Libraries tagged by json auth

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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# Introduction JTL-FFN is a standardized interface for fulfillment service providers and their customers. Fulfiller can offer their services to merchants and merchants can respectively choose from a wide range of service providers according to their needs. ## The ecosystem The FFN network consists of this REST API, an online portal and third party integrations (JTL-Wawi being one of them). The REST API orchestrates the interactions between the participants and the portal website provides services by JTL (such as managing and certifying warehouses of a fulfiller and merchants searching for their service providers). ## About this API The base url of this api is [https://ffn2.api.jtl-software.com/api](https://ffn2.api.jtl-software.com/api). This API (and this documentation) consists of three parts: * Fulfiller API - operations used when acting as a fulfiller in the network. Only users with the role `Fulfiller` can access these endpoints. * Merchant API - operations used when acting as a merchant in the network. Only users with the role `Merchant` can access these endpoints. * Shared API - operations available to all users. Please use the navigation menu at the top to switch between the documentation for the different APIs. # OAuth The FFN-API uses [OAuth2](https://tools.ietf.org/html/rfc6749) with the [Authorization Code Grant](https://tools.ietf.org/html/rfc6749#section-4.1) for its endpoints. Users must have an active [JTL customer center](https://kundencenter.jtl-software.de) account to authorize against the OAuth2 server. Applications and services using the API must acquire client credentials from JTL. ## Application credentials When making calls against the API, you need to do it in the context of an application. You will get the credentials for your application from JTL. Application credentials consist of the following: * `client_id` - uniquely identifies your application * `client_secret` - secret used to authenticate your application * `callback_uri` - the uri the OAuth2 server redirect to on authorization requests ## Requesting authorization When you want to authorize a user you redirect him to `https://oauth2.api.jtl-software.com/authorize` with the following query string parameters: * `response_type` - Must be set to "code" for the [Authorization Code Grant](https://tools.ietf.org/html/rfc6749#section-4.1). * `redirect_uri` - After the user accepts your authorization request this is the url that will be redirected to. It must match the `callback_uri` in your client credentials. * `client_id` - Your applications identifier from your application credentials. * `scope` - The scopes you wish to authorize (space delimited). * `state` - An opaque value that will be included when redirecting back after the user accepts the authorisation. This is not required, but is important for [security considerations](http://www.thread-safe.com/2014/05/the-correct-use-of-state-parameter-in.html). After successful authorization by the user, the OAuth2 server will redirect back to your applications callback with the following query string parameters: * `code` - The authorization code. * `state` - The state parameter that was sent in the request. ## Verifying authorization The authorization code you acquired in the last step will now be exchanged for an access token. In order to do this you need to POST a request to `https://oauth2.api.jtl-software.com/token`. >POST > >Authorization: Basic `application_basic_auth`\ >Content-Type: application/x-www-form-urlencoded > >grant_type=authorization_code&code=`code`&redirect_uri=`redirect_uri` In the Authorization header [Basic HTTP authentication](https://tools.ietf.org/html/rfc7617) is used. Your application credentials `client_id` will be used as the username and your `client_secret` as the password. The header should have the value "Basic" plus the Base64 encoded string comprising of `client_id:client_secret`. The body of the request consist of the form encoded parameters: * `grant_type` - Must be set to "authorization_code". * `code` - The authorization code received from the previous step. * `redirect_uri` - Must match the `callback_uri` in your client credentials. A