Suivez ce guide pour vous familiariser avec le processus d'envoi de membres d'audience avec l'API Data Manager.
Dans ce guide, vous allez effectuer les étapes suivantes :
- Préparez un
Destinationpour recevoir les données d'audience. - Préparez les données d'audience à envoyer.
- Créez une requête
IngestionServicepour les membres de l'audience. - Envoyez la requête avec Google APIs Explorer.
- Comprendre les réponses de réussite et d'échec
Préparer une destination
Avant de pouvoir envoyer des données, vous devez préparer la destination vers laquelle les envoyer. Voici un exemple de Destination que vous pouvez utiliser. Consultez Configurer des destinations pour obtenir des exemples de destinations pour différents scénarios.
Sélectionnez l'onglet correspondant à votre cas d'utilisation.
- Sélectionnez Annonceur si vous utilisez des identifiants pour un compte Google qui est un utilisateur des comptes d'annonceur que vous souhaitez gérer.
- Sélectionnez Partenaire de données si vous utilisez les identifiants d'un compte Google qui est un utilisateur dans un compte de partenaire de données et que vous souhaitez gérer les comptes d'annonceurs qui ont un lien de partenaire vers le compte de partenaire de données.
Annonceur
operatingAccountCompte qui reçoit les données d'audience. Définissez ce champ sur le compte d'annonceur propriétaire de l'audience.
loginAccountCompte où le compte Google des identifiants est un utilisateur.
Si vos identifiants OAuth concernent un utilisateur ayant accès à un compte administrateur Google Ads dont
operatingAccountest l'un des sous-comptes, définissezloginAccountsur le type de compte et l'ID du compte administrateur.Si les identifiants OAuth concernent un utilisateur ayant un accès direct à
operatingAccount, vous n'avez pas besoin de définirloginAccount.productDestinationIdID de l'audience dans
operatingAccountqui reçoit les données des membres.
{
"operatingAccount": {
"accountType": "OPERATING_ACCOUNT_TYPE",
"accountId": "OPERATING_ACCOUNT_ID"
},
"loginAccount": {
"accountType": "LOGIN_ACCOUNT_TYPE",
"accountId": "LOGIN_ACCOUNT_ID"
},
"productDestinationId": "AUDIENCE_ID"
}
Partenaire pour les données
operatingAccountType et ID du compte qui reçoit les données d'audience. Définissez ce paramètre sur le compte d'annonceur auquel appartient l'audience.
loginAccountLe type et l'ID de votre compte de partenaire pour les données.
linkedAccountCompte avec un lien partenaire établi par le biais duquel l'utilisateur des identifiants a accès à
operatingAccount.Si un parent de
operatingAccountest associé à votre compte de partenaire de données, définissezlinkedAccountsur le parent deoperatingAccount. Si leoperatingAccountest directement associé à votre compte de partenaire de données, ne définissez paslinkedAccount.productDestinationIdID de l'audience dans
operatingAccountqui reçoit les données des membres.
{
"operatingAccount": {
"accountType": "OPERATING_ACCOUNT_TYPE",
"accountId": "OPERATING_ACCOUNT_ID"
},
"loginAccount": {
"accountType": "DATA_PARTNER",
"accountId": "DATA_PARTNER_ACCOUNT_ID"
},
"linkedAccount": {
"accountType": "LINKED_ACCOUNT_TYPE",
"accountId": "LINKED_ACCOUNT_ID"
},
"productDestinationId": "AUDIENCE_ID"
}
Préparer les données d'audience
Prenons l'exemple des données suivantes. Chaque tableau correspond à un membre de l'audience, et chaque membre peut avoir jusqu'à trois adresses e-mail.
Voici les données sur les membres de l'audience :
Membre 1
| Membre 1 | |
|---|---|
email_1 |
dana@example.com |
email_2 |
DanaM@example.com |
email_3 |
|
Membre 2
| Membre 2 | |
|---|---|
email_1 |
ALEXJ@example.com |
email_2 |
AlexJ@cymbalgroup.com |
email_3 |
alexj@altostrat.com |
Membre 3
| Membre 3 | |
|---|---|
email_1 |
quinn@CYMBALGROUP.com |
email_2 |
baklavainthebalkans@gmail.com |
email_3 |
|
Membre 4
| Membre 4 | |
|---|---|
email_1 |
rosario@example.org |
email_2 |
cloudySanFrancisco@GMAIL.com |
email_3 |
|
Mettre en forme les données
Mettez en forme les champs comme indiqué dans le guide de mise en forme. Les adresses e-mail doivent respecter les exigences de format suivantes :
- Supprime tous les espaces blancs de début, de fin et intermédiaires.
- Convertissez l'adresse e-mail en minuscules.
- Si l'adresse e-mail comporte le domaine
gmail.comougooglemail.com:- Supprimez tous les points (
.) avant le symbole@. - Supprimez le signe plus (
+) de la partie locale et tous les caractères qui le suivent. - Exemple :
cloudy.sanfrancisco+shopping@gmail.com→cloudysanfrancisco@gmail.com
- Supprimez tous les points (
- Si l'adresse e-mail comporte un domaine autre que
gmail.comougooglemail.com, ne supprimez pas les points ni les signes Plus.- Exemple :
user.name+NYC@Example.com→user.name+nyc@example.com
- Exemple :
Voici les données mises en forme :
Membre 1
| Membre 1 | |
|---|---|
email_1 |
dana@example.com |
email_2 |
danam@example.com |
email_3 |
|
Membre 2
| Membre 2 | |
|---|---|
email_1 |
alexj@example.com |
email_2 |
alexj@cymbalgroup.com |
email_3 |
alexj@altostrat.com |
Membre 3
| Membre 3 | |
|---|---|
email_1 |
quinn@cymbalgroup.com |
email_2 |
baklavainthebalkans@gmail.com |
email_3 |
|
Membre 4
| Membre 4 | |
|---|---|
email_1 |
rosario@example.org |
email_2 |
cloudysanfrancisco@gmail.com |
email_3 |
|
Hacher et encoder les données
De plus, les adresses e-mail mises en forme doivent être hachées à l'aide de l'algorithme SHA-256 et encodées à l'aide de l'encodage hexadécimal (hex) ou Base64. Les exemples de ce guide utilisent l'encodage hexadécimal.
Voici les données après hachage et encodage :
Membre 1
| Membre 1 | |
|---|---|
email_1 |
07e2f1394b0ea80e2adca010ea8318df697001a005ba7452720edda4b0ce57b3 |
email_2 |
1df6b43bc68dd38eca94e6a65b4f466ae537b796c81a526918b40ac4a7b906c7 |
email_3 |
|
Membre 2
| Membre 2 | |
|---|---|
email_1 |
2ef46c4214c3fc1b277a2d976d55194e12b899aa50d721f28da858c7689756e3 |
email_2 |
54e410b14fa652a4b49b43aff6eaf92ad680d4d1e5e62ed71b86cd3188385a51 |
email_3 |
e8bd3f8da6f5af73bec1ab3fbf7beb47482c4766dfdfc94e6bd89e359c139478 |
Membre 3
| Membre 3 | |
|---|---|
email_1 |
05bb62526f091b45d20e243d194766cca8869137421047dc53fa4876d111a6f0 |
email_2 |
f1fcde379f31f4d446b76ee8f34860eca2288adc6b6d6c0fdc56d9eee75a2fa5 |
email_3 |
|
Membre 4
| Membre 4 | |
|---|---|
email_1 |
83a834cc5327bc4dee7c5408988040dc5813c7662611cd93b707aff72bf7d33f |
email_2 |
223ebda6f6889b1494551ba902d9d381daf2f642bae055888e96343d53e9f9c4 |
email_3 |
|
Voici un exemple de AudienceMember pour les adresses e-mail formatées, hachées et encodées de dana@example.com et danam@example.com du premier membre des exemples de données :
{
"compositeData": {
"userData": {
"userIdentifiers": [
{
"emailAddress": "07e2f1394b0ea80e2adca010ea8318df697001a005ba7452720edda4b0ce57b3"
},
{
"emailAddress": "1df6b43bc68dd38eca94e6a65b4f466ae537b796c81a526918b40ac4a7b906c7"
}
]
}
}
}
Données composites
Il existe deux façons de fournir des identifiants utilisateur pour un import AudienceMember.
compositeData(Recommandé)Il s'agit de l'approche recommandée pour toutes les intégrations.
Définissez le champ
compositeDatasurAudienceMembersur un objetCompositeData, qui comporte un champuserDataimbriqué dans lequel des identifiants utilisateur peuvent être fournis. La fonctionnalité du champuserDatadanscompositeDataest identique à celle du champuserDatadansAudienceMember.CompositeDatapeut contenir l'un des éléments suivants :- Identifiants utilisateur uniquement :
userDataest renseigné avec au moins unUserIdentifier. - Données d'adresse IP uniquement : consultez Ingestion d'adresses IP pour le ciblage par liste de clients Google Ads pour obtenir des consignes sur le remplissage de
ipData(compatible avec le ciblage par liste de clients Google Ads). - Données d'adresse IP et identifiants utilisateur :
userDataetipDatasont tous deux renseignés avec des valeurs valides. Consultez Ingestion d'adresses IP pour le ciblage par liste de clients Google Ads pour obtenir des consignes sur le remplissage deipData(compatible avec le ciblage par liste de clients Google Ads).
