/// <summary>
        ///
        /// </summary>
        /// <param name="settings"></param>
        protected void DeployFonts(AppBaseStorageDeployerSettings settings)
        {
            // Nada que desplegar
            if (settings.fonts?.Any() != true)
            {
                return;
            }

            // TODO: Newer windows versions allow for per-user font registration, we should implement that
            // because with this approach fonts are installed first come first-served, and cannot be updated
            // if necessary. Plus we don't know who owns a font, se we can't delete them on cleanup

            var utilsFont = new UtilsFont();

            foreach (var font in settings.fonts.AsIterable())
            {
                // Check that the provided path is a zip with the font
                var fontSourceZip = Path.Combine(this.Deployment.appPath, font.Path);

                if (Path.GetExtension(fontSourceZip) != ".zip")
                {
                    throw new Exception($"Unable to install the font '{font.Path}' because fonts have to be in a .zip file.");
                }

                if (!File.Exists(fontSourceZip))
                {
                    throw new Exception($"Font file not found '{font.Path}'.");
                }

                // We use a know directory
                var fontTempPath          = UtilsSystem.GetTempPath("font-" + Guid.NewGuid());
                var fontPersitentTempPath = UtilsSystem.GetTempPath("font-chef");

                try
                {
                    ZipFile.ExtractToDirectory(fontSourceZip, fontTempPath);
                    UtilsSystem.CopyFilesRecursively(new DirectoryInfo(fontTempPath), new DirectoryInfo(fontPersitentTempPath), true, true);
                    utilsFont.InstallFont(fontPersitentTempPath);
                }
                finally
                {
                    UtilsSystem.DeleteDirectory(fontTempPath, this.Logger, 8);

                    // This will some fonts get locked by the native API without explanation
                    try
                    {
                        UtilsSystem.DeleteDirectory(fontPersitentTempPath, this.Logger, 4);
                    }
                    catch
                    {
                        // ignored
                    }
                }
            }
        }
Esempio n. 2
0
        /// <summary>
        /// Provisions a certificate in the central store
        /// </summary>
        /// <param name="hostName">Domain to register</param>
        /// <param name="email">Registration e-mail</param>
        /// <param name="bindingInfo">IIS binding info</param>
        /// <param name="ownerSiteName">The site that owns the binding, used to assign identity and application pool permissions.</param>
        /// <param name="forceSelfSigned">Force a self-signed certificate</param>
        /// <param name="forceRenewal">Force renewal, even if renewal conditions are not met</param>
        /// <returns>The certificate's friendly name, ready to be bound in IIS</returns>
        public void ProvisionCertificateInIis(
            string hostName,
            string email,
            string bindingInfo,
            string ownerSiteName,
            bool forceSelfSigned = false,
            bool forceRenewal    = false)
        {
            if (hostName.Contains("*"))
            {
                throw new Exception($"Provisioning certificates for wildcard host name '{hostName}' is not supported.");
            }

            var    currentCertificate       = UtilsIis.FindCertificateInCentralCertificateStore(hostName, this.Logger, out _);
            double remainingCertificateDays = (currentCertificate?.NotAfter - DateTime.Now)?.TotalDays ?? 0;

            this.Logger.LogInfo(true, "Total days remaining for certificate expiration: '{0}'", (int)Math.Floor(remainingCertificateDays));

            // Trigger renovation. Do this differently on mock/prod environment.
            // Next renewal attempt is calculated based on previous renewal attempt
            var renewalState = this.GetCertificateRenewalState(hostName);

            // Legacy apps don't have this set, or when a certificate has been manually placed
            if (renewalState.NextRenewal == null && remainingCertificateDays > 1)
            {
                renewalState.NextRenewal = this.CalculateNextRenewalAttempt(hostName, (int)remainingCertificateDays);
                this.StoreCertificateRenewalState(renewalState);
            }

            int remainingDaysForNextRenewal = renewalState.NextRenewal == null ? 0 : (int)(renewalState.NextRenewal - DateTime.UtcNow).Value.TotalDays;
            int certificateTotalDuration    = currentCertificate == null ? 0 : (int)(currentCertificate.NotAfter - currentCertificate.NotBefore).TotalDays;

            this.Logger.LogInfo(true, "Next renewal attempt for this site SSL targeted in '{0}' days.", remainingDaysForNextRenewal);

