Crates.io | blockchyp |
lib.rs | blockchyp |
version | 2.20.1 |
source | src |
created_at | 2024-06-28 16:06:11.885676 |
updated_at | 2024-11-20 15:40:19.848387 |
description | This is the SDK for Rust. Like all BlockChyp SDKs, it provides a full client for the BlockChyp gateway and BlockChyp payment terminals. |
homepage | |
repository | https://github.com/blockchyp/blockchyp-rust |
max_upload_size | |
id | 1286820 |
size | 995,200 |
This is the SDK for Rust. Like all BlockChyp SDKs, it provides a full client for the BlockChyp gateway and BlockChyp payment terminals.
The BlockChyp SDK is installable via Cargo. Type the following command to add BlockChyp to your Cargo.toml.
cargo add blockchyp
Running your first transaction is easy. Make sure you have a BlockChyp terminal, activate it, and generate a set of API keys.
use ::blockchyp::*;
fn main() {
let creds = APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
let client = Client::new(creds);
let mut request = AuthorizationRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
amount: "55.00".to_string(),
..Default::default()
};
let (response, err) = client.charge(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return
}
if response.approved {
println!("approved");
}
println!("Response: {:?}", response);
}
The response contains all the information you'll need to complete processing a transaction. Of particular importance is the ReceiptSuggestions struct, which contains all the fields that are required or recommended for PCI or EMV compliance.
Complete documentation can be found on our Developer Documentation Portal.
In order to test your integration with real terminals, you'll need a BlockChyp Developer Kit. Our kits include a fully functioning payment terminal with test pin encryption keys. Every kit includes a comprehensive set of test cards with test cards for every major card brand and entry method, including Contactless and Contact EMV and mag stripe cards. Each kit also includes test gift cards for our blockchain gift card system.
Access to BlockChyp's developer program is currently invite only, but you can request an invitation by contacting our engineering team at nerds@blockchyp.com.
You can also view a number of long form demos and learn more about us on our YouTube Channel.
You don't want to read words. You want examples. Here's a quick rundown of the stuff you can do with the BlockChyp Rust SDK and a few basic examples.
These are the core payment APIs used to execute and work with payment transactions in BlockChyp.
Our most popular transaction executes a standard authorization and capture. This is the most basic of basic payment transactions, typically used in conventional retail.
Charge transactions can use a payment terminal to capture a payment or use a previously enrolled payment token.
Terminal Transactions
For terminal transactions, make sure you pass in the terminal name using the terminalName
property.
Token Transactions
If you have a payment token, omit the terminalName
property and pass in the token with the token
property instead.
Card Numbers and Mag Stripes
You can also pass in PANs and Mag Stripes, but you probably shouldn't, as this will put you in PCI scope and the most common vector for POS breaches is keylogging. If you use terminals for manual card entry, you'll bypass any keyloggers that might be maliciously running on the point-of-sale system.
Common Variations
Gift Card Redemption: There's no special API for gift card redemption in BlockChyp. Simply execute a plain charge transaction and if the customer swipes a gift card, our terminals will identify the gift card and run a gift card redemption. Also note that if for some reason the gift card's original purchase transaction is associated with fraud or a chargeback, the transaction will be rejected.
EBT: Set the card_type
field to blockchyp::CardType::EBT
to process an EBT SNAP transaction. Note that test EBT transactions always assume a balance of $100.00, so test EBT transactions over that amount may be declined.
Cash Back: To enable cash back for debit transactions, set the cash_back
field. If the card presented isn't a debit card, the cash_back
field will be ignored.
Manual Card Entry: Set the manual_entry
field to enable manual card entry. Good as a backup when chips and MSR's don't work or for more secure phone orders. You can even combine the manual_entry
field with the card_type
field set to blockchyp::CardType::EBT
for manual EBT card entry.
Inline Tokenization: You can enroll the payment method in the token vault inline with a charge transaction by setting the enroll
field. You'll get a token back in the response. You can even bind the token to a customer record if you also pass in customer data.
Prompting for Tips: Set the prompt_for_tip
field if you'd like to prompt the customer for a tip before authorization. Good for pay-at-the-table and other service related scenarios.
Cash Discounting and Surcharging: The surcharge
and cash_discount
fields can be used together to support cash discounting or surcharge problems. Consult the Cash Discount documentation for more details.
Cryptocurrency The cryptocurrency
field can be used to switch the standard present card screen to a cryptocurrency screen. The field value can be ANY
to enable any supported cryptocurrency or a single currency code such as BTC
for Bitcoin.
use blockchyp;
use std::error::Error;
fn charge_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::AuthorizationRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
amount: "55.00".to_string(),
..Default::default()
};
let (response, err) = client.charge(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.approved {
println!("approved");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
charge_example()?;
println!("Example completed successfully!");
Ok(())
}
A preauthorization puts a hold on funds and must be captured later. This is used in scenarios where the final transaction amount might change. A common example is fine dining, where a tip adjustment is required before final settlement.
Another use case for preauthorization is e-commerce. Typically, an online order is preauthorized at the time of the order and then captured when the order ships.