- Identifiants utilisateur uniquement :
-
Vous pouvez également fournir des identifiants utilisateur en définissant directement le champ
userDatasur leAudienceMembersur un objetUserData.Bien que
userDatasoit toujours compatible, nous vous recommandons d'utilisercompositeDatapour vous assurer que votre intégration est prête pour les améliorations à venir.
Ingestion d'adresses IP pour le ciblage par liste de clients Google Ads
L'API Data Manager permet d'inclure des adresses IP pour les importations de données pour le ciblage des clients Google Ads dans CompositeData. Pour chaque adresse IP, ajoutez une ressource IpData au champ répété ipData. L'envoi de IpData n'est pas compatible avec les importations de listes de clients dans Display & Video 360.
IpData contient un champ ipAddress obligatoire et deux champs d'horodatage facultatifs observeStartTime et observeEndTime, qui indiquent quand l'adresse IP a été observée pour l'utilisateur. Nous vous recommandons d'inclure ces champs d'horodatage pour améliorer les taux de correspondance du ciblage par liste de clients.
Voici les consignes à suivre pour inclure des adresses IP :
- Les adresses IPv4 et IPv6 sont acceptées.
- Ne hachez ni n'encodez ces champs.
- Consultez le guide de mise en forme pour savoir comment mettre en forme les champs
ipAddresset d'horodatage. - Chaque objet de la liste
ipDatadoit contenir une valeur non vide pour le champipAddress. Nous vous recommandons également d'envoyerobserveStartTimeetobserveEndTime. - Vous pouvez envoyer des identifiants utilisateur et des données d'adresse IP dans vos importations de listes de clients Google Ads en renseignant
userDataetipDatadansCompositeData. Assurez-vous queuserDatacomporte au moins unUserIdentifier. - L'audience de destination doit comporter
CONTACT_IDdans sonuploadKeyTypes. Les requêtes envoyantcompositeDataà des audiences auxquelles il manque ce type de clé seront rejetées.
Voici l'objet AudienceMember pour le premier membre des exemples de données, qui montre comment inclure userData et ipData imbriqués dans le champ compositeData.
{
"compositeData": {
"userData": {
"userIdentifiers": [
{
"emailAddress": "07e2f1394b0ea80e2adca010ea8318df697001a005ba7452720edda4b0ce57b3"
},
{
"emailAddress": "1df6b43bc68dd38eca94e6a65b4f466ae537b796c81a526918b40ac4a7b906c7"
}
]
},
"ipData": [
{
"ipAddress": "192.0.2.1",
"observeStartTime": "2025-06-10T23:42:33Z",
"observeEndTime": "2025-06-10T23:43:59Z"
}
]
}
}
Créer le corps de la requête
Pour créer le corps de la requête, combinez destinations et audienceMembers, définissez le champ encoding, puis ajoutez les autres champs de requête que vous souhaitez inclure, tels que validateOnly et consent.
Si vous envoyez des membres d'audience pour le ciblage par liste de clients, définissez termsOfService pour indiquer si l'utilisateur a accepté les Conditions d'utilisation du ciblage par liste de clients.
Les exemples de ce guide n'utilisent pas le chiffrement, mais vous pouvez suivre les instructions de la section Chiffrer les données utilisateur pour ajouter le chiffrement à votre processus.
Envoyer la requête
Voici comment essayer une requête depuis votre navigateur :
- Sélectionnez l'onglet REST, puis cliquez sur Ouvrir dans l'explorateur d'API pour ouvrir l'explorateur d'API dans un nouvel onglet ou une nouvelle fenêtre.
- Dans le corps de la requête de l'API Explorer, remplacez chaque chaîne commençant par
REPLACE_WITH, commeREPLACE_WITH_OPERATING_ACCOUNT_TYPE, par la valeur correspondante. - Cliquez sur Exécuter en bas de la page de l'explorateur d'API et suivez les invites d'autorisation pour envoyer la requête.
- Définissez
validateOnlysurtruepour valider la requête sans appliquer les modifications. Lorsque vous êtes prêt à appliquer les modifications, définissezvalidateOnlysurfalse.
Si vous avez installé une bibliothèque cliente, sélectionnez l'onglet correspondant au langage de programmation de votre choix pour afficher un exemple de code complet expliquant comment créer et envoyer une requête.
REST
Annonceur
{ "destinations": [ { "operatingAccount": { "accountType": "OPERATING_ACCOUNT_TYPE", "accountId": "OPERATING_ACCOUNT_ID" }, "loginAccount": { "accountType": "LOGIN_ACCOUNT_TYPE", "accountId": "LOGIN_ACCOUNT_ID" }, "productDestinationId": "AUDIENCE_ID" } ], "audienceMembers": [ { "compositeData": { "userData": { "userIdentifiers": [ { "emailAddress": "07e2f1394b0ea80e2adca010ea8318df697001a005ba7452720edda4b0ce57b3" }, { "emailAddress": "1df6b43bc68dd38eca94e6a65b4f466ae537b796c81a526918b40ac4a7b906c7" } ] } } }, { "compositeData": { "userData": { "userIdentifiers": [ { "emailAddress": "2ef46c4214c3fc1b277a2d976d55194e12b899aa50d721f28da858c7689756e3" }, { "emailAddress": "54e410b14fa652a4b49b43aff6eaf92ad680d4d1e5e62ed71b86cd3188385a51" }, { "emailAddress": "e8bd3f8da6f5af73bec1ab3fbf7beb47482c4766dfdfc94e6bd89e359c139478" } ] } } }, { "compositeData": { "userData": { "userIdentifiers": [ { "emailAddress": "05bb62526f091b45d20e243d194766cca8869137421047dc53fa4876d111a6f0" }, { "emailAddress": "f1fcde379f31f4d446b76ee8f34860eca2288adc6b6d6c0fdc56d9eee75a2fa5" } ] } } }, { "compositeData": { "userData": { "userIdentifiers": [ { "emailAddress": "83a834cc5327bc4dee7c5408988040dc5813c7662611cd93b707aff72bf7d33f" }, { "emailAddress": "223ebda6f6889b1494551ba902d9d381daf2f642bae055888e96343d53e9f9c4" } ] } } } ], "consent": { "adUserData": "CONSENT_GRANTED", "adPersonalization": "CONSENT_GRANTED" }, "encoding": "HEX", "termsOfService": { "customerMatchTermsOfServiceStatus": "ACCEPTED" }, "validateOnly": true }
Partenaire pour les données
{ "destinations": [ { "operatingAccount": { "accountType": "OPERATING_ACCOUNT_TYPE", "accountId": "OPERATING_ACCOUNT_ID" }, "loginAccount": { "accountType": "DATA_PARTNER", "accountId": "DATA_PARTNER_ACCOUNT_ID" }, "linkedAccount": { "accountType": "LINKED_ACCOUNT_TYPE", "accountId": "LINKED_ACCOUNT_ID" }, "productDestinationId": "AUDIENCE_ID" } ], "audienceMembers": [ { "compositeData": { "userData": { "userIdentifiers": [ { "emailAddress": "07e2f1394b0ea80e2adca010ea8318df697001a005ba7452720edda4b0ce57b3" }, { "emailAddress": "1df6b43bc68dd38eca94e6a65b4f466ae537b796c81a526918b40ac4a7b906c7" } ] } } }, { "compositeData": { "userData": { "userIdentifiers": [ { "emailAddress": "2ef46c4214c3fc1b277a2d976d55194e12b899aa50d721f28da858c7689756e3" }, { "emailAddress": "54e410b14fa652a4b49b43aff6eaf92ad680d4d1e5e62ed71b86cd3188385a51" }, { "emailAddress": "e8bd3f8da6f5af73bec1ab3fbf7beb47482c4766dfdfc94e6bd89e359c139478" } ] } } }, { "compositeData": { "userData": { "userIdentifiers": [ { "emailAddress": "05bb62526f091b45d20e243d194766cca8869137421047dc53fa4876d111a6f0" }, { "emailAddress": "f1fcde379f31f4d446b76ee8f34860eca2288adc6b6d6c0fdc56d9eee75a2fa5" } ] } } }, { "compositeData": { "userData": { "userIdentifiers": [ { "emailAddress": "83a834cc5327bc4dee7c5408988040dc5813c7662611cd93b707aff72bf7d33f" }, { "emailAddress": "223ebda6f6889b1494551ba902d9d381daf2f642bae055888e96343d53e9f9c4" } ] } } } ], "consent": { "adUserData": "CONSENT_GRANTED", "adPersonalization": "CONSENT_GRANTED" }, "encoding": "HEX", "termsOfService": { "customerMatchTermsOfServiceStatus": "ACCEPTED" }, "validateOnly": true }
.NET
// Copyright 2025 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. using System.Text.Json; using CommandLine; using Google.Ads.DataManager.Util; using Google.Ads.DataManager.V1; using Google.Protobuf.WellKnownTypes; using static Google.Ads.DataManager.V1.ProductAccount.Types; namespace Google.Ads.DataManager.Samples { // <summary> // Sends a <see cref="IngestAudienceMembersRequest" /> without using encryption. // // User data is read from a data file. See the <c>audience_members_1.json</c> file in the // <c>sampledata</c> directory for an example. // </summary> public class IngestAudienceMembers { private static readonly int MaxMembersPerRequest = 10_000; [Verb( "ingest-audience-members", HelpText = "Sends an IngestAudienceMembersRequest without using encryption." )] public class Options { [Option( "operatingAccountType", Required = true, HelpText = "Account type of the operating account" )] public AccountType OperatingAccountType { get; set; } [Option( "operatingAccountId", Required = true, HelpText = "ID of the operating account" )] public string OperatingAccountId { get; set; } = null!; [Option( "loginAccountType", Required = false, HelpText = "Account type of the login account" )] public AccountType? LoginAccountType { get; set; } [Option("loginAccountId", Required = false, HelpText = "ID of the login account")] public string? LoginAccountId { get; set; } [Option( "linkedAccountType", Required = false, HelpText = "Account type of the linked account" )] public AccountType? LinkedAccountType { get; set; } [Option("linkedAccountId", Required = false, HelpText = "ID of the linked account")] public string? LinkedAccountId { get; set; } [Option("audienceId", Required = true, HelpText = "ID of the audience")] public string AudienceId { get; set; } = null!; [Option( "jsonFile", Required = true, HelpText = "JSON file containing user data to ingest" )] public string JsonFile { get; set; } = null!; [Option( "validateOnly", Default = true, HelpText = "Whether to enable