            // Check that the validationfailed request rate is not exceeded for this domain
            if (!forceRenewal && renewalState.FailedValidations.AsIterable().Count(i => (DateTime.UtcNow - i).TotalHours < 48) >= 2)
            {
                // Make this message verbos so that it will not flood the logs, the failed validation message will get logged
                // anyways and is sufficient.
                this.Logger.LogWarning(true, "The hostname '{0}' has reached the limit of two failed validations in the last 48 hours.", hostName);
                return;
            }

            if (!forceRenewal && !forceSelfSigned && remainingDaysForNextRenewal > 0 && remainingCertificateDays > 0)
            {
                this.Logger.LogWarning(true, "Next renewal attempt date not reached, skipping SSL provisioning.");
                return;
            }

            if (!forceRenewal && remainingDaysForNextRenewal > 0 && (remainingDaysForNextRenewal > certificateTotalDuration * 0.5) && certificateTotalDuration > 0)
            {
                this.Logger.LogWarning(false, "Certificate has not yet been through at least 50% of it's lifetime so it will not be renewed.'");
                renewalState.NextRenewal = this.CalculateNextRenewalAttempt(hostName, (int)remainingCertificateDays);
                this.StoreCertificateRenewalState(renewalState);
                return;
            }

            // Check the general too many requests rate exceeded
            if (!forceRenewal && this.SimpleStoreRenewalStatus.Get <bool>("ssl-certificate-provider-too-many-requests", out var tooManyRequests))
            {
                this.Logger.LogWarning(false, "Certificate provisioning temporarily disabled due to a Too Many Requests ACME error. Flag stored in {0}", tooManyRequests.StorePath);
                return;
            }

            this.Logger.LogInfo(false, "Attempting SSL certificate renewal for site '{0}' and host '{1}'", ownerSiteName, hostName);

            // Clear old validation failed requests
            if (renewalState.FailedValidations?.Any() == true)
            {
                // Only keep failed validations that happen in the last 5 days
                renewalState.FailedValidations = renewalState.FailedValidations
                                                 .Where((i) => (DateTime.UtcNow - i).TotalDays < 5).ToList();
            }

            // This is a little bit inconvenient but... the most reliable and compatible
            // way to do this is to setup a custom IIS website that uses the binding during
            // provisioning.

            long        tempSiteId;
            List <Site> haltedSites = new List <Site>();

            var    tempSiteName  = "cert-" + this.AppId;
            var    tempSiteAppId = "cert-" + this.AppId;
            string tempHostName  = "localcert-" + hostName;

            this.Logger.LogInfo(true, "Preparing temp site: " + tempSiteName);

            List <Site> conflictingSites;

            // Prepare the site
            using (ServerManager sm = new ServerManager())
            {
                // Query the sites in a resilient way...
                conflictingSites = UtilsSystem.QueryEnumerable(
                    sm.Sites,
                    (s) => s.State == ObjectState.Started && s.Bindings.Any((i) => i.Host.Equals(hostName)),
                    (s) => s,
                    (s) => s.Name,
                    this.Logger);
            }

            // Stop the sites that might prevent this one from starting
            foreach (var s in conflictingSites)
            {
                this.Logger.LogInfo(true, "Stopping site {0} to avoid binding collision.", s.Name);
                this.AppPoolUtils.WebsiteAction(s.Name, AppPoolActionType.Stop, skipApplicationPools: true);
                haltedSites.Add(s);
            }

            using (ServerManager sm = new ServerManager())
            {
                // Make sure there is no other site (might be stuck?)
                var existingSite = (from p in sm.Sites
                                    where p.Name == tempSiteName
                                    select p).FirstOrDefault();

                var tempSite = existingSite ?? sm.Sites.Add(tempSiteName, this.GetAcmeTemporarySiteRootForApplication(), 80);

                // Propagate application pool usage so that permissions are properly handled.
                var ownerSite = sm.Sites.First((i) => i.Name == ownerSiteName);
                tempSite.Applications.First().ApplicationPoolName = ownerSite.Applications.First().ApplicationPoolName;

                // Delete all bindings
                tempSite.Bindings.Clear();

                tempSite.Bindings.Add(bindingInfo, "http");
                tempSite.Bindings.Add($"{UtilsIis.LOCALHOST_ADDRESS}:80:" + tempHostName, "http");
                tempSiteId = tempSite.Id;

                this.UtilsHosts.AddHostsMapping(UtilsIis.LOCALHOST_ADDRESS, tempHostName, tempSiteAppId);