Preauthorizations can use a payment terminal to capture a payment or use a previously enrolled payment token.
Terminal Transactions
For terminal transactions, make sure you pass in the terminal name using the terminalName
property.
Token Transactions
If you have a payment token, omit the terminalName
property and pass in the token with the token
property instead.
Card Numbers and Mag Stripes
You can also pass in PANs and Mag Stripes, but you probably shouldn't, as this will put you in PCI scope and the most common vector for POS breaches is key logging. If you use terminals for manual card entry, you'll bypass any key loggers that might be maliciously running on the point-of-sale system.
Cryptocurrency
Note that preauths are not supported for cryptocurrency.
Common Variations
Manual Card Entry: Set the manual_entry
field to enable manual card entry. Good as a backup when chips and MSR's don't work or for more secure phone orders. You can even combine the manual_entry
field with card_type
set to blockchyp::CardType::EBT
for manual EBT card entry.
Inline Tokenization: You can enroll the payment method in the token vault in line with a charge transaction by setting the enroll
field. You'll get a token back in the response. You can even bind the token to a customer record if you also pass in customer data.
Prompting for Tips: Set the prompt_for_tip
field if you'd like to prompt the customer for a tip before authorization. You can prompt for tips as part of a preauthorization, although it's not a very common approach.
Cash Discounting and Surcharging: The surcharge
and cash_discount
fields can be used together to support cash discounting or surcharge problems. Consult the Cash Discount documentation for more details.
use blockchyp;
use std::error::Error;
fn preauth_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::AuthorizationRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
amount: "27.00".to_string(),
..Default::default()
};
let (response, err) = client.preauth(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.approved {
println!("approved");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
preauth_example()?;
println!("Example completed successfully!");
Ok(())
}
This API allows you to capture a previously approved preauthorization.
You'll need to make sure you pass in the Transaction ID returned by the original preauth transaction so we know which transaction we're capturing. If you want to capture the transaction for the exact amount of the preauth, the Transaction ID is all you need to pass in.
You can adjust the total if you need to by passing in a new amount
. We
also recommend you pass in updated amounts for tax
and tip
as it can
sometimes reduce your interchange fees. (Level II Processing, for example.)
use blockchyp;
use std::error::Error;
fn capture_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::CaptureRequest{
test: true,
transaction_id: "<ORIGINAL TRANSACTION ID>".to_string(),
amount: "32.00".to_string(),
..Default::default()
};
let (response, err) = client.capture(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.approved {
println!("approved");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
capture_example()?;
println!("Example completed successfully!");
Ok(())
}
It's not ideal, but sometimes customers want their money back.
Our refund API allows you to confront this unpleasant reality by executing refunds in a few different scenarios.
The most fraud resistent method is to execute refunds in the context of a previous transaction. You should always keep track of the Transaction ID returned in a BlockChyp response. To refund the full amount of the previous transaction, just pass in the original Transaction ID with the refund requests.
Partial Refunds
For a partial refund, just pass in an amount along with the Transaction ID. The only rule is that the amount must be equal to or less than the original transaction. You can execute multiple partial refunds against the same original transaction as long as the total refunded amount doesn't exceed the original amount.
Tokenized Refunds
You can also use a token to execute a refund. Pass in a token instead of the Transaction ID and the desired refund amount.
Free Range Refunds
When you execute a refund without referencing a previous transaction, we call this a free range refund.
We don't recommend this type of refund, but it is permitted. If you absolutely insist on doing it, pass in a Terminal Name and an amount.
You can execute a manual or keyed refund by passing the manual_entry
field
to a free range refund request.
Gift Card Refunds
Gift card refunds are allowed in the context of a previous transaction, but free range gift card refunds are not allowed. Use the gift card activation API if you need to add more funds to a gift card.
Store and Forward Support
Refunds are not permitted when a terminal falls back to store and forward mode.
Auto Voids
If a refund referencing a previous transaction is executed for the full amount before the original transaction's batch is closed, the refund is automatically converted to a void. This saves the merchant a little bit of money.
Cryptocurrency
Note that refunds are not supported for cryptocurrency. You must refund crypto transactions manually from your cryptocurrency wallet.
use blockchyp;
use std::error::Error;
fn refund_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::RefundRequest{
transaction_id: "<PREVIOUS TRANSACTION ID>".to_string(),
amount: "5.00".to_string(),
..Default::default()
};
let (response, err) = client.refund(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.approved {
println!("approved");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
refund_example()?;
println!("Example completed successfully!");
Ok(())
}
Mistakes happen. If a transaction is made by mistake, you can void it with this API. All that's needed is to pass in a Transaction ID and execute the void before the original transaction's batch closes.
Voids work with EBT and gift card transactions with no additional parameters.
Cryptocurrency
Note that voids are not supported for cryptocurrency. You must refund crypto transactions manually from your cryptocurrency wallet.
use blockchyp;
use std::error::Error;
fn void_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::VoidRequest{
test: true,
transaction_id: "<PREVIOUS TRANSACTION ID>".to_string(),
..Default::default()
};
let (response, err) = client.void(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.approved {
println!("approved");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
void_example()?;
println!("Example completed successfully!");
Ok(())
}
This API allows you to retrieve card metadata.