validateOnly on the request" )] public bool ValidateOnly { get; set; } } public void Run(Options options) { RunExample( options.OperatingAccountType, options.OperatingAccountId, options.LoginAccountType, options.LoginAccountId, options.LinkedAccountType, options.LinkedAccountId, options.AudienceId, options.JsonFile, options.ValidateOnly ); } // Runs the example. private void RunExample( AccountType operatingAccountType, string operatingAccountId, AccountType? loginAccountType, string? loginAccountId, AccountType? linkedAccountType, string? linkedAccountId, string audienceId, string jsonFile, bool validateOnly ) { if (loginAccountId == null ^ loginAccountType == null) { throw new ArgumentException( "Must specify either both or neither of login account ID and login account " + "type" ); } if (linkedAccountId == null ^ linkedAccountType == null) { throw new ArgumentException( "Must specify either both or neither of linked account ID and linked account " + "type" ); } // Reads the audience members from the JSON file. List<Member> memberList = ReadMemberData(jsonFile); // Creates a factory that will be used to generate the appropriate data manager. var userDataFormatter = new UserDataFormatter(); var audienceMembers = new List<AudienceMember>(); // Processes each batch of audience members. foreach (var member in memberList) { var compositeData = new CompositeData(); var userDataBuilder = new UserData(); // Adds a UserIdentifier for each valid email address for the member. foreach (var email in member.Emails) { try { string processedEmail = userDataFormatter.ProcessEmailAddress( email, UserDataFormatter.Encoding.Hex ); // Sets the email address identifier to the encoded hash. userDataBuilder.UserIdentifiers.Add( new UserIdentifier { EmailAddress = processedEmail } ); } catch (ArgumentException) { // Skips invalid input. continue; } } // Adds a UserIdentifier for each valid phone number for the member. foreach (var phoneNumber in member.PhoneNumbers) { try { string processedPhoneNumber = userDataFormatter.ProcessPhoneNumber( phoneNumber, UserDataFormatter.Encoding.Hex ); // Sets the phone number identifier to the encoded hash. userDataBuilder.UserIdentifiers.Add( new UserIdentifier { PhoneNumber = processedPhoneNumber } ); } catch (ArgumentException) { // Skips invalid input. continue; } } // Adds IP address information for each valid entry for the member. var ipDatas = new List<IpData>(); foreach (var ipInfo in member.IpInfos) { if (operatingAccountType != AccountType.GoogleAds) { Console.WriteLine( $"Skipping IP address information for operating account type {operatingAccountType}. " + "Sending IP address is only supported for operating account type GOOGLE_ADS." ); continue; } string processedIpAddress = (ipInfo.IpAddress ?? "").Trim(); if (string.IsNullOrEmpty(processedIpAddress)) { Console.WriteLine("Skipping IP address information with no IP address"); continue; } var ipData = new IpData { IpAddress = processedIpAddress }; string startTimeString = (ipInfo.ObserveStartTime ?? "").Trim(); if (!string.IsNullOrEmpty(startTimeString)) { try { ipData.ObserveStartTime = Timestamp.FromDateTime( DateTime.Parse(startTimeString).ToUniversalTime() ); } catch (FormatException) { Console.WriteLine( $"Ignoring observe start time '{startTimeString}' since it can't be parsed" ); } } string endTimeString = (ipInfo.ObserveEndTime ?? "").Trim(); if (!string.IsNullOrEmpty(endTimeString)) { try { ipData.ObserveEndTime = Timestamp.FromDateTime( DateTime.Parse(endTimeString).ToUniversalTime() ); } catch (FormatException) { Console.WriteLine( $"Ignoring observe end time '{endTimeString}' since it can't be parsed" ); } } ipDatas.Add(ipData); } if (userDataBuilder.UserIdentifiers.Any() || ipDatas.Any()) { if (userDataBuilder.UserIdentifiers.Any()) { compositeData.UserData = userDataBuilder; } if (ipDatas.Any()) { compositeData.IpData.AddRange(ipDatas); } audienceMembers.Add(new AudienceMember { CompositeData = compositeData }); } } // Builds the Destination for the request. var destinationBuilder = new Destination { // The destination account for the data. OperatingAccount = new ProductAccount { AccountType = operatingAccountType, AccountId = operatingAccountId, }, // The ID of the user list that is being updated. ProductDestinationId = audienceId, }; if (loginAccountType.HasValue && loginAccountId != null) { destinationBuilder.LoginAccount = new ProductAccount { AccountType = loginAccountType.Value, AccountId = loginAccountId, }; } if (linkedAccountType.HasValue && linkedAccountId != null) { destinationBuilder.LinkedAccount = new ProductAccount { AccountType = linkedAccountType.Value, AccountId = linkedAccountId, }; } IngestionServiceClient ingestionServiceClient = IngestionServiceClient.Create(); int requestCount = 0; // Batches requests to send up to the maximum number of audience members per request. for (var i = 0; i < audienceMembers.Count; i += MaxMembersPerRequest) { IEnumerable<AudienceMember> membersBatch = audienceMembers .Skip(i) .Take(MaxMembersPerRequest); requestCount++; // Builds the request. var request = new IngestAudienceMembersRequest { Destinations = { destinationBuilder }, // Adds members from the current batch. AudienceMembers = { membersBatch }, Consent = new Consent { AdPersonalization = ConsentStatus.ConsentGranted, AdUserData = ConsentStatus.ConsentGranted, }, // Sets validate_only. If true, then the Data Manager API only validates the // request but doesn't apply changes. ValidateOnly = validateOnly, Encoding = V1.Encoding.Hex, TermsOfService = new TermsOfService { CustomerMatchTermsOfServiceStatus = TermsOfServiceStatus.Accepted, }, }; // Logs the request. Console.WriteLine($"Request #{requestCount}:\n{request}"); // Sends the data to the Data Manager API. IngestAudienceMembersResponse response = ingestionServiceClient.IngestAudienceMembers(request); Console.WriteLine($"Response for request #{requestCount}:\n{response}"); } Console.WriteLine($"# of requests sent: {requestCount}"); } private class Member { public List<string> Emails { get; set; } = new List<string>(); public List<string> PhoneNumbers { get; set; } = new List<string>(); public List<IpInfo> IpInfos { get; set; } = new List<IpInfo>(); public class IpInfo { public string? IpAddress { get; set; } public string? ObserveStartTime { get; set; } public string? ObserveEndTime { get; set; } } } private List<Member> ReadMemberData(string jsonFile) { string jsonString = File.ReadAllText(jsonFile); var options = new JsonSerializerOptions { PropertyNameCaseInsensitive = true }; return JsonSerializer.Deserialize<List<Member>>(jsonString, options) ?? new List<Member>(); } } }
Java
// Copyright 2025 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package com.google.ads.datamanager.samples; import com.beust.jcommander.Parameter; import com.google.ads.datamanager.samples.common.BaseParamsConfig; import com.google.ads.datamanager.util.Encrypter; import com.google.ads.datamanager.util.UserDataFormatter; import com.google.ads.datamanager.util.UserDataFormatter.Encoding; import com.google.ads.datamanager.v1.AudienceMember; import com.google.ads.datamanager.v1.CompositeData; import com.google.ads.datamanager.v1.Consent; import com.google.ads.datamanager.v1.ConsentStatus; import com.google.ads.datamanager.v1.Destination; import com.google.ads.datamanager.v1.EncryptionInfo; import com.google.ads.datamanager.v1.GcpWrappedKeyInfo; import com.google.ads.datamanager.v1.GcpWrappedKeyInfo.KeyType; import com.google.ads.datamanager.v1.IngestAudienceMembersRequest; import com.google.ads.datamanager.v1.IngestAudienceMembersResponse; import com.google.ads.datamanager.v1.IngestionServiceClient; import com.google.ads.datamanager.v1.IpData; import com.google.ads.datamanager.v1.ProductAccount; import com.google.ads.datamanager.v1.ProductAccount.AccountType; import com.google.ads.datamanager.v1.TermsOfService; import com.google.ads.datamanager.v1.TermsOfServiceStatus; import com.google.ads.datamanager.v1.UserData; import com.google.ads.datamanager.v1.UserIdentifier; import com.google.common.base.Strings; import com.google.common.collect.Lists; import com.google.common.reflect.TypeToken; import com.google.gson.GsonBuilder; import com.google.protobuf.util.Timestamps; import java.io.BufferedReader; import java.io.IOException; import java.lang.reflect.Type; import java.nio.charset.StandardCharsets; import java.nio.file.Files; import java.nio.file.Paths; import java.security.GeneralSecurityException; import java.text.ParseException; import java.util.ArrayList; import java.util.List; import java.util.logging.Level; import java.util.logging.Logger; /** * Sends an {@link IngestAudienceMembersRequest} with the option to use encryption. * * <p>User data is read from a data file. See the {@code audience_members_1.json} file in the {@code * resources/sampledata} directory for a sample file. */ public class IngestAudienceMembers { private static final Logger LOGGER = Logger.getLogger(IngestAudienceMembers.class.getName()); /** The maximum number of audience members allowed per request. */ private static final int MAX_MEMBERS_PER_REQUEST = 10_000; private static final class ParamsConfig extends BaseParamsConfig<ParamsConfig> { @Parameter( names = "--operatingAccountType", required = true, description = "Account type of the operating account") AccountType operatingAccountType; @Parameter( names = "--operatingAccountId", required = true, description = "ID of the operating account") String operatingAccountId; @Parameter( names = "--loginAccountType", required = false, description = "Account type of the login account") AccountType loginAccountType; @Parameter( names = "--loginAccountId", required = false, description = "ID of the login account") String loginAccountId; @Parameter( names = "--linkedAccountType", required = false, description = "Account type of the linked account") AccountType linkedAccountType; @Parameter( names = "--linkedAccountId", required = false, description = "ID of the linked account") String linkedAccountId; @Parameter(names = "--audienceId", required = true, description = "ID of the audience") String audienceId; @Parameter( names = "--jsonFile", required = true, description = "JSON file containing user data to ingest") String jsonFile; @Parameter( names = "--keyUri", required = false, description = "URI of the Google Cloud KMS key for encrypting data. If this parameter is set, you" + " must also set the --wipProvider parameter.") String keyUri; @Parameter( names = "--wipProvider", required = false, description = "Workload Identity Pool provider name for encrypting data. If this parameter is set," + " you must also set the --keyUri parameter. The argument for this parameter must" + " follow the pattern:" + " projects/PROJECT_ID/locations/global/workloadIdentityPools/WIP_ID/providers/PROVIDER_ID") String wipProvider; @Parameter( names = "--validateOnly", required = false, arity = 1, description = "Whether to enable validateOnly on the request") boolean validateOnly = true; } public static void main(String[] args) throws IOException, GeneralSecurityException { ParamsConfig paramsConfig = new ParamsConfig().parseOrExit(args); if ((paramsConfig.loginAccountId == null) != (paramsConfig.loginAccountType == null)) { throw new IllegalArgumentException( "Must specify either both or neither of login account ID and login account type"); } if ((paramsConfig.linkedAccountId == null) != (paramsConfig.linkedAccountType == null)) { throw new IllegalArgumentException( "Must specify either both or neither of linked account ID and linked account type"); } if ((paramsConfig.keyUri == null) != (paramsConfig.wipProvider == null)) { throw new IllegalArgumentException( "Must specify either both or neither of key URI and WIP provider"); } new IngestAudienceMembers().runExample(paramsConfig); } /** * Runs the example. * * @param params the parameters for the example */ private void runExample(ParamsConfig params) throws IOException, GeneralSecurityException { // Reads member data from the data file. List<Member> memberList = readMemberData(params.jsonFile); // Gets an instance of the UserDataFormatter for normalizing and formatting the data. UserDataFormatter userDataFormatter = UserDataFormatter.create(); // Determines if encryption parameters are set. boolean useEncryption = (params.keyUri != null && params.wipProvider != null); Encrypter encrypter = null; if (useEncryption) { // Gets an instance of the encryption utility. encrypter = Encrypter.createForGcpKms(params.keyUri, null); } // Builds the audience_members collection for the request. List<AudienceMember> audienceMembers = new ArrayList<>(); for (Member member : memberList) { // Creates a builder for CompositeData to add user data and/or IP address information. CompositeData.Builder compositeDataBuilder = CompositeData.newBuilder(); // Creates a builder for user data for hashed emails and phone numbers. UserData.Builder userDataBuilder = compositeDataBuilder.getUserDataBuilder(); // Adds a UserIdentifier for each valid email address for the member. for (String email : member.emails) { String processedEmail; try { processedEmail = useEncryption ? userDataFormatter.processEmailAddress(email, Encoding.HEX, encrypter) : userDataFormatter.processEmailAddress(email, Encoding.HEX); } catch (IllegalArgumentException iae) { // Skips invalid input. continue; } // Sets the email address identifier to the encoded and possibly encrypted email hash. userDataBuilder.addUserIdentifiers( UserIdentifier.newBuilder().setEmailAddress(processedEmail)); } // Adds a UserIdentifier for each valid phone number for the member. for (String phoneNumber : member.phoneNumbers) { String processedPhoneNumber; try { processedPhoneNumber = useEncryption ? userDataFormatter.processPhoneNumber(phoneNumber, Encoding.HEX, encrypter) : userDataFormatter.processPhoneNumber(phoneNumber, Encoding.HEX); } catch (IllegalArgumentException iae) { // Skips invalid input. continue; } // Sets the phone number identifier to the encoded and possibly encrypted phone number // hash. userDataBuilder.addUserIdentifiers( UserIdentifier.newBuilder().setPhoneNumber(processedPhoneNumber)); } // Adds IP address information for each valid entry for the member. for (Member.IpInfo ipInfo : member.ipInfos) { if (!AccountType.GOOGLE_ADS.equals(params.operatingAccountType)) { LOGGER.log( Level.INFO, "Skipping IP address information for operating account type {0}. " + "Sending IP address is only supported for operating account type {1}.", new Object[] {params.operatingAccountType, AccountType.GOOGLE_ADS}); } // Trims leading and trailing whitespace from the IP address. String processedIpAddress = Strings.nullToEmpty(ipInfo.ipAddress).trim(); if (processedIpAddress.isEmpty()) { // Skips the IP information from the input file since it is missing IP address, which is // required. LOGGER.info("Skipping IP address information with no IP address"); continue; } // Creates an IpData builder and sets its IP address. IpData.Builder ipDataBuilder = compositeDataBuilder.addIpDataBuilder().setIpAddress(processedIpAddress); // Adds observe start time to the IpData if present and in the expected timestamp format. String startTimeString = Strings.nullToEmpty(ipInfo.observeStartTime).trim(); if (!startTimeString.isEmpty()) { try { ipDataBuilder.setObserveStartTime(Timestamps.parse(startTimeString)); } catch (ParseException e) { LOGGER.log( Level.INFO, "Ignoring observe start time '{0} since it can't be parsed", startTimeString); } } // Adds observe end time to the IpData if present and in the expected timestamp format. String endTimeString = Strings.nullToEmpty(ipInfo.observeEndTime).trim(); if (!endTimeString.isEmpty()) { try { ipDataBuilder.setObserveEndTime(Timestamps.parse(endTimeString)); } catch (ParseException e) { LOGGER.log( Level.INFO, "Ignoring observe end time '{0}' since it can't be parsed", endTimeString); } } } if (userDataBuilder.getUserIdentifiersCount() > 0 || compositeDataBuilder.getIpDataCount() > 0) { // Adds the CompositeData containing user data, IP address information, or both. audienceMembers.add( AudienceMember.newBuilder().setCompositeData(compositeDataBuilder).build()); } } // Builds the Destination for the request. Destination.Builder destinationBuilder = Destination.newBuilder() .setOperatingAccount( ProductAccount.newBuilder() .setAccountType(params.operatingAccountType) .setAccountId(params.operatingAccountId)) .setProductDestinationId(params.audienceId); if (params.loginAccountType != null && params.loginAccountId != null) { destinationBuilder.setLoginAccount( ProductAccount.newBuilder() .setAccountType(params.loginAccountType) .setAccountId(params.loginAccountId)); } if (params.linkedAccountType != null && params.linkedAccountId != null) { destinationBuilder.setLinkedAccount( ProductAccount.newBuilder() .setAccountType(params.linkedAccountType) .setAccountId(params.linkedAccountId)); } // Configures the EncryptionInfo for the request if encryption parameters provided. EncryptionInfo encryptionInfo = null; if (useEncryption) { encryptionInfo = EncryptionInfo.newBuilder() .setGcpWrappedKeyInfo( GcpWrappedKeyInfo.newBuilder() .setKekUri(params.keyUri) .setWipProvider(params.wipProvider) .setKeyType(KeyType.XCHACHA20_POLY1305) // Sets the encrypted_dek field to the Base64-encoded encrypted DEK. .setEncryptedDek( userDataFormatter.base64Encode( encrypter.getEncryptedDek().toByteArray()))) .build(); } try (IngestionServiceClient ingestionServiceClient = IngestionServiceClient.create()) { int requestCount = 0; // Batches requests to send up to the maximum number of audience members per request. for (List<AudienceMember> audienceMembersBatch : Lists.partition(audienceMembers, MAX_MEMBERS_PER_REQUEST)) { requestCount++; // Builds the request. IngestAudienceMembersRequest.Builder requestBuilder = IngestAudienceMembersRequest.newBuilder() .addDestinations(destinationBuilder) // Adds members from the current batch. .addAllAudienceMembers(audienceMembersBatch) .setConsent( Consent.newBuilder() .setAdPersonalization(ConsentStatus.CONSENT_GRANTED) .setAdUserData(ConsentStatus.CONSENT_GRANTED)) // Sets validate_only. If true, then the Data Manager API only validates the request // but doesn't apply changes. .setValidateOnly(params.validateOnly) // Sets encoding to match the encoding used. .setEncoding(com.google.ads.datamanager.v1.Encoding.HEX) .setTermsOfService( TermsOfService.newBuilder() .setCustomerMatchTermsOfServiceStatus(TermsOfServiceStatus.ACCEPTED)); if (useEncryption) { // Sets encryption info on the request. requestBuilder.setEncryptionInfo(encryptionInfo); } // Builds and logs the request. IngestAudienceMembersRequest request = requestBuilder.build(); if (LOGGER.isLoggable(Level.INFO)) { LOGGER.info(String.format("Request #%d:%n%s", requestCount, request)); } // Sends the request. IngestAudienceMembersResponse response = ingestionServiceClient.ingestAudienceMembers(request); // Logs the response. if (LOGGER.isLoggable(Level.INFO)) { LOGGER.info(String.format("Response for request #%d:%n%s", requestCount, response)); } } LOGGER.info("# of requests sent: " + requestCount); } } /** Data object for a single row of input data. */ @SuppressWarnings("unused") private static class Member { private List<String> emails = new ArrayList<>(); private List<String> phoneNumbers = new ArrayList<>(); private List<IpInfo> ipInfos = new ArrayList<>(); private static class IpInfo { private String ipAddress; private String observeStartTime; private String observeEndTime; } } /** * Reads the data file and parses it into a list of {@link IngestAudienceMembers.Member} objects. * * @param jsonFile the JSON data file * @return a list of Member objects */ private List<Member> readMemberData(String jsonFile) throws IOException { try (BufferedReader jsonReader = Files.newBufferedReader(Paths.get(jsonFile), StandardCharsets.UTF_8)) { // Define the type for Gson to deserialize into (List of Member objects) Type recordListType = new TypeToken<ArrayList<Member>>() {}.getType(); // Parse the JSON string from the file into a List of Member objects return new GsonBuilder().create().fromJson(jsonReader, recordListType); } } }
Nœud
#!/usr/bin/env node // Copyright 2025 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // https://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. 'use strict'; import {IngestionServiceClient} from '@google-ads/datamanager'; import {protos} from '@google-ads/datamanager'; const { AudienceMember, CompositeData, Destination, Encoding: DataManagerEncoding, Consent, ConsentStatus, IngestAudienceMembersRequest, IpData, ProductAccount, TermsOfService, TermsOfServiceStatus, UserData, UserIdentifier, } = protos.google.ads.datamanager.v1; import {UserDataFormatter, Encoding} from '@google-ads/data-manager-util'; import * as fs from 'fs'; import * as yargs from 'yargs'; const MAX_MEMBERS_PER_REQUEST = 10000; interface Arguments { operating_account_type: string; operating_account_id: string; audience_id: string; json_file: string; validate_only: boolean; login_account_type?: string; login_account_id?: string; linked_account_type?: string; linked_account_id?: string; [x: string]: unknown; } interface MemberRow { emails?: string[]; phoneNumbers?: string[]; ipInfos?: { ipAddress: string; observeStartTime?: string; observeEndTime?: string; }[]; } /** * The main function for the IngestAudienceMembers sample. */ async function main() { const argv: Arguments = yargs .option('operating_account_type', { describe: 'The account type of the operating account.', type: 'string', required: true, }) .option('operating_account_id', { describe: 'The ID of the operating account.', type: 'string', required: true, }) .option('audience_id', { describe: 'The ID of the destination audience.', type: 'string', required: true, }) .option('json_file', { describe: 'JSON file containing user data to ingest.', type: 'string', required: true, }) .option('validate_only', { describe: 'Whether to enable validate_only on the request.', type: 'boolean', default: true, }) .option('login_account_type', { describe: 'The account type of the login account.', type: 'string', }) .option('login_account_id', { describe: 'The ID of the login account.', type: 'string', }) .option('linked_account_type', { describe: 'The account type of the linked account.', type: 'string', }) .option('linked_account_id', { describe: 'The ID of the linked account.', type: 'string', }) .option('config', { describe: 'Path to a JSON file with arguments.', type: 'string', }) .config('config') .check((args: Arguments) => { if ( (args.login_account_type && !args.login_account_id) || (!args.login_account_type && args.login_account_id) ) { throw new Error( 'Must specify either both or neither of login account type and ' + 'login account ID', ); } if ( (args.linked_account_type && !args.linked_account_id) || (!args.linked_account_type && args.linked_account_id) ) { throw new Error( 'Must specify either both or neither of linked account ' + 'type and linked account ID', ); } return true; }) .parseSync(); const formatter = new UserDataFormatter(); const memberRows: MemberRow[] = await readMemberData(argv.json_file); // Converts the operating account type argument to the corresponding enum // so IP address checks can compare enums to enums. const operatingAccountType = convertToAccountType( argv.operating_account_type, 'operating_account_type', ); // Builds the audience_members collection for the request. const audienceMembers = []; for (const memberRow of memberRows) { const userData = UserData.create(); // Adds a UserIdentifier for each valid email address for the member. for (const email of memberRow.emails || []) { try { const processedEmail = formatter.processEmailAddress( email, Encoding.HEX, ); userData.userIdentifiers.push( UserIdentifier.create({emailAddress: processedEmail}), ); } catch (e) { // Skip invalid input. } } // Adds a UserIdentifier for each valid phone number for the member. for (const phone of memberRow.phoneNumbers || []) { try { const processedPhone = formatter.processPhoneNumber( phone, Encoding.HEX, ); userData.userIdentifiers.push( UserIdentifier.create({phoneNumber: processedPhone}), ); } catch (e) { // Skip invalid input. } } // Process IP address information const ipDatas = []; for (const ipInfo of memberRow.ipInfos || []) { if (operatingAccountType !== ProductAccount.AccountType.GOOGLE_ADS) { console.log( `Skipping IP address information for operating account type ${operatingAccountType}. ` + 'Sending IP address is only supported for operating account type GOOGLE_ADS.', ); continue; } const ipAddress = (ipInfo.ipAddress || '').trim(); if (!ipAddress) { console.log('Skipping IP address information with no IP address'); continue; } const ipData = IpData.create({ipAddress}); if (ipInfo.observeStartTime) { const startTimeStr = ipInfo.observeStartTime.trim(); if (startTimeStr) { try { const date = new Date(startTimeStr); if (isNaN(date.getTime())) { throw new Error('Invalid date'); } ipData.observeStartTime = { seconds: Math.floor(date.getTime() / 1000), nanos: (date.getTime() % 1000) * 1e6, }; } catch (e) { console.log( `Ignoring observe start time '${startTimeStr}' since it can't be parsed`, ); } } } if (ipInfo.observeEndTime) { const endTimeStr = ipInfo.observeEndTime.trim(); if (endTimeStr) { try { const date = new Date(endTimeStr); if (isNaN(date.getTime())) { throw new Error('Invalid date'); } ipData.observeEndTime = { seconds: Math.floor(date.getTime() / 1000), nanos: (date.getTime() % 1000) * 1e6, }; } catch (e) { console.log( `Ignoring observe end time '${endTimeStr}' since it can't be parsed`, ); } } } ipDatas.push(ipData); } if (userData.userIdentifiers.length > 0 || ipDatas.length > 0) { const compositeData = CompositeData.create(); if (userData.userIdentifiers.length > 0) { compositeData.userData = userData; } if (ipDatas.length > 0) { compositeData.ipData = ipDatas; } audienceMembers.push(AudienceMember.create({compositeData})); } else { console.warn('Ignoring line. No data.'); } } const destination = Destination.create({ operatingAccount: ProductAccount.create({ accountType: operatingAccountType, accountId: argv.operating_account_id, }), productDestinationId: argv.audience_id, }); // The login account is optional. if (argv.login_account_type) { const loginAccountType = convertToAccountType( argv.login_account_type, 'login_account_type', ); destination.loginAccount = ProductAccount.create({ accountType: loginAccountType, accountId: argv.login_account_id, }); } // The linked account is optional. if (argv.linked_account_type) { const linkedAccountType = convertToAccountType( argv.linked_account_type, 'linked_account_type', ); destination.linkedAccount = ProductAccount.create({ accountType: linkedAccountType, accountId: argv.linked_account_id, }); } const client = new IngestionServiceClient(); let requestCount = 0; // Batches requests to send up to the maximum number of audience members per request. for (let i = 0; i < audienceMembers.length; i += MAX_MEMBERS_PER_REQUEST) { requestCount++; const audienceMembersBatch = audienceMembers.slice( i, i + MAX_MEMBERS_PER_REQUEST, ); const request = IngestAudienceMembersRequest.create({ destinations: [destination], // Adds members from the current batch. audienceMembers: audienceMembersBatch, consent: Consent.create({ adUserData: ConsentStatus.CONSENT_GRANTED, adPersonalization: ConsentStatus.CONSENT_GRANTED, }), termsOfService: TermsOfService.create({ customerMatchTermsOfServiceStatus: TermsOfServiceStatus.ACCEPTED, }), // Sets encoding to match the encoding used. encoding: DataManagerEncoding.HEX, // Sets validate_only. If true, then the Data