Libraries tagged by Responsive Email

Pacote responsável por gerenciar métodos relacionados a e-mail

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Mailgun integration with response for the Yii framework

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maatify.dev post validator with JSON code handler, known by our team

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Advanced Direct Mail/Newsletter mailer system with sophisticated options for personalization of emails including response statistics. Fork of kartolo/direct-mail.

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The Engine API is an HTTP API served by Docker Engine. It is the API the Docker client uses to communicate with the Engine, so everything the Docker client can do can be done with the API. Most of the client's commands map directly to API endpoints (e.g. `docker ps` is `GET /containers/json`). The notable exception is running containers, which consists of several API calls. # Errors The API uses standard HTTP status codes to indicate the success or failure of the API call. The body of the response will be JSON in the following format: ``` { "message": "page not found" } ``` # Versioning The API is usually changed in each release, so API calls are versioned to ensure that clients don't break. To lock to a specific version of the API, you prefix the URL with its version, for example, call `/v1.30/info` to use the v1.30 version of the `/info` endpoint. If the API version specified in the URL is not supported by the daemon, a HTTP `400 Bad Request` error message is returned. If you omit the version-prefix, the current version of the API (v1.40) is used. For example, calling `/info` is the same as calling `/v1.40/info`. Using the API without a version-prefix is deprecated and will be removed in a future release. Engine releases in the near future should support this version of the API, so your client will continue to work even if it is talking to a newer Engine. The API uses an open schema model, which means server may add extra properties to responses. Likewise, the server will ignore any extra query parameters and request body properties. When you write clients, you need to ignore additional properties in responses to ensure they do not break when talking to newer daemons. # Authentication Authentication for registries is handled client side. The client has to send authentication details to various endpoints that need to communicate with registries, such as `POST /images/(name)/push`. These are sent as `X-Registry-Auth` header as a Base64 encoded (JSON) string with the following structure: ``` { "username": "string", "password": "string", "email": "string", "serveraddress": "string" } ``` The `serveraddress` is a domain/IP without a protocol. Throughout this structure, double quotes are required. If you have already got an identity token from the [`/auth` endpoint](#operation/SystemAuth), you can just pass this instead of credentials: ``` { "identitytoken": "9cbaf023786cd7..." } ```

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The Engine API is an HTTP API served by Docker Engine. It is the API the Docker client uses to communicate with the Engine, so everything the Docker client can do can be done with the API. Most of the client's commands map directly to API endpoints (e.g. `docker ps` is `GET /containers/json`). The notable exception is running containers, which consists of several API calls. # Errors The API uses standard HTTP status codes to indicate the success or failure of the API call. The body of the response will be JSON in the following format: ``` { "message": "page not found" } ``` # Versioning The API is usually changed in each release, so API calls are versioned to ensure that clients don't break. To lock to a specific version of the API, you prefix the URL with its version, for example, call `/v1.30/info` to use the v1.30 version of the `/info` endpoint. If the API version specified in the URL is not supported by the daemon, a HTTP `400 Bad Request` error message is returned. If you omit the version-prefix, the current version of the API (v1.40) is used. For example, calling `/info` is the same as calling `/v1.40/info`. Using the API without a version-prefix is deprecated and will be removed in a future release. Engine releases in the near future should support this version of the API, so your client will continue to work even if it is talking to a newer Engine. The API uses an open schema model, which means server may add extra properties to responses. Likewise, the server will ignore any extra query parameters and request body properties. When you write clients, you need to ignore additional properties in responses to ensure they do not break when talking to newer daemons. # Authentication Authentication for registries is handled client side. The client has to send authentication details to various endpoints that need to communicate with registries, such as `POST /images/(name)/push`. These are sent as `X-Registry-Auth` header as a Base64 encoded (JSON) string with the following structure: ``` { "username": "string", "password": "string", "email": "string", "serveraddress": "string" } ``` The `serveraddress` is a domain/IP without a protocol. Throughout this structure, double quotes are required. If you have already got an identity token from the [`/auth` endpoint](#operation/SystemAuth), you can just pass this instead of credentials: ``` { "identitytoken": "9cbaf023786cd7..." } ```