Card metadata requests can use a payment terminal to retrieve metadata or use a previously enrolled payment token.
Terminal Transactions
For terminal transactions, make sure you pass in the terminal name using the terminalName
property.
Token Transactions
If you have a payment token, omit the terminalName
property and pass in the token with the token
property instead.
Card Numbers and Mag Stripes
You can also pass in PANs and Mag Stripes, but you probably shouldn't, as this will put you in PCI scope and the most common vector for POS breaches is keylogging. If you use terminals for manual card entry, you'll bypass any keyloggers that might be maliciously running on the point-of-sale system.
use blockchyp;
use std::error::Error;
fn card_metadata_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::CardMetadataRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
..Default::default()
};
let (response, err) = client.card_metadata(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
card_metadata_example()?;
println!("Example completed successfully!");
Ok(())
}
Payment transactions require a stable network to function correctly and no network is stable all the time. Time out reversals are a great line of defense against accidentally double charging consumers when payments are retried during shaky network conditions.
We highly recommend developers use this API whenever a charge, preauth, or refund transaction times out. If you don't receive a definitive response from BlockChyp, you can't be certain about whether or not the transaction went through.
The best practice in this situation is to send a time out reversal request. Time out reversals check for a transaction and void it if it exists.
The only caveat is that developers must use the transactionRef
property (txRef
for the CLI) when executing charge, preauth, and refund transactions.
The reason for this requirement is that if a system never receives a definitive response for a transaction, the system would never have received the BlockChyp generated Transaction ID. We have to fall back to Transaction Ref to identify a transaction.
Cryptocurrency
Note that refunds are not supported for cryptocurrency. You must refund crypto transactions manually from your cryptocurrency wallet.
use blockchyp;
use std::error::Error;
fn reverse_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::AuthorizationRequest{
transaction_ref: "<LAST TRANSACTION REF>".to_string(),
..Default::default()
};
let (response, err) = client.reverse(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.approved {
println!("approved");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
reverse_example()?;
println!("Example completed successfully!");
Ok(())
}
This API activates or adds value to BlockChyp gift cards. Just pass in the terminal name and the amount to add to the card. Once the customer swipes their card, the terminal will use keys on the mag stripe to add value to the card.
You don't need to handle a new gift card activation or a gift card recharge any differently. The terminal firmware will figure out what to do on its own while also returning the new balance for the gift card.
This is the part of the system where BlockChyp's blockchain DNA comes closest to the surface. The BlockChyp gift card system doesn't really use gift card numbers. This means they can't be stolen.
BlockChyp identifies cards with an elliptic curve public key instead. Gift card transactions are actually blocks signed with those keys. This means there are no shared secrets sent over the network. To keep track of a BlockChyp gift card, hang on to the public key returned during gift card activation. That's the gift card's elliptic curve public key.
We sometimes print numbers on our gift cards, but these are actually decimal encoded hashes of a portion of the public key to make our gift cards seem normal to normies. They can be used for balance checks and play a lookup role in online gift card authorization, but are of little use beyond that.
Voids and Reversals
Gift card activations can be voided and reversed just like any other BlockChyp transaction. Use the Transaction ID or Transaction Ref to identify the gift activation transaction as you normally would for voiding or reversing a conventional payment transaction.
Importing Gift Cards
BlockChyp does have the ability to import gift card liability from conventional gift card platforms. Unfortunately, BlockChyp does not support activating cards on third party systems. However, you can import your outstanding gift cards and customers can swipe them on the terminals like BlockChyp's standard gift cards.
No special coding is required to access this feature. The gateway and terminal firmware handle everything for you.
Third Party Gift Card Networks
BlockChyp does not currently provide any native support for other gift card platforms beyond importing gift card liability. We do have a white listing system that can be used to support your own custom gift card implementations. We have a security review process before we can allow a BIN range to be white listed, so contact support@blockchyp.com if you need to white list a BIN range.
use blockchyp;
use std::error::Error;
fn gift_activate_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::GiftActivateRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
amount: "50.00".to_string(),
..Default::default()
};
let (response, err) = client.gift_activate(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.approved {
println!("approved");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
gift_activate_example()?;
println!("Example completed successfully!");
Ok(())
}
This API checks a gift or EBT card balance.
Gift Card Balance Checks
For gift cards, pass in a terminal name and the customer will be prompted to swipe a card on that terminal. The remaining balance will be displayed briefly on the terminal screen and the API response will include the gift card's public key and the remaining balance.
EBT Balance Checks
All EBT transactions require a PIN, so to check an EBT card balance,
you need to pass in the ebt
flag just like you would for a normal EBT
charge transaction. The customer will be prompted to swipe their card and
enter a PIN code. If everything checks out, the remaining balance on the
card will be displayed on the terminal for the customer and returned with the API response.