Manager API only validates the request // but doesn't apply changes. validateOnly: argv.validate_only, }); console.log(`Request #${requestCount}:\n `, request); const [response] = await client.ingestAudienceMembers(request); console.log(`Response for request #${requestCount}:\n `, response); } console.log(`# of requests sent: ${requestCount}`); } /** * Reads the user data from the given JSON file. * @param {string} jsonFile The path to the JSON file. * @return {Promise<MemberRow[]>} A promise that resolves with an array of user data. */ async function readMemberData(jsonFile: string): Promise<MemberRow[]> { const data = await fs.promises.readFile(jsonFile, 'utf8'); return JSON.parse(data) as MemberRow[]; } /** * Validates that a given string is an enum value for the AccountType enum, and * if validation passes, returns the AccountType enum value. * @param proposedValue the name of an AccountType enum value * @param paramName the name of the parameter to use in the error message if validation fails * @returns {protos.google.ads.datamanager.v1.ProductAccount.AccountType} The corresponding enum value. * @throws {Error} If the string is not an AccountType enum value. */ function convertToAccountType( proposedValue: string, paramName: string, ): protos.google.ads.datamanager.v1.ProductAccount.AccountType { const AccountType = ProductAccount.AccountType; const accountTypeEnumNames = Object.keys(AccountType).filter(key => isNaN(Number(key)), ); if (!accountTypeEnumNames.includes(proposedValue)) { throw new Error(`Invalid ${paramName}: ${proposedValue}`); } return AccountType[proposedValue as keyof typeof AccountType]; } if (require.main === module) { main().catch(console.error); }
PHP
<?php // Copyright 2025 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // https://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. /** * Sample of sending an IngestAudienceMembersRequest without encryption. */ require_once dirname(__DIR__, 1) . '/vendor/autoload.php'; use Google\Ads\DataManager\V1\AudienceMember; use Google\Ads\DataManager\V1\Client\IngestionServiceClient; use Google\Ads\DataManager\V1\CompositeData; use Google\Ads\DataManager\V1\Consent; use Google\Ads\DataManager\V1\ConsentStatus; use Google\Ads\DataManager\V1\Destination; use Google\Ads\DataManager\V1\Encoding as DataManagerEncoding; use Google\Ads\DataManager\V1\IngestAudienceMembersRequest; use Google\Ads\DataManager\V1\IpData; use Google\Ads\DataManager\V1\ProductAccount; use Google\Ads\DataManager\V1\ProductAccount\AccountType; use Google\Ads\DataManager\V1\TermsOfService; use Google\Ads\DataManager\V1\TermsOfServiceStatus; use Google\Ads\DataManager\V1\UserData; use Google\Ads\DataManager\V1\UserIdentifier; use Google\Ads\DataManagerUtil\Encoding; use Google\Ads\DataManagerUtil\Formatter; use Google\ApiCore\ApiException; use Google\Protobuf\Timestamp; /** * Reads the JSON member data file. * * @param string $jsonFile The member data file. Expected format is a JSON array of * objects, where each object can contain "emails" and "phoneNumbers" arrays. * @return array A list of associative arrays, each representing a member. */ function readMemberData(string $jsonFile): array { $content = file_get_contents($jsonFile); if ($content === false) { throw new \RuntimeException(sprintf('Could not read JSON file: %s', $jsonFile)); } $data = json_decode($content, true); if (json_last_error() !== JSON_ERROR_NONE) { throw new \RuntimeException(sprintf('Error decoding JSON: %s', json_last_error_msg())); } return $data; } /** * Runs the sample. * * @param int $operatingAccountType The account type of the operating account. * @param string $operatingAccountId The ID of the operating account. * @param string $audienceId The ID of the destination audience. * @param string $jsonFile The JSON file containing member data. * @param bool $validateOnly Whether to enable validateOnly on the request. * @param int|null $loginAccountType The account type of the login account. * @param string|null $loginAccountId The ID of the login account. * @param int|null $linkedAccountType The account type of the linked account. * @param string|null $linkedAccountId The ID of the linked account. */ function main( int $operatingAccountType, string $operatingAccountId, string $audienceId, string $jsonFile, bool $validateOnly, ?int $loginAccountType = null, ?string $loginAccountId = null, ?int $linkedAccountType = null, ?string $linkedAccountId = null ): void { // Reads member data from the data file. $memberRows = readMemberData($jsonFile); // Gets an instance of the UserDataFormatter for normalizing and formatting the data. $formatter = new Formatter(); // Builds the audience_members collection for the request. $audienceMembers = []; foreach ($memberRows as $memberRow) { $identifiers = []; // Adds a UserIdentifier for each valid email address for the member. $emails = $memberRow['emails'] ?? []; foreach ($emails as $email) { try { // Formats, hashes, and encodes the email address. $processedEmail = $formatter->processEmailAddress($email, Encoding::Hex); // Sets the email address identifier to the encoded email hash. $identifiers[] = (new UserIdentifier())->setEmailAddress($processedEmail); } catch (\InvalidArgumentException $e) { // Skips invalid input. error_log(sprintf('Skipping invalid email: %s', $e->getMessage())); continue; } } // Adds a UserIdentifier for each valid phone number for the member. $phoneNumbers = $memberRow['phoneNumbers'] ?? []; foreach ($phoneNumbers as $phone) { try { // Formats, hashes, and encodes the phone number. $processedPhone = $formatter->processPhoneNumber($phone, Encoding::Hex); // Sets the phone number identifier to the encoded phone number hash. $identifiers[] = (new UserIdentifier())->setPhoneNumber($processedPhone); } catch (\InvalidArgumentException $e) { // Skips invalid input. error_log(sprintf('Skipping invalid phone: %s', $e->getMessage())); continue; } } // Adds IP address information for each valid entry for the member. $ipDatas = []; $ipInfos = $memberRow['ipInfos'] ?? []; foreach ($ipInfos as $ipInfo) { if ($operatingAccountType !== AccountType::GOOGLE_ADS) { error_log(sprintf( 'Skipping IP address information for operating account type %s. ' . 'Sending IP address is only supported for operating account type GOOGLE_ADS.', AccountType::name($operatingAccountType) )); continue; } // Trims leading and trailing whitespace from the IP address. $ipAddress = trim($ipInfo['ipAddress'] ?? ''); if (empty($ipAddress)) { // Skips the IP information from the input file since it is missing IP address, which is // required. error_log('Skipping IP address information with no IP address'); continue; } // Creates an IpData message and sets its IP address. $ipData = (new IpData())->setIpAddress($ipAddress); // Adds observe start time to the IpData if present and in the expected timestamp format. $startTimeStr = trim($ipInfo['observeStartTime'] ?? ''); if (!empty($startTimeStr)) { try { $startTime = new Timestamp(); $startTime->fromDateTime(new \DateTime($startTimeStr)); $ipData->setObserveStartTime($startTime); } catch (\Exception $e) { error_log(sprintf("Ignoring observe start time '%s' since it can't be parsed", $startTimeStr)); } } // Adds observe end time to the IpData if present and in the expected timestamp format. $endTimeStr = trim($ipInfo['observeEndTime'] ?? ''); if (!empty($endTimeStr)) { try { $endTime = new Timestamp(); $endTime->fromDateTime(new \DateTime($endTimeStr)); $ipData->setObserveEndTime($endTime); } catch (\Exception $e) { error_log(sprintf("Ignoring observe end time '%s' since it can't be parsed", $endTimeStr)); } } $ipDatas[] = $ipData; } if (!empty($identifiers) || !empty($ipDatas)) { $compositeData = new CompositeData(); if (!empty($identifiers)) { $userData = (new UserData())->setUserIdentifiers($identifiers); $compositeData->setUserData($userData); } if (!empty($ipDatas)) { $compositeData->setIpData($ipDatas); } // Adds an AudienceMember with the CompositeData. $audienceMember = (new AudienceMember())->setCompositeData($compositeData); $audienceMembers[] = $audienceMember; } } // Builds the destination for the request. $destination = new Destination(); $destination->setOperatingAccount(new ProductAccount() ->setAccountType($operatingAccountType) ->setAccountId($operatingAccountId)); if ($loginAccountType !== null && $loginAccountId !== null) { $destination->setLoginAccount(new ProductAccount() ->setAccountType($loginAccountType) ->setAccountId($loginAccountId)); } if ($linkedAccountType !== null && $linkedAccountId !