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The Engine API is an HTTP API served by Docker Engine. It is the API the Docker client uses to communicate with the Engine, so everything the Docker client can do can be done with the API. Most of the client's commands map directly to API endpoints (e.g. `docker ps` is `GET /containers/json`). The notable exception is running containers, which consists of several API calls. # Errors The API uses standard HTTP status codes to indicate the success or failure of the API call. The body of the response will be JSON in the following format: ``` { "message": "page not found" } ``` # Versioning The API is usually changed in each release, so API calls are versioned to ensure that clients don't break. To lock to a specific version of the API, you prefix the URL with its version, for example, call `/v1.30/info` to use the v1.30 version of the `/info` endpoint. If the API version specified in the URL is not supported by the daemon, a HTTP `400 Bad Request` error message is returned. If you omit the version-prefix, the current version of the API (v1.43) is used. For example, calling `/info` is the same as calling `/v1.43/info`. Using the API without a version-prefix is deprecated and will be removed in a future release. Engine releases in the near future should support this version of the API, so your client will continue to work even if it is talking to a newer Engine. The API uses an open schema model, which means server may add extra properties to responses. Likewise, the server will ignore any extra query parameters and request body properties. When you write clients, you need to ignore additional properties in responses to ensure they do not break when talking to newer daemons. # Authentication Authentication for registries is handled client side. The client has to send authentication details to various endpoints that need to communicate with registries, such as `POST /images/(name)/push`. These are sent as `X-Registry-Auth` header as a [base64url encoded](https://tools.ietf.org/html/rfc4648#section-5) (JSON) string with the following structure: ``` { "username": "string", "password": "string", "email": "string", "serveraddress": "string" } ``` The `serveraddress` is a domain/IP without a protocol. Throughout this structure, double quotes are required. If you have already got an identity token from the [`/auth` endpoint](#operation/SystemAuth), you can just pass this instead of credentials: ``` { "identitytoken": "9cbaf023786cd7..." } ```

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The Engine API is an HTTP API served by Docker Engine. It is the API the Docker client uses to communicate with the Engine, so everything the Docker client can do can be done with the API. Most of the client's commands map directly to API endpoints (e.g. `docker ps` is `GET /containers/json`). The notable exception is running containers, which consists of several API calls. # Errors The API uses standard HTTP status codes to indicate the success or failure of the API call. The body of the response will be JSON in the following format: ``` { "message": "page not found" } ``` # Versioning The API is usually changed in each release, so API calls are versioned to ensure that clients don't break. To lock to a specific version of the API, you prefix the URL with its version, for example, call `/v1.30/info` to use the v1.30 version of the `/info` endpoint. If the API version specified in the URL is not supported by the daemon, a HTTP `400 Bad Request` error message is returned. If you omit the version-prefix, the current version of the API (v1.41) is used. For example, calling `/info` is the same as calling `/v1.41/info`. Using the API without a version-prefix is deprecated and will be removed in a future release. Engine releases in the near future should support this version of the API, so your client will continue to work even if it is talking to a newer Engine. The API uses an open schema model, which means server may add extra properties to responses. Likewise, the server will ignore any extra query parameters and request body properties. When you write clients, you need to ignore additional properties in responses to ensure they do not break when talking to newer daemons. # Authentication Authentication for registries is handled client side. The client has to send authentication details to various endpoints that need to communicate with registries, such as `POST /images/(name)/push`. These are sent as `X-Registry-Auth` header as a [base64url encoded](https://tools.ietf.org/html/rfc4648#section-5) (JSON) string with the following structure: ``` { "username": "string", "password": "string", "email": "string", "serveraddress": "string" } ``` The `serveraddress` is a domain/IP without a protocol. Throughout this structure, double quotes are required. If you have already got an identity token from the [`/auth` endpoint](#operation/SystemAuth), you can just pass this instead of credentials: ``` { "identitytoken": "9cbaf023786cd7..." } ```

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Notifications module is responsible for configuration interface of notification templates and sending notifications to users in the system. It handles email and sms notifications, but also displays alerts (the bell icon) to the users. It allows administrator to set up their own text and supports multi-language.