Testing Gift Card Balance Checks
Test gift card balance checks work no differently than live gift cards. You must activate a test gift card first to test balance checks. Test gift cards are real blockchain cards that live on our parallel test blockchain.
Testing EBT Gift Card Balance Checks
All test EBT transactions assume a starting balance of $100.00. As a result, test EBT balance checks always return a balance of $100.00.
use blockchyp;
use std::error::Error;
fn balance_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::BalanceRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
card_type: blockchyp::CardType::EBT,
..Default::default()
};
let (response, err) = client.balance(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
balance_example()?;
println!("Example completed successfully!");
Ok(())
}
This API will close the merchant's batch if it's currently open.
By default, merchant batches will close automatically at 3 AM in their local time zone. The automatic batch closure time can be changed in the Merchant Profile or disabled completely.
If automatic batch closure is disabled, you'll need to use this API to close the batch manually.
use blockchyp;
use std::error::Error;
fn close_batch_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::CloseBatchRequest{
test: true,
..Default::default()
};
let (response, err) = client.close_batch(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
close_batch_example()?;
println!("Example completed successfully!");
Ok(())
}
This API allows you to send an invoice to a customer and capture payment via a BlockChyp hosted payment page.
If you set the autoSend
flag, BlockChyp will send a basic invoice email
to the customer for you that includes the payment link. If you'd rather have
more control over the look of the email message, you can omit the autoSend
flag and send the customer email yourself.
There are a lot of optional parameters for this API, but at a minimum
you'll need to pass in a total, customer name, and email address. (Unless
you use the cashier
flag.)
Customer Info
Unless you're using the cashier
flag, you must specify a customer; either by
creating a new customer record inline or passing in an existing Customer ID or Customer Ref.
Line Item Level Data
It's not strictly required, but we strongly recommend sending line item level detail with every request. It will make the invoice look more complete and the data format for line item level data is the exact same format used for terminal line item display, so the same code can be used to support both areas.
Descriptions
You can also provide a free form description or message to display near the bottom of the invoice. Usually this is some kind of thank you note or instruction.
Terms and Conditions
You can include long form contract language with a request and capture terms and conditions accepted at the same time payment is captured.
The interface is identical to that used for the terminal based Terms and
Conditions API in that you can pass in content directly via tcContent
or via
a preconfigured template via tcAlias
. The Terms and Conditions log will also be updated when
agreement acceptance is incorporated into a send link request.
Auto Send
BlockChyp does not send the email notification automatically. This safeguard prevents real
emails from going out when you may not expect them If you want BlockChyp to send the email
for you, just add the autoSend
flag with all requests.
Cryptocurrency
If the merchant is configured to support cryptocurrency transactions, the payment page will display additional UI widgets that allowing customers to switch to a crypto payment method.
Tokenization
Add the enroll
flag to a send link request to enroll the payment method
in the token vault.
Add the enrollOnly
flag to enroll the payment method in the token vault without any immediate payment taking place. The payment link will ask the user for their payment information and inform them that they will not be charged immediately, but that their payment may be used for future transactions.
Cashier Facing Card Entry
BlockChyp can be used to generate internal/cashier facing card entry pages as well. This is designed for situations where you might need to take a phone order and don't have an available terminal.
If you pass in the cashier
flag, no email will be sent and you'll be able to
load the link in a browser or iframe for payment entry. When the cashier
flag
is used, the autoSend
flag will be ignored.
Note that cryptocurrency is not supported for cashier facing payment entry.
Payment Notifications
When a customer successfully submits payment, the merchant will receive an email notifying them that the payment was received.
Real Time Callback Notifications
Email notifications are fine, but you may want your system to be informed
immediately whenever a payment event occurs. By using the optional callbackUrl
request
property, you can specify a URL to which the Authorization Response will be posted
every time the user submits a payment, whether approved or otherwise.
The response will be sent as a JSON encoded POST request and will be the exact same format as all BlockChyp charge and preauth transaction responses.
Status Polling
If real time callbacks aren't practical or necessary in your environment, you can always use the Payment Link Status API described futher on.
A common use case for the send link API with status polling is curbside pickup. You could have your system check the Payment Link Status when a customer arrives to ensure it's been paid without necessarily needing to create background threads to constantly poll for status updates.
use blockchyp;
use std::error::Error;
fn send_payment_link_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::PaymentLinkRequest{
transaction_ref: "<TX REF>".to_string(),
amount: "199.99".to_string(),
description: "Widget".to_string(),
subject: "Widget invoice".to_string(),
transaction: Some(blockchyp::TransactionDisplayTransaction{
subtotal: "195.00".to_string(),
tax: "4.99".to_string(),
total: "199.99".to_string(),
items: Some(vec![
blockchyp::TransactionDisplayItem{
description: "Widget".to_string(),
price: "195.00".to_string(),
quantity: 1.0,
..Default::default()
},
]),
..Default::default()
}),
auto_send: true,
customer: blockchyp::Customer{
customer_ref: "Customer reference string".to_string(),
first_name: "FirstName".to_string(),
last_name: "LastName".to_string(),
company_name: "Company Name".to_string(),
email_address: "notifications@blockchypteam.m8r.co".to_string(),
sms_number: "(123) 123-1231".to_string(),
..Default::default()
},
..Default::default()
};
let (response, err) = client.send_payment_link(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
send_payment_link_example()?;
println!("Example completed successfully!");
Ok(())
}
This API will resend a previously created payment link. An error is returned if the payment link is expired, has been cancelled, or has already been paid.