successful verification request will return a JSON response with the properties: * `token_type` - is always "Bearer" * `expires_in` - the time in seconds until the access token will expire * `access_token` - the access token used for API requests * `refresh_token` - token used to get a new access_token without needing to ask the user again Now the APIs endpoints that need authorization can be called by setting the header >Authorization: Bearer `access_token` ## Refreshing authorization To get a new `access_token` (for example when the old one expired) one can POST a request to `https://oauth2.api.jtl-software.com/token`. >POST > >Authorization: Basic `application_basic_auth`\ >Content-Type: application/x-www-form-urlencoded > >grant_type=refresh_token&refresh_token=`refresh_token` The Basic HTTP Authorization works exactly as in the verification step. The body of the request consist of the form encoded parameters: * `grant_type` - Must be set to "refresh_token". * `refresh_token` - The `refresh_token` you acquired during verification. The response will be the same as in the verification step. ## Scopes Scopes allow fine grained control over what actions are allowed for a given application. During login users must approve the requested scopes, so it is often feasible to limit asking for permissions your application really needs. Global scopes for common permission scenarios are the following: * `ffn.fulfiller.read` - full read access for the fulfiller API * `ffn.fulfiller.write` - full write access for the fulfiller API * `ffn.merchant.read` - full read access for the merchant API * `ffn.merchant.write` - full write access for the merchant API More fine grained scopes can be acquired from each respective endpoints documentation. ## Example ### Prerequsites * JTL Customer center account (https://kundencenter.jtl-software.de/) * cUrl (https://curl.se/) * FFN portal account (just login here: https://fulfillment.jtl-software.com) * FFN portal sandbox account (if you want to test on sandbox: https://fulfillment-sandbox.jtl-software.com) * Oauth Client for authorization and define scopes Values in this example (access_token, refresh_token, code...) are expired and cannot be used verbatim. ### Step 1 - Create an OAuth client Navigate to https://kundencenter.jtl-software.de/oauth and create a new OAuth client. (You can´t navigate to Oauth in customer account, you should use this link, or you can change logged in index to oauth) !Templates define what scopes are possible for this client. scopes with access rights: * ffn.merchant.read - full read access for the fulfiller API * ffn.merchant.write - full write access for the fulfiller API * ffn.fulfiller.read - full read access for the merchant API * ffn.fulfiller.write - full write access for the merchant API More fine grained scopes can be acquired from each respective endpoints documentation.  Overview: clients, scopes, client-secret and client-id  In our example: * client_id: 97170e65-d390-4633-ba46-d6ghef8222de * client_secret: f364ldUw3wGJFGn3JXE2NpGdCvUSMlmK72gsYg1z * redirect_uri: http://localhost:53972/ffn/sso The values for this client should not be used in production and are for testing only. ### Step 2 - User login In this step you will redirect the user to the JTL OAuth website using his default browser. Here the user will provide his username/password and accept the requested scopes. Finally the JTL Oauth website will redirect to the provided redirect_uri and provide the code. Template: authorize specified scopes and get code answer to request the access token ``` https://oauth2.api.jtl-software.com/authorize?response_type=code&redirect_uri=[redirect_uri]&client_id=[client_id]&scope=[scopes] ``` Note: the scopes should be seperated by spaces or %20 Filled with our example values: ``` https://oauth2.api.jtl-software.com/authorize?response_type=code&redirect_uri=http://localhost:53972/ffn/sso/oauth&client_id=97170e65-d390-4633-ba46-d6ghef8222de&scope=ffn.merchant.read%20ffn.merchant.write ``` * enter password  * authorize scopes  * code answer from server  Example of the answer from the OAuth server to our redirect_uri: ``` http://localhost:53972/ffn/sso?code=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 ``` Extract the code and note it for next steps. ### Step 3 - Get