                // Prepare the website contents
                var sourceDir = UtilsSystem.FindResourcePhysicalPath(typeof(IISDeployer), ".well-known");
                UtilsSystem.CopyFilesRecursively(new DirectoryInfo(sourceDir), new DirectoryInfo(this.GetWellKnownSharedPathForApplication()), true);

                UtilsIis.CommitChanges(sm);
            }

            UtilsIis.WaitForSiteToBeAvailable(tempSiteName, this.Logger);
            UtilsIis.ConfigureAnonymousAuthForIisApplication(tempSiteName, this.Deployment.WindowsUsernameFqdn(), this.Deployment.GetWindowsPassword());

            IAcmeSharpProvider provider = null;

            try
            {
                this.AppPoolUtils.WebsiteAction(tempSiteName, AppPoolActionType.Start);

                // Check that the site does work using the local binding
                var testDataUrl = $"http://{tempHostName}/.well-known/acme-challenge/test.html";
                this.Logger.LogInfo(true, "Validating local challenge setup at: {0}", testDataUrl);

                if (!string.Equals(UtilsSystem.DownloadUriAsText(testDataUrl), "test data"))
                {
                    throw new Exception($"Could not locally validate acme challenge site setup at {testDataUrl}");
                }

                // Ssl registration configuration only depends on the e-mail and is signed as such
                string sslSignerAndRegistrationStoragePath = UtilsSystem.EnsureDirectoryExists(
                    UtilsSystem.CombinePaths(this.StoragePath, "_ssl_config", StringFormating.Instance.ExtremeClean(email)), true);

                // Initialize the provider
                bool useMockProvider = this.MockEnvironment || forceSelfSigned;

                provider = useMockProvider
                    ? (IAcmeSharpProvider) new AcmeSharpProviderMock(this.Logger, tempHostName)
                    : this.GetAcmeProvider(this.Logger, hostName);

                var signerPath       = Path.Combine(this.StoragePath, "_signer.xml");
                var registrationPath = Path.Combine(sslSignerAndRegistrationStoragePath, "registration.json");

                provider.InitRegistration(signerPath, registrationPath, email);

                string challengeUrl;
                string challengeContent;
                string challengeFilePath;

                try
                {
                    provider.GenerateHttpChallenge(
                        out challengeUrl,
                        out challengeContent,
                        out challengeFilePath);
                }
                catch (AcmeClient.AcmeWebException acmeException)
                {
                    if (acmeException.Message.Contains("429"))
                    {
                        int waitHours = 1;
                        this.SimpleStoreRenewalStatus.Set("ssl-certificate-provider-too-many-requests", true, 60 * waitHours);
                        this.Logger.LogError("Let's encrypt too many requests issue. Certificate provisioning disabled for the next {0} hours.", waitHours);
                        this.Logger.LogException(acmeException, EventLogEntryType.Warning);
                        return;
                    }

                    throw;
                }

                // Write the challanege contents
                string challengeFullPath =
                    Path.Combine(this.GetAcmeTemporarySiteRootForApplication(), challengeFilePath);

                File.WriteAllText(
                    challengeFullPath,
                    challengeContent);

                this.Logger.LogInfo(false, $"Veryfing challenge at '{challengeUrl}'");

                try
                {
                    // Validate that we can actually access the challenge ourselves!
                    string contents = UtilsSystem.DownloadUriAsText(challengeUrl, false);

                    if (!string.Equals(contents, challengeContent))
                    {
                        throw new Exception(
                                  $"Could not validate ACME challenge, retrieved challenge '{contents}' does not match '{challengeContent}'");
                    }
                }
                catch (Exception e)
                {
                    this.Logger.LogWarning(true, "Cannot self-verify auth challenge, this can sometimes happeen under some DNS setups. {0}", e.Message + Environment.NewLine + e.InnerException?.Message);
                }

                var challengeValidated = false;

                try
                {
                    challengeValidated = provider.ValidateChallenge();
                }
                catch (Exception e)
                {
                    this.Logger.LogException(e, EventLogEntryType.Warning);
                }

                this.Logger.LogWarning(true, "Remote challenge validation success: " + (challengeValidated ? "Yes" : "No"));

                // Download the certificates to this temp location
                string           temporaryCertificatePath = UtilsSystem.EnsureDirectoryExists(UtilsSystem.CombinePaths(this.StoragePath, this.AppId, "ssl_certificates", hostName), true);
                CertificatePaths certificatepaths         = null;