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Cloud CRM REST API je programové rozhraní systému RAYNET CRM, které umožňuje pracovat s daty uvnitř CRM z aplikací třetích stran. Komunikace probíhá standardním protokolem HTTP s ohledem na [REST](https://en.wikipedia.org/wiki/Representational_state_transfer) principy. ## Připojení k RAYNET CRM Komunikačním protokolem je HTTP, proto je možné použít libovolnou aplikaci nebo knihovnu, která tento protokol podporuje. Pro demonstraci bude využita aplikace [curl](https://curl.haxx.se/). Alternativou je například add-on [Talend API Tester](https://chrome.google.com/webstore/detail/talend-api-tester-free-ed/aejoelaoggembcahagimdiliamlcdmfm) do prohlížeče Google Chrome. Přístup je zabezpečen pomocí basic authentication (uživatelským jménem a API klíčem) a šifrován protokolem TLSv1.2 a vyšším (HTTPS) pro zajištění maximální bezpečnosti. V hlavičce požadavku je nutné zaslat název Vaší instance (např. `moje-crm`). ```bash curl -X GET -u 'uzivatel:api-klic' -H 'X-Instance-Name: moje-crm' 'https://app.raynet.cz/api/v2/company/' ``` ## Datové typy Hodnoty jednotlivých atributů v systému RAYNET CRM jsou tvořeny několika základními datovými typy: + `Řetězec` - Textová hodnota. + `Číslo` - Číselná hodnota. V závislosti na kontextu se může jednat buď o číslo celé nebo o číslo desetinné. V desetinných číslech se používá desetinná tečka. + `Pravdivostní hodnota` - Hodnota ANO/NE. Pro hodnotu ANO lze využít true, on, yes a 1; pro hodnotu NE pak false, off, no a 0. + `Datum` - Datum jako řetězec ve formátu `yyyy-MM-dd`. + `Datum a čas` - Datum a čas jako řetězec ve formátu `yyyy-MM-dd HH:mm`. Akceptovány jsou také datum a čas ve formátu ISO8601 (např. `2022-01-01T12:00:00.000+01:00`). + `Reference` - Datový typ reference odkazuje na jiný záznam v systému RAYNET CRM. V příchozích datech je reference mapou (JavaScriptový objektem), která obsahuje klíče: + id - Identifikátor referencovaného záznamu. ### Datum a čas Datum a čas jako řetězec ve formátu `yyyy-MM-dd HH:mm` je v časové zóně uživatele, přes kterého jsou API požadavky realizovány. Pro filtrování a zápis (`PUT`, `POST`) je možné využít oba formáty (`yyyy-MM-dd HH:mm`, ISO8601). V response je ve výchozím stavu datum a čas formátován jako `yyyy-MM-dd HH:mm` v časové zóně uživatele. Přidáním parametru `dateFormat=ISO8601` lze ovlivnit výstupní formát, kdy bude hodnota formátována do tvaru `2022-01-01T12:00:00.000+01:00`. např. `https://ww....company/?dateFormat=ISO8601` ## Filtrování seznamu Operátory pracující nad atributy a hodnotami jsou následující: + `EQ` - Test na rovnost hodnot. + `EQ_OR_NULL` - Test na rovnost nebo prázdnou hodnotu. + `NE` - Test na nerovnost hodnot. + `NE_OR_NULL` - Test na nerovnost nebo prázdnou hodnotu. + `LT` - Hodnota v databázi je menší než zadaná. + `LE` - Hodnota v databázi je menší nebo rovna než zadaná. + `GT` - Hodnota v databázi je větší než zadaná. + `GE` - Hodnota v databázi je větší nebo rovna než zadaná. + `LIKE` - Test na hodnotu odpovídající výrazu (např. hodnota filtru ABC% nalezne