use blockchyp;
use std::error::Error;
fn resend_payment_link_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::ResendPaymentLinkRequest{
link_code: "<PAYMENT LINK CODE>".to_string(),
..Default::default()
};
let (response, err) = client.resend_payment_link(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
resend_payment_link_example()?;
println!("Example completed successfully!");
Ok(())
}
This API cancels a payment link.
use blockchyp;
use std::error::Error;
fn cancel_payment_link_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::CancelPaymentLinkRequest{
link_code: "<PAYMENT LINK CODE>".to_string(),
..Default::default()
};
let (response, err) = client.cancel_payment_link(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
cancel_payment_link_example()?;
println!("Example completed successfully!");
Ok(())
}
This API allows you to check on the status of a payment link, including transaction data and the full history of attempted transactions.
This API is the preferred source of truth and best practice when you want to check on the status of a payment link (as opposed to Transaction Status). The Transaction Status API is not ideal because of ambiguity when there are multiple transactions associated with a single payment link.
You must pass the linkCode
value associated with the payment link. It is included in the response from BlockChyp when the payment link is originally created.
use blockchyp;
use std::error::Error;
fn payment_link_status_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::PaymentLinkStatusRequest{
link_code: "<PAYMENT LINK CODE>".to_string(),
..Default::default()
};
let (response, err) = client.payment_link_status(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
payment_link_status_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns the current status for any transaction. You can lookup a transaction by its BlockChyp assigned Transaction ID or your own Transaction Ref.
You should always use globally unique Transaction Ref values, but in the event that you duplicate Transaction Refs, the most recent transaction matching your Transaction Ref is returned.
use blockchyp;
use std::error::Error;
fn transaction_status_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::TransactionStatusRequest{
transaction_id: "<TRANSACTION ID>".to_string(),
..Default::default()
};
let (response, err) = client.transaction_status(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
transaction_status_example()?;
println!("Example completed successfully!");
Ok(())
}
This API calculates the surcharge, cash discount, and total amounts for cash transactions.
If you're using BlockChyp's cash discounting features, you can use this endpoint to ensure the numbers and receipts for true cash transactions are consistent with transactions processed by BlockChyp.
use blockchyp;
use std::error::Error;
fn cash_discount_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::CashDiscountRequest{
amount: "100.00".to_string(),
cash_discount: true,
surcharge: true,
..Default::default()
};
let (response, err) = client.cash_discount(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
cash_discount_example()?;
println!("Example completed successfully!");
Ok(())
}
This endpoint allows developers to query the gateway for the merchant's batch history. The data will be returned in descending order of open date with the most recent batch returned first. The results will include basic information about the batch. Consider using the Batch Details API for more detail about a specific batch.
Limiting Results
This API will return a maximum of 250 results. Use the maxResults
property to
limit maximum results even further and use the startIndex
property to
page through results that span multiple queries.
For example, if you want the ten most recent batches, pass in a value of
10
for maxResults
. Also note that startIndex
is zero based. Use a value of 0
to
get the first batch in the dataset.
Filtering by Date Range
You can also filter results by date. Use the startDate
and endDate
properties to return only those batches opened between those dates.
You can use either startDate
and endDate
and you can use date filters
in conjunction with maxResults
and startIndex
use blockchyp;
use std::error::Error;
fn batch_history_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::BatchHistoryRequest{
max_results: 250,
start_index: 0,
..Default::default()
};
let (response, err) = client.batch_history(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
batch_history_example()?;
println!("Example completed successfully!");
Ok(())
}
This API allows developers to pull down details for a specific batch, including captured volume, gift card activity, expected deposit, and captured volume broken down by terminal.
The only required request parameter is batchId
. Batch IDs are returned
with every transaction response and can be discovered using the Batch
History API.
use blockchyp;
use std::error::Error;
fn batch_details_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::BatchDetailsRequest{
batch_id: "<BATCH ID>".to_string(),
..Default::default()
};
let (response, err) = client.batch_details(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
batch_details_example()?;
println!("Example completed successfully!");
Ok(())
}
This endpoint provides several different methods to sift through transaction history.
By default with no filtering properties, this endpoint will return the 250 most recent transactions.
Limiting Results
This API will return a maximum of 50 results in a single query. Use the maxResults
property
to limit maximum results even further and use the startIndex
property to
page through results that span multiple queries.
For example, if you want the ten most recent batches, pass in a value of
10
for maxResults
. Also note that startIndex
is zero based. Use a value of 0
to
get the first transaction in the dataset.