an access_token from the code Template: get access token + refresh token ``` curl --location --request POST "https://oauth2.api.jtl-software.com/token" --header "Content-Type: application/x-www-form-urlencoded" -u "[client_id]:[client_secret]" --data-urlencode "grant_type=authorization_code" --data-urlencode "redirect_uri=[redirect_uri]" --data-urlencode "code=[code]" ``` Filled with our example values: ``` curl --location --request POST "https://oauth2.api.jtl-software.com/token" --header "Content-Type: application/x-www-form-urlencoded" -u "97170e64-d390-4696-ba46-d6fcef8207de:f364ldUw3wIJFGn3JXE2NpGdAvUSMlmK72gsYg1z" --data-urlencode "grant_type=authorization_code" --data-urlencode "redirect_uri=http://localhost:49420/oauth" --data-urlencode "code=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" ``` The result will be a JSON answer with the users access_token and refresh_token as well as the expiry in seconds. ``` { "token_type":"Bearer", "expires_in":1800, "access_token":"eyJ0eXAiOiJKV1QiLCJhbGciOiJSUzI1NiJ9. eyJhdWQiOiI5NzE3MGU2NC1kMzkwLTQ2OTYtYmE0Ni1kNmZjZWY4MjA3ZGUiLCJqdGkiOiJlOWVhN2Q0MWI1NDIzNTcyYWU0MDEzYjEzMDZiMGRkNWM3YmQ2ZTNjMDNhYTZmNjQ2M2NlMjUzNTc0ZmUyMWE3NGQyNTIyMTJhODQwMmI1ZCIsImlhdCI6MTY2MTI1MzE0OCwibmJmIjoxNjYxMjUzMTQ4LCJleHAiOjE2NjEyNTQ5NDgsInN1YiI6IjQ2MjA5Iiwic2NvcGVzIjpbImZmbi5tZXJjaGFudC5yZWFkIiwiZmZuLm1lcmNoYW50LndyaXRlIl19.eEwY021wR3BWVp-wbAVQrjfqwFbYqLlOV_ca-cb7-O3Kdpi8mkFQBxfI8rzSiV_1WpAINf4ydV9FR9Ty992SMiAqGJ3T9zDHd68oUDePeq7Xfafp-87UboI2mCfGd7518CoKVLqg5ohb4YCqgC7Dz588FofggCQyDZQSM-8raOgcM-pJ1TT7oRuYuDHsOzCOTPcX2YiGYKCc3M6kxlBy_NjrJoLa4qysLRmPkznWwj0caC7a0VJO5KubvECcMb9D7Byr3UNjI7GiGMAufa770V5qCjrWs4gOsRV-Bn7oQydvsL21qqjBKHcssQrlLZWmrcfKqgBKwfRXIx3Mu5HBCmtHjHMnuvPVEZAj6fEfIwjYSeTAHTHApEwbE7J1MPd8MU0K6X2YEUF315fXN5F3rO3ZL5FdTwcM1E-1-PKubLuMAaE6Lw-QsDtBoI4ESylomCmCCfgLV4Vj-in_oCJUmKXAX0tDSa9y9vb6oAExung_BTJCBemffCtkJ55Px7bvi9JXmwvI0pIFo3QzTUtRbFDizCMrPZvsatFx64mXX3IDoVqXr3uzvdetBIJEj2ngVdGRrKGt4Yboae5oFV2d5jdSZBL28pwGjey__ZB4zLR1DodQ0sOqDWJ3WsEjMYXU8_-IGrS8Kkw8Q0R0UqqyVLfcLr-cfH5tYqf2QLqAScY","refresh_token":"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" } ``` ### Step 4 - Test the access_token Using your newly aquired access_token you can test if its working (reminder: the access_token has a limited lifetime and might be expired, in which case we would need to refresh it (see Step 5)). Template: Test communication with access token on sandbox or production (our client is for both systems) ``` curl --location --request GET "https://ffn-sbx.api.jtl-software.com/api/v1/users/current" --header "Authorization: Bearer [access_token]" ``` If you cannot retrieve the user data using this endpoint make sure you have logged into our respective portal website (sandbox, production) at least once as this triggers user creation in the system. ### Step 5 - Refresh access_token when it expires Template: Get a new access token + refresh token with the refresh token ``` curl --location --request POST "https://oauth2.api.jtl-software.com/token" --header "Content-Type: application/x-www-form-urlencoded" -u "[client_id]:[client_secret]" --data-urlencode "grant_type=refresh_token" --data-urlencode "refresh_token=[refresh_token]" ``` Filled with our example values: ``` curl --location --request POST "https://oauth2.api.jtl-software.com/token" --header "Content-Type: application/x-www-form-urlencoded" -u "97170e64-d390-4696-ba46-d6fcef8207de:f364ldUw3wIJFGn3JXE2NpGdAvUSMlmK72gsYg1z" --data-urlencode "grant_type=refresh_token" --data-urlencode "refresh_token=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" ``` The result will be the same format as in step 3. Refresh_tokens are only valid for a single refresh and you will get a new refresh_token every single time that you must persist. ### My token is not working! #### 404 NotFound You need to log into the respective portal website (sandbox-https://fulfillment-sandbox.jtl-software.com, production-https://fulfillment.jtl-software.com) at least once to trigger user creation. #### 403 Forbidden You might be missing scopes in your token and don't have sufficient rights. #### 401 Forbidden Incorrect Oauth method. For example, we do not support the Oauth method authorisation "client_credentials grant". The authorisation method "code grant" with user must be used.