všechny záznamy, které začínají znaky ABC). + `LIKE_NOCASE` - Obdoba LIKE, ale bez ohledu na malá a velká písmena. + `IN` - Test na rovnost (více) hodnot oddělených čárkou. Správný formát vstupu je např.: `1,2,3,4`. + `NOT_IN` - Test na nerovnost (více) hodnot oddělených čárkou. Správný formát vstupu je např.: `1,2,3,4`. + `CUSTOM` - Speciální operátor - chování testu je popsáno dále v dokumentaci. Výchozím operátorem je rovnost `EQ`. Operátor se zapisuje do hranatých závorek za název atributu. Je tak možné zadat více filtrovacích kritérií nad stejným atributem. `https://app..../?validFrom[GT]="2014-06-01"&validTill[LT]="2014-06-10"` Častým scénářem je vyfiltrování všech záznamů, které mají daný atribut prázdný nebo naopak neprázdný. Pro tyto účely lze použít hodnotu `prázdný řetězec` v kombinaci s operátorem `EQ` nebo `NE`. ## Uspořádání seznamu Uspořádání seznamu je kontrolováno parametrem `sortColumn` a `sortDirection`. U každého API je výčet hodnot, pomocí kterých lze seznam řadit. Parametr `sortDirection` může nabývat hodnot: + `ASC` - Hodnoty jsou řazeny vzestupně + `DESC` - Hodnoty jsou řazeny sestupně ## Stránkování seznamu Seznam je možné stránkovat nastavením parametrů `offset` a `limit`. Offset udává první záznam, který bude zobrazen, limit pak počet záznamů. Maximální velikost stránky je 1 000 položek. Například `https://app..../?offset=0&limit=2` ## Fulltext Ve většině seznamů je možné využít fulltextové vyhledání podle zadaného textového řetězce. Slouží k tomu parametr `fulltext`, který se aplikuje např. takto: `https://app..../?fulltext=nejakytext` ## Limity API Každá API odpověď obsahuje hlavičky, které popisují stav využití API pro danou instanci. ``` curl -X GET -u 'uzivatel:api-klic' -H 'X-Instance-Name: moje-crm' 'https://app.raynet.cz/api/v2/company/' HTTP/1.1 200 OK Status: 200 OK X-Ratelimit-Limit: 24000 X-Ratelimit-Remaining: 23999 X-Ratelimit-Reset: 1508889600 ``` Význam jednotlivých hlaviček je následující: | Hlavička | Význam | | -------- | ------ | | X-Ratelimit-Limit | Celkový limit pro aktuální časové okno a instanci. | | X-Ratelimit-Remaining | Zbývající počet požadavků. | | X-Ratelimit-Reset | Čas, kdy bude vyprší časové okno a limit bude resetován. Hodnota udává [unixový čas](https://cs.wikipedia.org/wiki/Unixov%C3%BD_%C4%8Das). | Pokud je limit překročen, je navrácena chybová hláška s HTTP kódem `429 Too Many Requests`: ```json { "type": "RequestLimitReached", "message": "API request limit reached. See the X-RateLimit-* headers and check out the API documentation for more details." } ``` ### Co když mi limity nestačí Ve výchozím stavu je přístup limitován na 24 000 požadavků za den (uvažováno od půlnoci do další půlnoci v časové zóně UTC). V případě, že limit pro vaši integraci nestačí, kontaktujte naší zákaznickou podporu na e-mailu [email protected] a spolu se určitě dobereme vhodného řešení. ### Špatné přihlášení V případě zaslaní více než 20 požadavků se špatnými přihlašovacími údaji, bude tento přístup na 60 minut zablokován. Toto omezení platí pro konkrétní IP adresu.