== null) { $destination->setLinkedAccount(new ProductAccount() ->setAccountType($linkedAccountType) ->setAccountId($linkedAccountId)); } $destination->setProductDestinationId($audienceId); // Builds the request. $request = (new IngestAudienceMembersRequest()) ->setDestinations([$destination]) ->setAudienceMembers($audienceMembers) ->setConsent((new Consent()) ->setAdUserData(ConsentStatus::CONSENT_GRANTED) ->setAdPersonalization(ConsentStatus::CONSENT_GRANTED) ) ->setTermsOfService((new TermsOfService()) ->setCustomerMatchTermsOfServiceStatus(TermsOfServiceStatus::ACCEPTED) ) // Sets encoding to match the encoding used. ->setEncoding(DataManagerEncoding::HEX) // Sets validate_only to true to validate but not apply the changes in the request. ->setValidateOnly(true); // Creates a client for the ingestion service. $client = new IngestionServiceClient(); try { // Logs the request. echo "Request:\n" . json_encode(json_decode($request->serializeToJsonString()), JSON_PRETTY_PRINT) . "\n"; // Sends the request. $response = $client->ingestAudienceMembers($request); echo "Response:\n" . json_encode(json_decode($response->serializeToJsonString()), JSON_PRETTY_PRINT) . "\n"; } catch (ApiException $e) { echo 'Error sending request: ' . $e->getMessage() . "\n"; } finally { $client->close(); } } // Command-line argument parsing $options = getopt( '', [ 'operating_account_type:', 'operating_account_id:', 'login_account_type::', 'login_account_id::', 'linked_account_type::', 'linked_account_id::', 'audience_id:', 'json_file:', 'validate_only::' ] ); $operatingAccountType = $options['operating_account_type'] ?? null; $operatingAccountId = $options['operating_account_id'] ?? null; $audienceId = $options['audience_id'] ?? null; $jsonFile = $options['json_file'] ?? null; // Only validates requests by default. $validateOnly = true; if (array_key_exists('validate_only', $options)) { $value = $options['validate_only']; // `getopt` with `::` returns boolean `false` if the option is passed without a value. if ($value === false || !in_array($value, ['true', 'false'], true)) { echo "Error: --validate_only requires a value of 'true' or 'false'.\n"; exit(1); } $validateOnly = ($value === 'true'); } if (empty($operatingAccountType) || empty($operatingAccountId) || empty($audienceId) || empty($jsonFile)) { echo 'Usage: php ingest_audience_members.php ' . '--operating_account_type=<account_type> ' . '--operating_account_id=<account_id> ' . '--audience_id=<audience_id> ' . "--json_file=<path_to_json>\n" . 'Optional: --login_account_type=<account_type> --login_account_id=<account_id> ' . '--linked_account_type=<account_type> --linked_account_id=<account_id> ' . "--validate_only=<true|false>\n"; exit(1); } // Converts the operating account type string to an AccountType enum. $parsedOperatingAccountType = AccountType::value($operatingAccountType); if (isset($options['login_account_type']) != isset($options['login_account_id'])) { throw new \InvalidArgumentException( 'Must specify either both or neither of login account type and login account ID' ); } $parsedLoginAccountType = null; if (isset($options['login_account_type'])) { // Converts the login account type string to an AccountType enum. $parsedLoginAccountType = AccountType::value($options['login_account_type']); } if (isset($options['linked_account_type']) != isset($options['linked_account_id'])) { throw new \InvalidArgumentException( 'Must specify either both or neither of linked account type and linked account ID' ); } $parsedLinkedAccountType = null; if (isset($options['linked_account_type'])) { // Converts the linked account type string to an AccountType enum. $parsedLinkedAccountType = AccountType::value($options['linked_account_type']); } main( $parsedOperatingAccountType, $operatingAccountId, $audienceId, $jsonFile, $validateOnly, $parsedLoginAccountType, $options['login_account_id'] ?? null, $parsedLinkedAccountType, $options['linked_account_id'] ?? null );
Python
#!/usr/bin/env python # Copyright 2025 Google LLC # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # https://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Sample of sending an IngestAudienceMembersRequest with the option to use encryption.""" import argparse import json import logging from typing import Any, Dict, List, Optional from google.ads import datamanager_v1 from google.ads.datamanager_util import Encrypter from google.ads.datamanager_util import Formatter from google.ads.datamanager_util.format import Encoding from google.protobuf.timestamp_pb2 import Timestamp _logger = logging.getLogger(__name__) # The maximum number of audience members allowed per request. _MAX_MEMBERS_PER_REQUEST = 10_000 def main( operating_account_type: str, operating_account_id: str, audience_id: str, json_file: str, validate_only: bool, login_account_type: Optional[str] = None, login_account_id: Optional[str] = None, linked_account_type: Optional[str] = None, linked_account_id: Optional[str] = None, key_uri: str = None, wip_provider: str = None, ) -> None: """Runs the sample. Args: operating_account_type: the account type of the operating account. operating_account_id: the ID of the operating account. audience_id: the ID of the destination audience. json_file: the JSON file containing member data. validate_only: whether to enable validate_only on the request. login_account_type: the account type of the login account. login_account_id: the ID of the login account. linked_account_type: the account type of the linked account. linked_account_id: the ID of the linked account. key_uri: the URI of the Google Cloud KMS key. wip_provider: the Workload Identity Pool provider name. Must follow the pattern: projects/PROJECT_ID/locations/global/workloadIdentityPools/WIP_ID/providers/PROVIDER_ID """ # Validates parameter pairs. if bool(login_account_type) != bool(login_account_id): raise ValueError( "Must specify either both or neither of login account type and login account ID" ) if bool(linked_account_type) != bool(linked_account_id): raise ValueError( "Must specify either both or neither of linked account type and linked account ID" ) if bool(key_uri) != bool(wip_provider): raise ValueError( "Must specify either both or neither of key URI and WIP provider" ) # Gets an instance of the formatter. formatter: Formatter = Formatter() # Determines if encryption parameters are set. use_encryption: bool = key_uri and wip_provider encrypter: Encrypter = None if use_encryption: # Creates an instance of the encryption utility. encrypter = Encrypter.create_for_gcp_kms(key_uri) # Reads the input file. member_rows: List[Dict[str, Any]] = read_member_data(json_file) audience_members: List[datamanager_v1.AudienceMember] = [] member_row: Dict[str, Any] for member_row in member_rows: composite_data = datamanager_v1.CompositeData() user_data = datamanager_v1.UserData() email: str for email in member_row.get("emails", []): try: processed_email: str = formatter.process_email_address( email, Encoding.HEX, encrypter ) user_data.user_identifiers.append( datamanager_v1.UserIdentifier(email_address=processed_email) ) except ValueError: # Skips invalid input. continue phone: str for phone in member_row.get("phoneNumbers", []): try: processed_phone: str = formatter.process_phone_number( phone, Encoding.HEX, encrypter ) user_data.user_identifiers.append( datamanager_v1.UserIdentifier(phone_number=processed_phone) ) except ValueError: # Skips invalid input. continue for ip_info in member_row.get("ipInfos", []): if ( operating_account_type != datamanager_v1.ProductAccount.AccountType.GOOGLE_ADS.name ): _logger.info( "Skipping IP address information for operating account type %s. " "Sending IP address is only supported for operating account type GOOGLE_ADS.", operating_account_type, ) continue ip_address = ip_info.get("ipAddress", "").strip() if not ip_address: _logger.info( "Skipping IP address information with no IP address" ) continue ip_data = datamanager_v1.IpData(ip_address=ip_address) start_time_str = ip_info.get("observeStartTime", "").strip() if start_time_str: try: start_time = Timestamp() start_time.FromJsonString(start_time_str) ip_data.observe_start_time = start_time except ValueError: _logger.info( "Ignoring observe start time '%s' since it can't be parsed", start_time_str, ) end_time_str = ip_info.get("observeEndTime", "").strip() if end_time_str: try: end_time = Timestamp() end_time.FromJsonString(end_time_str) ip_data.observe_end_time = end_time except ValueError: _logger.info( "Ignoring observe end time '%s' since it can't be parsed", end_time_str, ) composite_data.ip_data.append(ip_data) if user_data.user_identifiers or composite_data.ip_data: if user_data.user_identifiers: composite_data.user_data = user_data audience_member = datamanager_v1.AudienceMember( composite_data=composite_data ) audience_members.append(audience_member) # Configures the destination. destination: datamanager_v1.Destination = datamanager_v1.Destination() destination.operating_account.account_type = operating_account_type destination.operating_account.account_id = operating_account_id if login_account_type or login_account_id: destination.login_account.account_type = login_account_type destination.login_account.account_id = login_account_id if linked_account_type or linked_account_id: destination.linked_account.account_type = linked_account_type destination.linked_account.account_id = linked_account_id destination.product_destination_id = audience_id # Configures the EncryptionInfo for the request if encryption parameters provided. if use_encryption: encryption_info: datamanager_v1.EncryptionInfo = ( datamanager_v1.EncryptionInfo( gcp_wrapped_key_info=datamanager_v1.GcpWrappedKeyInfo( kek_uri=key_uri, wip_provider=wip_provider, key_type=datamanager_v1.GcpWrappedKeyInfo.KeyType.XCHACHA20_POLY1305, # Sets the encrypted_dek field to the Base64-encoded encrypted