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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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Tweakwise API. Tweakwise offers differing REST services that can be called from various URLs and separate parameters. Response in XML and JSON format is offered for all services. XML is the default format, JSON format is also possible by adding ‘format=json’ to the call. Parameters are sent along with the query string (GET Request) via the URL. --- Authentication Authentication takes place by means of a unique key valid for each instance. This key is sent along with the particular service immediately after the call and must be placed before any parameters. This key is issued by Tweakwise.

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My Fork (fixing json encoded facebook token ) of Nodge/yii-eauth EAuth extension allows to authenticate users by the OpenID, OAuth 1.0 and OAuth 2.0 providers.

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Data And Reporting product consists of API's which provides details of transaction and invoice informations about shell cards. The Shell Card Transaction and Invoice API is REST-based and employs Basic authentication in Version 1 and Oauth authentication in Version 2 end points. The API endpoints accept JSON-encoded request bodies, return JSON-encoded responses and use standard HTTP response codes. All resources are located in the Shell Card Platform. The Shell Card Platform is the overall platform that encompasses all the internal Shell systems used to manage resources.

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**API Version**: 1.7 **Date**: 9th July, 2024 ## 📄 Getting Started This API is based on the REST API architecture, allowing the user to easily manage their data with this resource-based approach. Every API call is established on which specific request type (GET, POST, PUT, DELETE) will be used. The API must not be abused and should be used within acceptable limits. To start using this API, you will need not create or access an existing Segnivo account to obtain your API key ([retrievable from your account settings](https://messaging.segnivo.com/account/api)). - You must use a valid API Key to send requests to the API endpoints. - The API only responds to HTTPS-secured communications. Any requests sent via HTTP return an HTTP 301 redirect to the corresponding HTTPS resources. - The API returns request responses in JSON format. When an API request returns an error, it is sent in the JSON response as an error key or with details in the message key. ### 🔖 **Need some help?** In case you have questions or need clarity with interacting with some endpoints feel free to create a support ticket on your account or you can send an email ([[email protected]](https://mailto:[email protected])) directly and we would be happy to help. --- ## Authentication As noted earlier, this API uses API keys for authentication. You can generate a Segnivo API key in the [API](https://messaging.segnivo.com/account/api) section of your account settings. You must include an API key in each request to this API with the `X-API-KEY` request header. ### Authentication error response If an API key is missing, malformed, or invalid, you will receive an HTTP 401 Unauthorized response code. ## Rate and usage limits API access rate limits apply on a per-API endpoint basis in unit time. The limit is 10k requests per hour for most endpoints and 1m requests per hour for transactional/relay email-sending endpoints. Also, depending on your plan, you may have usage limits. If you exceed either limit, your request will return an HTTP 429 Too Many Requests status code or HTTP 403 if sending credits have been exhausted. ### 503 response An HTTP `503` response from our servers may indicate there is an unexpected spike in API access traffic, while this rarely happens, we ensure the server is usually operational within the next two to five minutes. If the outage persists or you receive any other form of an HTTP `5XX` error, contact support ([[email protected]](https://mailto:[email protected])). ### Request headers To make a successful request, some or all of the following headers must be passed with the request. | **Header** | **Description** | | --- | --- | | Content-Type | Required and should be `application/json` in most cases. | | Accept | Required and should be `application/json` in most cases | | Content-Length | Required for `POST`, `PATCH`, and `PUT` requests containing a request body. The value must be the number of bytes rather than the number of characters in the request body. | | X-API-KEY | Required. Specifies the API key used for authorization. | ##### 🔖 Note with example requests and code snippets If/when you use the code snippets used as example requests, remember to calculate and add the `Content-Length` header. Some request libraries, frameworks, and tools automatically add this header for you while a few do not. Kindly check and ensure yours does or add it yourself.