Filtering By Date Range
You can also filter results by date. Use the startDate
and endDate
properties to return only transactions run between those dates.
You can use either startDate
or endDate
and you can use date filters
in conjunction with maxResults
and startIndex
Filtering By Batch
To restrict results to a single batch, pass in the batchId
parameter.
Filtering By Terminal
To restrict results to those executed on a single terminal, pass in the terminal name.
Combining Filters
None of the above filters are mutually exclusive. You can combine any of the above properties in a single request to restrict transaction results to a narrower set of results.
Searching Transaction History
You can search transaction history by passing in search criteria with the
query
option. The search system will match the amount (requested and authorized),
last four of the card number, cardholder name, and the auth code.
Note that when search queries are used, terminalName or batch id filters are not supported.
use blockchyp;
use std::error::Error;
fn transaction_history_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::TransactionHistoryRequest{
max_results: 10,
batch_id: "<BATCH ID>".to_string(),
..Default::default()
};
let (response, err) = client.transaction_history(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
transaction_history_example()?;
println!("Example completed successfully!");
Ok(())
}
Returns a list of transaction refs of transactions queued on a terminal. Details about the transactions can be retrieved using the Transaction Status API.
use blockchyp;
use std::error::Error;
fn list_queued_transactions_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::ListQueuedTransactionsRequest{
terminal_name: "Test Terminal".to_string(),
..Default::default()
};
let (response, err) = client.list_queued_transactions(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
list_queued_transactions_example()?;
println!("Example completed successfully!");
Ok(())
}
Deletes one or all queued transactions from a terminal. If *
is passed as
a transaction ref, then the entire terminal queue will be cleared. An error is
returned if the passed transaction ref is not queued on the terminal.
use blockchyp;
use std::error::Error;
fn delete_queued_transaction_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::DeleteQueuedTransactionRequest{
terminal_name: "Test Terminal".to_string(),
transaction_ref: "*".to_string(),
..Default::default()
};
let (response, err) = client.delete_queued_transaction(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
delete_queued_transaction_example()?;
println!("Example completed successfully!");
Ok(())
}
These APIs support terminal management functions and additional terminal
features such as line item display, messages, and interactive prompts.
These features can be used to extend a point of sale system's functionality.
This simple test transaction helps ensure good communication with a payment terminal and is usually the first test you'll run in development.
It tests communication with the terminal and returns a positive response if everything is okay. It works the same way in local or cloud relay mode.
If you get a positive response, you've successfully verified all of the following:
The terminal is online.
There is a valid route to the terminal.
The API Credentials are valid.
use blockchyp;
use std::error::Error;
fn ping_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::PingRequest{
terminal_name: "Test Terminal".to_string(),
..Default::default()
};
let (response, err) = client.ping(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
ping_example()?;
println!("Example completed successfully!");
Ok(())
}
This endpoint returns a terminal's routing and location information.
The result will indicate whether or not the terminal is in cloud relay mode and will return the local IP address if the terminal is in local mode.
The terminal will also return the public key for the terminal.
use blockchyp;
use std::error::Error;
fn locate_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::LocateRequest{
terminal_name: "Test Terminal".to_string(),
..Default::default()
};
let (response, err) = client.locate(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
locate_example()?;
println!("Example completed successfully!");
Ok(())
}
This API interrupts whatever a terminal may be doing and returns it to the idle state.
use blockchyp;
use std::error::Error;
fn clear_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::ClearTerminalRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
..Default::default()
};
let (response, err) = client.clear(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
clear_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns the current status of a payment terminal. This is typically used as a way to determine if the terminal is busy before sending a new transaction.
If the terminal is busy, idle
will be false and the status
field will return
a short string that indicates the transaction type currently in progress. The system
will also return the timestamp of the last status change in the since
field.
The cardInSlot
field in the response will indicates whether or not a card is currently in the card reader slot.
If the system is running a payment transaction and you wisely passed in a Transaction Ref, this API will also return the Transaction Ref of the in progress transaction.
The table below lists all possible status responses.
Status Code | Description |
---|---|
idle | The terminal is idle and ready for transactions. The default branding is being displayed. |
activate | The terminal is in the process of activating and pairing with the merchant account. |
balance | A balance check (EBT or Gift Card) is pending on the terminal. |
boolean-prompt | A boolean prompt (yes/no) operation is pending on the terminal. |
signature | A signature capture is pending. |
crypto | A cryptocurrency transaction is pending. |
enroll | A token vault enrollment operation is pending. |
gift-activate | A gift card activation operation is in progress. |
message | The terminal is displaying a custom message. |
charge | The terminal is executing a charge transaction. |
preauth | The terminal is executing a preauth transaction. |
refund | The terminal is executing a refund transaction. |
survey | The terminal is displaying post transaction survey questions. |
terms-and-conditions | The terminal is pending terms and conditions acceptance and signature. |
text-prompt | The terminal is awaiting response to a text input prompt. |
txdisplay | The terminal is displaying transaction and/or line item level details. |
use blockchyp;
use std::error::Error;
fn terminal_status_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::TerminalStatusRequest{
terminal_name: "Test Terminal".to_string(),
..Default::default()
};
let (response, err) = client.terminal_status(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
terminal_status_example()?;
println!("Example completed successfully!");
Ok(())
}
This endpoint captures a written signature from the terminal and returns the image.