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Add validation to a form based on a Mailchimp response

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## Introduction This comprehensive guide will equip you with the knowledge to integrate and leverage our Product Configurator Service in your applications. ## Quick Start Get up and running in no time! Follow these steps to kickstart your integration: 1. **Authentication:** Obtain your integration JWT to authenticate your requests. 2. **Client Libraries:** Explore our GitHub repositories to grab client libraries in your preferred programming language. 3. **API Overview:** Familiarize yourself with our RESTful API using the OpenAPI specification. ## Integration ### API Overview Our RESTful API is the gateway to unlocking the full potential of Product Configurator. Check out the detailed [API Reference](/docs/category/configurator) for a granular understanding of each endpoint and request/response format. ### Client Libraries To expedite your integration process, we provide client libraries for various programming languages. Find the one that suits your stack in our [GitHub repositories](https://github.com/Gemini-Commerce). ### Authentication Security is paramount. Learn how to authenticate your requests using JWT. This ensures a secure and reliable connection between your application and Product Configurator. ## Configuration Management ### Configurator Lifecycle Understand the lifecycle of configurators, from draft to active and deleted. This flexibility allows you to manage configurations at your own pace. ### Steps and Options Configure product steps with ease and define options effortlessly. Explore the power of dependencies to create dynamic and intuitive configurations. ### Matrices Delve into matrices—your secret weapon. Explore price and weight matrices, and learn how configured steps influence properties and pricing. ### Price Management Unleash dynamic pricing with our versatile price matrices. From fixed prices to incremental structures, adapt to diverse pricing models effortlessly. ## Security Your data is in safe hands. Discover how Product Configurator ensures security through JWT authentication, safeguarding your sensitive information. ## Backward Compatibility Stay ahead of the curve. Learn about our versioning strategy, providing backward compatibility while allowing our service to evolve seamlessly. ## Developer Support Have questions? Need assistance? Write to us at [[email protected]](mailto:[email protected]) and we will get back to you.

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The Inter TT REST API is described using OpenAPI 3.0. The descriptor for the api can be downloaded in both [YAML](http://localhost:8080/cyclos/api/openapi.yaml) or [JSON](http://localhost:8080/cyclos/api/openapi.json) formats. These files can be used in tools that support the OpenAPI specification, such as the [OpenAPI Generator](https://openapi-generator.tech). In the API, whenever some data is referenced, for example, a group, or payment type, either id or internal name can be used. When an user is to be referenced, the special word 'self' (sans quotes) always refers to the currently authenticated user, and any identification method (login name, e-mail, mobile phone, account number or custom field) that can be used on keywords search (as configured in the products) can also be used to identify users. Some specific data types have other identification fields, like accounts can have a number and payments can have a transaction number. This all depends on the current configuration. ----------- Most of the operations that return data allow selecting which fields to include in the response. This is useful to avoid calculating data that finally won't be needed and also for reducing the transfer over the network. If nothing is set, all object fields are returned. Fields are handled in 3 modes. Given an example object `{"a": {"x": 1, "y": 2, "z": 3}, "b": 0}`, the modes are: - **Include**: the field is unprefixed or prefixed with `+`. All fields which are not explicitly included are excluded from the result. Examples: - `["a"]` results in `{"a": {"x": 1, "y": 2, "z": 3}}` - `["+b"]` results in `{"b": 0}` - `["a.x"]` results in `{"a": {"x": 1}}`. This is a nested include. At root level, includes only `a` then, on `a`'s level, includes only `x`. - **Exclude**: the field is prefixed by `-` (or, for compatibility purposes, `!`). Only explicitly excluded fields are excluded from the result. Examples: - `["-a"]` results in `{"b": 0}` - `["-b"]` results in `{"a": {"x": 1, "y": 2, "z": 3}}` - `["a.-x"]` results in `{"a": {"y": 2, "z": 3}}`. In this example, `a` is actually an include at the root level, hence, excludes `b`. - **Nested only**: when a field is prefixed by `*` and has a nested path, it only affects includes / excludes for the nested fields, without affecting the current level. Only nested fields are configured. Examples: - `["*a.x"]` results in `{"a": {"x": 1}, "b": 0}`. In this example, `a` is configured to include only `x`. `b` is also included because, there is no explicit includes at root level. - `["*a.-x"]` results in `{"a": {"y": 2, "z": 3}, "b": 0}`. In this example, `a` is configured to exclude only `x`. `b` is also included because there is no explicit includes at the root level. For backwards compatibility, this can also be expressed in a special syntax `-a.x`. Also, keep in mind that `-x.y.z` is equivalent to `*x.*y.-z`. You cannot have the same field included and excluded at the same time - a HTTP `422` status will be returned. Also, when mixing nested excludes with explicit includes or excludes, the nested exclude will be ignored. For example, using `["*a.x", "a.y"]` will ignore the `*a.x` definition, resulting in `{"a": {"y": 2}}`. ----------- For details of the deprecated elements (operations and model) please visit the [deprecation notes page](https://documentation.cyclos.org/4.16.3/api-deprecation.html) for this version.