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The Nodeum API makes it easy to tap into the digital data mesh that runs across your organisation. Make requests to our API endpoints and we’ll give you everything you need to interconnect your business workflows with your storage. All production API requests are made to: http://nodeumhostname/api/ The current production version of the API is v1. **REST** The Nodeum API is a RESTful API. This means that the API is designed to allow you to get, create, update, & delete objects with the HTTP verbs GET, POST, PUT, PATCH, & DELETE. **JSON** The Nodeum API speaks exclusively in JSON. This means that you should always set the Content-Type header to application/json to ensure that your requests are properly accepted and processed by the API. **Authentication** All API calls require user-password authentication. **Cross-Origin Resource Sharing** The Nodeum API supports CORS for communicating from Javascript for these endpoints. You will need to specify an Origin URI when creating your application to allow for CORS to be whitelisted for your domain. **Pagination** Some endpoints such as File Listing return a potentially lengthy array of objects. In order to keep the response sizes manageable the API will take advantage of pagination. Pagination is a mechanism for returning a subset of the results for a request and allowing for subsequent requests to “page” through the rest of the results until the end is reached. Paginated endpoints follow a standard interface that accepts two query parameters, limit and offset, and return a payload that follows a standard form. These parameters names and their behavior are borrowed from SQL LIMIT and OFFSET keywords. **Versioning** The Nodeum API is constantly being worked on to add features, make improvements, and fix bugs. This means that you should expect changes to be introduced and documented. However, there are some changes or additions that are considered backwards-compatible and your applications should be flexible enough to handle them. These include: - Adding new endpoints to the API - Adding new attributes to the response of an existing endpoint - Changing the order of attributes of responses (JSON by definition is an object of unordered key/value pairs) **Filter parameters** When browsing a list of items, multiple filter parameters may be applied. Some operators can be added to the value as a prefix: - `=` value is equal. Default operator, may be omitted - `!=` value is different - `>` greater than - `>=` greater than or equal - `=` lower than or equal - `>