Unlike the Terms & Conditions API, this endpoint performs basic signature capture with no agreement display or signature archival.
Under the hood, signatures are captured in a proprietary vector format and
must be converted to a common raster format in order to be useful to most
applications. At a minimum, you must specify an image format using the
sigFormat
parameter. Currently, JPG and PNG are supported.
By default, images are returned in the JSON response as hex encoded binary.
You can redirect the binary image output to a file using the sigFile
parameter.
You can also scale the output image to your preferred width by
passing in a sigWidth
parameter. The image will be scaled to that
width, preserving the aspect ratio of the original image.
use blockchyp;
use std::error::Error;
fn capture_signature_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::CaptureSignatureRequest{
terminal_name: "Test Terminal".to_string(),
sig_format: blockchyp::SignatureFormat::PNG,
sig_width: 200,
..Default::default()
};
let (response, err) = client.capture_signature(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
capture_signature_example()?;
println!("Example completed successfully!");
Ok(())
}
This API sends totals and line item level data to the terminal.
At a minimum, you should send total information as part of a display request,
including total
, tax
, and subtotal
.
You can also send line item level data and each line item can have a description
,
qty
, price
, and extended
price.
If you fail to send an extended price, BlockChyp will multiply the qty
by the
price
. However, we strongly recommend you precalculate all the fields yourself
to ensure consistency. For example, your treatment of floating-point multiplication
and rounding may differ slightly from BlockChyp's.
Discounts
You have the option to show discounts on the display as individual line items with negative values or you can associate discounts with a specific line item. You can apply any number of discounts to an individual line item with a description and amount.
use blockchyp;
use std::error::Error;
fn new_transaction_display_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::TransactionDisplayRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
transaction: Some(blockchyp::TransactionDisplayTransaction{
subtotal: "60.00".to_string(),
tax: "5.00".to_string(),
total: "65.00".to_string(),
items: Some(vec![
blockchyp::TransactionDisplayItem{
description: "Leki Trekking Poles".to_string(),
price: "35.00".to_string(),
quantity: 2.0,
extended: "70.00".to_string(),
discounts: Some(vec![
blockchyp::TransactionDisplayDiscount{
description: "memberDiscount".to_string(),
amount: "10.00".to_string(),
..Default::default()
},
]),
..Default::default()
},
]),
..Default::default()
}),
..Default::default()
};
let (response, err) = client.new_transaction_display(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
new_transaction_display_example()?;
println!("Example completed successfully!");
Ok(())
}
Similar to New Transaction Display, this variant allows developers to update line item level data currently being displayed on the terminal.
This feature is designed for situations where you want to update the terminal display as items are scanned. You'll only have to send information to the terminal that's changed, which usually means the new line item and updated totals.
If the terminal is not in line item display mode and you invoke this endpoint, the first invocation will behave like a New Transaction Display call.
At a minimum, you should send total information as part of a display request,
including total
, tax
, and subtotal
.
You can also send line item level data and each line item can have a description
,
qty
, price
, and extended
price.
If you fail to send an extended price, BlockChyp will multiply the qty
by the
price
. However, we strongly recommend you precalculate all the fields yourself
to ensure consistency. For example, your treatment of floating-point multiplication and rounding
may differ slightly from BlockChyp's.
Discounts
You have the option to show discounts on the display as individual line items with negative values or you can associate discounts with a specific line item. You can apply any number of discounts to an individual line item with a description and amount.
use blockchyp;
use std::error::Error;
fn update_transaction_display_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::TransactionDisplayRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
transaction: Some(blockchyp::TransactionDisplayTransaction{
subtotal: "60.00".to_string(),
tax: "5.00".to_string(),
total: "65.00".to_string(),
items: Some(vec![
blockchyp::TransactionDisplayItem{
description: "Leki Trekking Poles".to_string(),
price: "35.00".to_string(),
quantity: 2.0,
extended: "70.00".to_string(),
discounts: Some(vec![
blockchyp::TransactionDisplayDiscount{
description: "memberDiscount".to_string(),
amount: "10.00".to_string(),
..Default::default()
},
]),
..Default::default()
},
]),
..Default::default()
}),
..Default::default()
};
let (response, err) = client.update_transaction_display(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
update_transaction_display_example()?;
println!("Example completed successfully!");
Ok(())
}
This API displays a message on the payment terminal.
Just specify the target terminal and the message using the message
parameter.
use blockchyp;
use std::error::Error;
fn message_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::MessageRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
message: "Thank you for your business.".to_string(),
..Default::default()
};
let (response, err) = client.message(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
message_example()?;
println!("Example completed successfully!");
Ok(())
}
This API prompts the customer to answer a yes or no question.
You can specify the question or prompt with the prompt
parameter and
the response is returned in the response
field.
