create a TLS/HTTPS certificate for a domain, signed by the given Root CA.
/// </summary>
/// <param name="rootCA">Root CA certificate (must include private key).</param>
/// <param name="subjectName">Common Name (e.g., "CN=myapp.local").</param>
/// <param name="dnsNames">DNS SAN entries.</param>
/// <param name="ipAddresses">Optional IP SAN entries.</param>
/// <param name="validDays">Validity in days (max ~397 for Apple clients).</param>
/// <returns>X509Certificate2 with private key.</returns>
public static X509Certificate2 CreateHttpsCertificate(X509Certificate2 rootCA, string subjectName, IEnumerable<string> dnsNames, IEnumerable<IPAddress>? ipAddresses = null, int validDays = 397)
{
if (!rootCA.HasPrivateKey)
throw new ArgumentException("Root CA must have a private key", nameof(rootCA));
using var leafKey = ECDsa.Create(ECCurve.NamedCurves.nistP256);
var req = new CertificateRequest(
new X500DistinguishedName(subjectName),
leafKey,
HashAlgorithmName.SHA256);
// Basic constraints: not a CA
req.CertificateExtensions.Add(new X509BasicConstraintsExtension(false, false, 0, true));
req.CertificateExtensions.Add(new X509KeyUsageExtension(X509KeyUsageFlags.DigitalSignature | X509KeyUsageFlags.KeyEncipherment, true));
req.CertificateExtensions.Add(new X509EnhancedKeyUsageExtension(
new OidCollection { new Oid("1.3.6.1.5.5.7.3.1") }, true)); // serverAuth
req.CertificateExtensions.Add(new X509SubjectKeyIdentifierExtension(req.PublicKey, false));
// Subject Alternative Names
var sanBuilder = new SubjectAlternativeNameBuilder();
foreach (var dns in dnsNames)
sanBuilder.AddDnsName(dns);
if (ipAddresses != null)
{
foreach (var ip in ipAddresses)
sanBuilder.AddIpAddress(ip);
}
req.CertificateExtensions.Add(sanBuilder.Build());
var notBefore = DateTimeOffset.UtcNow.AddMinutes(-5);
var notAfter = notBefore.AddDays(validDays);
// Generate random serial
var serial = new byte[16];
RandomNumberGenerator.Fill(serial);
serial[0] &= 0x7F; // positive
var issued = req.Create(rootCA, notBefore, notAfter, serial);
return issued.CopyWithPrivateKey(leafKey);
}
}