                // This is here for testing purposes
                if (Environment.GetEnvironmentVariable("TEST_FAIL_CHALLENGE_VALIDATION") == true.ToString())
                {
                    challengeValidated = false;
                }

                if (!challengeValidated)
                {
                    // There is a Failed Validation limit of 5 failures per account, per hostname, per hour.
                    renewalState.FailedValidations = renewalState.FailedValidations ?? new List <DateTime>();
                    renewalState.FailedValidations.Add(DateTime.UtcNow);

                    this.Logger.LogError(
                        "Challenge could not be validated at '{0}'. If behind a load balancer, make sure that the site is deployed in ALL nodes, remove the self-signed certificate from the store and redeploy the application.",
                        challengeUrl);

                    this.StoreCertificateRenewalState(renewalState);
                }
                else
                {
                    try
                    {
                        certificatepaths = provider.DownloadCertificate(
                            UtilsEncryption.GetMD5(hostName),
                            hostName,
                            temporaryCertificatePath);
                    }
                    catch (AcmeClient.AcmeWebException acmeException)
                    {
                        this.Logger.LogException(acmeException, EventLogEntryType.Warning);
                    }
                    catch (WebException webException)
                    {
                        this.Logger.LogException(webException, EventLogEntryType.Warning);
                    }
                    catch (Exception e)
                    {
                        this.Logger.LogException(e, EventLogEntryType.Warning);
                    }
                }

                if (certificatepaths == null && currentCertificate == null)
                {
                    this.Logger.LogWarning(false, "Unable to acquire certificate and site does not have a valid existing one, using self-signed fallback.");

                    provider = new AcmeSharpProviderMock(this.Logger, hostName);

                    certificatepaths = provider.DownloadCertificate(
                        UtilsEncryption.GetMD5(hostName),
                        hostName,
                        temporaryCertificatePath);
                }

                // Save this, use a fixed name certificate file
                if (certificatepaths != null)
                {
                    string certificateFilePath = Path.Combine(UtilsIis.CentralStorePath(this.Logger), hostName + ".pfx");

                    UtilsSystem.RetryWhile(
                        () => { File.Copy(certificatepaths.pfxPemFile, certificateFilePath, true); },
                        (e) => true,
                        2500,
                        this.Logger);

                    this.Logger.LogInfo(false, "Certificate file writen to '{0}'", certificateFilePath);

                    // TODO: Activate this refreshing when it's prooved to work
                    // UtilsIis.EnsureCertificateInCentralCertificateStoreIsRebound(hostName, this.Logger);
                }

                // Remove temporary certificates
                UtilsSystem.DeleteDirectory(temporaryCertificatePath, this.Logger);

                // Remove the already used challenge if it was validated. Otherwise keep it
                // for debugging purposes.
                if (challengeValidated && File.Exists(challengeFullPath))
                {
                    File.Delete(challengeFullPath);
                }

                // In the end, we always have a certificate. Program a renewal date according to the remaining expiration.
                currentCertificate       = UtilsIis.FindCertificateInCentralCertificateStore(hostName, this.Logger, out _);
                remainingCertificateDays = (currentCertificate?.NotAfter - DateTime.Now)?.TotalDays ?? 0;

                // Add some randomness in renewal dates to avoid all certificates being renewed at once and reaching api limits
                renewalState.LastRenewal = DateTime.UtcNow;
                renewalState.NextRenewal = this.CalculateNextRenewalAttempt(hostName, (int)remainingCertificateDays);
                this.StoreCertificateRenewalState(renewalState);
            }
            finally
            {
                this.Logger.LogInfo(true, "Disposing temporary verification setup");

                provider?.Dispose();

                this.UtilsHosts.RemoveHostsMapping(tempSiteAppId);

                // Restore the original state of IIS!!!
                using (ServerManager sm = new ServerManager())
                {
                    var site = sm.Sites.Single(i => i.Id == tempSiteId);
                    UtilsIis.RemoveSite(site, sm, this.Logger);
                    UtilsIis.CommitChanges(sm);
                }

                // Give IIS some time to reconfigure itself and free resources.
                Thread.Sleep(1000);

                // Start the sites
                foreach (var site in haltedSites)
                {
                    // Add some retry logic here because bringing the original sites online is critical
                    UtilsSystem.RetryWhile(() => { this.AppPoolUtils.WebsiteAction(site.Name, AppPoolActionType.Start); }, (e) => true, 5000, this.Logger);
                }
            }
        }