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Welcome to the CityPay API, a robust HTTP API payment solution designed for seamless server-to-server transactional processing. Our API facilitates a wide array of payment operations, catering to diverse business needs. Whether you're integrating Internet payments, handling Mail Order/Telephone Order (MOTO) transactions, managing Subscriptions with Recurring and Continuous Authority payments, or navigating the complexities of 3-D Secure authentication, our API is equipped to support your requirements. Additionally, we offer functionalities for Authorisation, Refunding, Pre-Authorisation, Cancellation/Voids, and Completion processing, alongside the capability for tokenised payments. ## Compliance and Security Overview Ensuring the security of payment transactions and compliance with industry standards is paramount. Our API is designed with stringent security measures and compliance protocols to safeguard sensitive information and meet the rigorous requirements of Visa, MasterCard, and the PCI Security Standards Council. ### Key Compliance and Security Measures * **TLS Encryption**: All data transmissions must utilise TLS version 1.2 or higher, employing [strong cryptography](#enabled-tls-ciphers). Our infrastructure strictly enforces this requirement to maintain the integrity and confidentiality of data in transit. We conduct regular scans and assessments of our TLS endpoints to identify and mitigate vulnerabilities. * **Data Storage Prohibitions**: Storing sensitive cardholder data (CHD), such as the card security code (CSC) or primary account number (PAN), is strictly prohibited. Our API is designed to minimize your exposure to sensitive data, thereby reducing your compliance burden. * **Data Masking**: For consumer protection and compliance, full card numbers must not be displayed on receipts or any customer-facing materials. Our API automatically masks PANs, displaying only the last four digits to facilitate safe receipt generation. * **Network Scans**: If your application is web-based, regular scans of your hosting environment are mandatory to identify and rectify potential vulnerabilities. This proactive measure is crucial for maintaining a secure and compliant online presence. * **PCI Compliance**: Adherence to PCI DSS standards is not optional; it's a requirement for operating securely and legally in the payments ecosystem. For detailed information on compliance requirements and resources, please visit the PCI Security Standards Council website [https://www.pcisecuritystandards.org/](https://www.pcisecuritystandards.org/). * **Request Validation**: Our API includes mechanisms to verify the legitimacy of each request, ensuring it pertains to a valid account and originates from a trusted source. We leverage remote IP address verification alongside sophisticated application firewall technologies to thwart a wide array of common security threats. ## Getting Started Before integrating with the CityPay API, ensure your application and development practices align with the outlined compliance and security measures. This preparatory step is crucial for a smooth integration process and the long-term success of your payment processing operations. For further details on API endpoints, request/response formats, and code examples, proceed to the subsequent sections of our documentation. Our aim is to provide you with all the necessary tools and information to integrate our payment processing capabilities seamlessly into your application. Thank you for choosing CityPay API. We look forward to supporting your payment processing needs with our secure, compliant, and versatile API solution.

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