DEK. encrypted_dek=formatter.base64_encode( encrypter.encrypted_dek_bytes ), ) ) ) # Creates a client for the ingestion service. client: datamanager_v1.IngestionServiceClient = ( datamanager_v1.IngestionServiceClient() ) # Batches requests to send up to the maximum number of audience members per # request. request_count = 0 for i in range(0, len(audience_members), _MAX_MEMBERS_PER_REQUEST): request_count += 1 audience_members_batch = audience_members[ i : i + _MAX_MEMBERS_PER_REQUEST ] # Sends the request. request: datamanager_v1.IngestAudienceMembersRequest = ( datamanager_v1.IngestAudienceMembersRequest( destinations=[destination], # Adds members from the current batch. audience_members=audience_members_batch, consent=datamanager_v1.Consent( ad_user_data=datamanager_v1.ConsentStatus.CONSENT_GRANTED, ad_personalization=datamanager_v1.ConsentStatus.CONSENT_GRANTED, ), terms_of_service=datamanager_v1.TermsOfService( customer_match_terms_of_service_status=datamanager_v1.TermsOfServiceStatus.ACCEPTED, ), # Sets encoding to match the encoding used. encoding=datamanager_v1.Encoding.HEX, # Sets validate_only. If true, then the Data Manager API only # validates the request but doesn't apply changes. validate_only=validate_only, ) ) if use_encryption: # Sets encryption info on the request. request.encryption_info = encryption_info # Logs the request. _logger.info("Request #%d:\n%s", request_count, request) # Sends the request. response: datamanager_v1.IngestAudienceMembersResponse = ( client.ingest_audience_members(request=request) ) # Logs the response. _logger.info("Response for request #%d:\n%s", request_count, response) _logger.info("# of requests sent: %d", request_count) def read_member_data(json_file: str) -> List[Dict[str, Any]]: """Reads the JSON member data file. Args: json_file: the member data file. Expected format is a JSON array of objects, where each object can contain "emails" and "phoneNumbers" arrays. """ with open(json_file, "r") as f: return json.load(f) if __name__ == "__main__": # Configures logging. logging.basicConfig(level=logging.INFO) parser = argparse.ArgumentParser( description=( "Sends audience members from a CSV file to a destination." ), fromfile_prefix_chars="@", ) # The following argument(s) should be provided to run the example. parser.add_argument( "--operating_account_type", type=str, required=True, help="The account type of the operating account.", ) parser.add_argument( "--operating_account_id", type=str, required=True, help="The ID of the operating account.", ) parser.add_argument( "--login_account_type", type=str, required=False, help="The account type of the login account.", ) parser.add_argument( "--login_account_id", type=str, required=False, help="The ID of the login account.", ) parser.add_argument( "--linked_account_type", type=str, required=False, help="The account type of the linked account.", ) parser.add_argument( "--linked_account_id", type=str, required=False, help="The ID of the linked account.", ) parser.add_argument( "--audience_id", type=str, required=True, help="The ID of the destination audience.", ) parser.add_argument( "--json_file", type=str, required=True, help="JSON file containing user data to ingest.", ) parser.add_argument( "--key_uri", type=str, required=False, help="URI of the Google Cloud KMS key for encrypting data. If this parameter is set, you " + "must also set the --wip_provider parameter.", ) parser.add_argument( "--wip_provider", type=str, required=False, help="Workload Identity Pool provider name for encrypting data. If this parameter is set, " + "you must also set the --key_uri parameter. The argument for this parameter must follow " + "the pattern: " + "projects/PROJECT_ID/locations/global/workloadIdentityPools/WIP_ID/providers/PROVIDER_ID", ) parser.add_argument( "--validate_only", choices=["true", "false"], default="true", help="Whether to enable validate_only on the request. Must be 'true' or 'false'. " + "Defaults to 'true'.", ) args = parser.parse_args() main( args.operating_account_type, args.operating_account_id, args.audience_id, args.json_file, args.validate_only == "true", args.login_account_type, args.login_account_id, args.linked_account_type, args.linked_account_id, args.key_uri, args.wip_provider, )
Réponses de réussite
Une requête réussie renvoie une réponse avec un objet contenant un requestId.
{
"requestId": "126365e1-16d0-4c81-9de9-f362711e250a"
}
Enregistrez le requestId renvoyé pour pouvoir récupérer les diagnostics à mesure que chaque destination de la demande est traitée.
Réponses d'échec
Une requête ayant échoué génère un code d'état de réponse d'erreur tel que 400 Bad
Request, ainsi qu'une réponse contenant des informations sur l'erreur.
Par exemple, un emailAddress contenant une chaîne de texte brut au lieu d'une valeur encodée en hexadécimal produit la réponse suivante :
{
"error": {
"code": 400,
"message": "There was a problem with the request.",
"status": "INVALID_ARGUMENT",
"details": [
{
"@type": "type.googleapis.com/google.rpc.ErrorInfo",
"reason": "INVALID_ARGUMENT",
"domain": "datamanager.googleapis.com"
},
{
"@type": "type.googleapis.com/google.rpc.BadRequest",
"fieldViolations": [
{
"field": "audience_members.audience_members[0].composite_data.user_data.user_identifiers",
"description": "Email is not hex encoded.",
"reason": "INVALID_HEX_ENCODING"
}
]
}
]
}
}
Un emailAddress non haché et uniquement encodé en hexadécimal produit la réponse suivante :
{
"error": {
"code": 400,
"message": "There was a problem with the request.",
"status": "INVALID_ARGUMENT",
"details": [
{
"@type": "type.googleapis.com/google.rpc.ErrorInfo",
"reason": "INVALID_ARGUMENT",
"domain": "datamanager.googleapis.com"
},
{
"@type": "type.googleapis.com/google.rpc.BadRequest",
"fieldViolations": [
{
"field": "audience_members.audience_members[0].composite_data.user_data",
"reason": "INVALID_SHA256_FORMAT"
}
]
}
]
}
}
Envoyer des événements pour plusieurs destinations
Si vos données contiennent des membres d'audience pour différentes destinations, vous pouvez les envoyer dans la même requête à l'aide de références de destination. Pour connaître le nombre maximal de destinations par requête, consultez Limites et quotas.
Par exemple, si vous avez un membre d'audience pour la liste d'utilisateurs dont l'ID est 11112222 et un autre membre d'audience pour la liste d'utilisateurs dont l'ID est 77778888, envoyez les deux membres d'audience dans une seule requête en définissant le reference de chaque Destination. Le reference est défini par l'utilisateur. La seule exigence est que chaque Destination possède un reference unique. Voici la liste destinations modifiée pour la demande :
Annonceur
"destinations": [
{
"operatingAccount": {
"accountType": "OPERATING_ACCOUNT_TYPE",
"accountId": "OPERATING_ACCOUNT_ID"
},
"loginAccount": {
"accountType": "LOGIN_ACCOUNT_TYPE",
"accountId": "LOGIN_ACCOUNT_ID"
},
"productDestinationId": "11112222",
"reference": "audience_1"
},
{
"operatingAccount": {
"accountType": "OPERATING_ACCOUNT_2_TYPE",
"accountId": "OPERATING_ACCOUNT_2_ID"
},
"loginAccount": {
"accountType": "LOGIN_ACCOUNT_2_TYPE",
"accountId": "LOGIN_ACCOUNT_2_ID"
},
"productDestinationId": "77778888",
"reference": "audience_2"
}
]
Partenaire pour les données
"destinations": [
{
"operatingAccount": {
"accountType": "OPERATING_ACCOUNT_TYPE",
"accountId": "OPERATING_ACCOUNT_ID"
},
"loginAccount": {
"accountType": "DATA_PARTNER",
"accountId": "DATA_PARTNER_ACCOUNT_ID"
},
"linkedAccount": {
"accountType": "LINKED_ACCOUNT_TYPE",
"accountId": "LINKED_ACCOUNT_ID"
},
"productDestinationId": "11112222",
"reference": "audience_1"
},
{
"operatingAccount": {
"accountType": "OPERATING_ACCOUNT_2_TYPE",
"accountId": "OPERATING_ACCOUNT_2_ID"
},
"loginAccount": {
"accountType": "DATA_PARTNER",
"accountId": "DATA_PARTNER_ACCOUNT_2_ID"
},
"linkedAccount": {
"accountType": "LINKED_ACCOUNT_2_TYPE",
"accountId": "LINKED_ACCOUNT_2_ID"
},
"productDestinationId": "77778888",
"reference": "audience_2"
}
]
Définissez le destination_references de chaque AudienceMember pour l'envoyer à une ou plusieurs destinations spécifiques. Par exemple, voici un AudienceMember qui ne concerne que le premier Destination. Sa liste destination_references ne contient donc que le reference du premier Destination :
{
"compositeData": {
"userData": {
"userIdentifiers": [
{
"emailAddress": "07e2f1394b0ea80e2adca010ea8318df697001a005ba7452720edda4b0ce57b3"
},
{
"emailAddress": "1df6b43bc68dd38eca94e6a65b4f466ae537b796c81a526918b40ac4a7b906c7"
}
]
}
},
"destinationReferences": [
"audience_1"
]
}
Le champ destination_references est une liste. Vous pouvez donc spécifier plusieurs destinations pour un membre de l'audience. Si vous ne définissez pas le destination_references d'un AudienceMember, l'API Data Manager envoie le membre de l'audience à toutes les destinations de la requête.
Étapes suivantes
- Configurez l'authentification et votre environnement avec une bibliothèque cliente.
- Découvrez les exigences de mise en forme, de hachage et d'encodage pour chaque type de données.
- Découvrez comment chiffrer les données utilisateur.
- Découvrez comment récupérer les diagnostics pour vos demandes.
- Découvrez les bonnes pratiques.
- En savoir plus sur les limites et les quotas