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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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# Summary The **NextGenPSD2** *Framework Version 1.3.6* (with errata) offers a modern, open, harmonised and interoperable set of Application Programming Interfaces (APIs) as the safest and most efficient way to provide data securely. The NextGenPSD2 Framework reduces XS2A complexity and costs, addresses the problem of multiple competing standards in Europe and, aligned with the goals of the Euro Retail Payments Board, enables European banking customers to benefit from innovative products and services ('Banking as a Service') by granting TPPs safe and secure (authenticated and authorised) access to their bank accounts and financial data. The possible Approaches are: * Redirect SCA Approach * OAuth SCA Approach * Decoupled SCA Approach * Embedded SCA Approach without SCA method * Embedded SCA Approach with only one SCA method available * Embedded SCA Approach with Selection of a SCA method Not every message defined in this API definition is necessary for all approaches. Furthermore this API definition does not differ between methods which are mandatory, conditional, or optional. Therefore for a particular implementation of a Berlin Group PSD2 compliant API it is only necessary to support a certain subset of the methods defined in this API definition. **Please have a look at the implementation guidelines if you are not sure which message has to be used for the approach you are going to use.** ## Some General Remarks Related to this version of the OpenAPI Specification: * **This API definition is based on the Implementation Guidelines of the Berlin Group PSD2 API.** It is not a replacement in any sense. The main specification is (at the moment) always the Implementation Guidelines of the Berlin Group PSD2 API. * **This API definition contains the REST-API for requests from the PISP to the ASPSP.** * **This API definition contains the messages for all different approaches defined in the Implementation Guidelines.** * According to the OpenAPI-Specification [https://github.com/OAI/OpenAPI-Specification/blob/master/versions/3.0.1.md] "If in is "header" and the name field is "Accept", "Content-Type" or "Authorization", the parameter definition SHALL be ignored." The element "Accept" will not be defined in this file at any place. The elements "Content-Type" and "Authorization" are implicitly defined by the OpenApi tags "content" and "security". * There are several predefined types which might occur in payment initiation messages, but are not used in the standard JSON messages in the Implementation Guidelines. Therefore they are not used in the corresponding messages in this file either. We added them for the convenience of the user. If there is a payment product, which needs these fields, one can easily use the predefined types. But the ASPSP need not to accept them in general. * **We omit the definition of all standard HTTP header elements (mandatory/optional/conditional) except they are mentioned in the Implementation Guidelines.** Therefore the implementer might add these in his own realisation of a PSD2 comlient API in addition to the elements defined in this file. ## General Remarks on Data Types The Berlin Group definition of UTF-8 strings in context of the PSD2 API has to support at least the following characters a b c d e f g h i j k l m n o p q r s t u v w x y z A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 0 1 2 3 4 5 6 7 8 9 / - ? : ( ) . , ' + Space

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The Pi-hole API is organized around [REST](http://en.wikipedia.org/wiki/Representational_State_Transfer). Our API has predictable resource-oriented URLs, accepts and returns reliable UTF-8 [JavaScript Object Notation (JSON)-encoded](http://www.json.org/) data for all API responses, and uses standard HTTP response codes and verbs. Most (but not all) endpoints require authentication. API endpoints requiring authentication will fail with code `401 Unauthorized` when used outside a valid session.

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## Introduction Send messages using unifonic’s Conversations API. Message your target audience over social channels (WhatsApp for Business, Messenger, SMS, etc..). Unifonic conversations API Restful and HTTP **API's** uses The basic Authentication protocol. All request and response bodies are formatted in JSON. ## Get an account To start using the API you need to send an email [email protected] to create an account for you. ## Base URL All URLs referenced in the documentation have the following base: **apis.unifonic.com** ## Security To ensure privacy, we recommend you to use HTTPS for all unifonic API requests. ## Formats conversations API only supports JSON format. All requests must use the Content-type header set to application/json. ## Support We’re here to help! Get in touch with support at and we’ll get back to you as soon as we can or you can contact us throw live chat on our [website] (www.unifonic.com).

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## Introduction Send SMS messages using Unifonic Messaging API. Get your dedicated Universal number, and start sending messages today. Unifonic NextGen Restful and HTTP **API's** uses The basic Authentication protocol. All request and response bodies are formatted in JSON. ## Get an account To start using the API you need to send an email to Unifonic to create Appsid for you. ## Base URL All URLs referenced in the documentation have the following base: **basic.unifonic.com** ## Security To ensure privacy we recommend you to use HTTPS for all Unifonic API requests. you can download our HTTPS certificate. [Download] (https://api.unifonic.com/udm/https.zip) ## Formats Unifonic API only supports JSON format. All request must use the Content-type header set to application/json. ## Support We’re here to help! Get in touch with support at and we’ll get back to you as soon as we can or you can contact us throw live chat on our [website] (www.unifonic.com).

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