This can be used for a number of use cases including starting a loyalty enrollment workflow or customer facing suggestive selling prompts.
Custom Captions
You can optionally override the "YES" and "NO" button captions by
using the yesCaption
and noCaption
request parameters.
use blockchyp;
use std::error::Error;
fn boolean_prompt_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::BooleanPromptRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
prompt: "Would you like to become a member?".to_string(),
yes_caption: "Yes".to_string(),
no_caption: "No".to_string(),
..Default::default()
};
let (response, err) = client.boolean_prompt(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
boolean_prompt_example()?;
println!("Example completed successfully!");
Ok(())
}
This API prompts the customer to enter numeric or alphanumeric data.
Due to PCI rules, free-form prompts are not permitted when the response could be any valid string. The reason for this is that a malicious developer (not you, of course) could use text prompts to ask the customer to input a card number or PIN code.
This means that instead of providing a prompt, you provide a promptType
instead.
The prompt types currently supported are listed below:
You can specify the prompt with the promptType
parameter and
the response is returned in the response
field.
use blockchyp;
use std::error::Error;
fn text_prompt_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::TextPromptRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
prompt_type: blockchyp::PromptType::Email,
..Default::default()
};
let (response, err) = client.text_prompt(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
text_prompt_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns details about terminals associated with a merchant account.
Status and resource information is returned for all terminals along with a preview of the current branding image displayed on the terminal
use blockchyp;
use std::error::Error;
fn terminals_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::TerminalProfileRequest{
..Default::default()
};
let (response, err) = client.terminals(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
terminals_example()?;
println!("Example completed successfully!");
Ok(())
}
This API deactivates a payment terminal.
If the terminal exists and is currently online, it will be removed from the merchant's terminal inventory. The terminal will be remotely cleared and factory reset.
use blockchyp;
use std::error::Error;
fn deactivate_terminal_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::TerminalDeactivationRequest{
terminal_id: "<TERMINAL ID>".to_string(),
..Default::default()
};
let (response, err) = client.deactivate_terminal(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
deactivate_terminal_example()?;
println!("Example completed successfully!");
Ok(())
}
This API activates a payment terminal.
If successful, the payment terminal will restart, generate new encryption keys, and download any active branding assets for the merchant account it's been added to.
Activation requests require an activation code and a unique terminal name. All terminal names must be unique across a merchant account.
Optional Parameters
merchantId: For partner scoped API credentials, a merchant ID is required. For merchant scoped API credentials, the merchant ID is implicit and cannot be overridden.
cloudRelay: Activates the terminal in cloud relay mode.
use blockchyp;
use std::error::Error;
fn activate_terminal_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::TerminalActivationRequest{
terminal_name: "Test Terminal".to_string(),
activation_code: "<ACTIVATION CODE>".to_string(),
..Default::default()
};
let (response, err) = client.activate_terminal(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
activate_terminal_example()?;
println!("Example completed successfully!");
Ok(())
}
This API reboots the terminal.
use blockchyp;
use std::error::Error;
fn reboot_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::PingRequest{
terminal_name: "Test Terminal".to_string(),
..Default::default()
};
let (response, err) = client.reboot(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
reboot_example()?;
println!("Example completed successfully!");
Ok(())
}
Developers can use BlockChyp to display and capture acceptance of contracts or agreements related to transactions. These agreements can be any long-form contract ranging from rental agreements to HIPPA disclosures.
There are two basic approaches to terms and conditions capture. Merchants can store contract templates in BlockChyp or they can send the full agreement text as part of every API call. The right approach will largely depend on whether or not the system being integrated with BlockChyp already has a mechanism for organizing and managing agreements. For systems that already have this feature built in, it's probably not necessary to use Terms and Conditions.
When agreements are displayed on a terminal, the consumer can scroll through and read the entire agreement, and provide a signature. Results are returned as part of the API response, but BlockChyp also stores a record of the agreement including the signature image, timestamp, and the full text of the agreement that was agreed to.
The Terms and Conditions Log APIs can be used to search and retrieve acceptance records. Those records can also be linked to a transaction if a transaction id is provided with the original API request.
This API allows you to prompt a customer to accept a legal agreement on the terminal and (usually) capture their signature.
Content for the agreement can be specified in two ways. You can reference a previously configured T&C template or pass in the full agreement text with every request.
Using Templates
If your application doesn't keep track of agreements you can leverage BlockChyp's
template system. You can create any number of T&C Templates in the merchant dashboard
and pass in the tcAlias
flag to specify which one should display.
Raw Content
If your system keeps track of the agreement language or executes complicated merging
and rendering logic, you can bypass our template system and pass in the full text with
every transaction. Use tcName
to pass in the agreement name and tcContent
to
pass in the contract text. Note that only plain text is supported.
Bypassing Signatures
Signature images are captured by default. If for some reason this doesn't fit your
use case and you'd like to capture acceptance without actually capturing a signature image, set
the disableSignature
flag in the request.
Terms & Conditions Log
Every time a user accepts an agreement on the terminal, the signature image (if captured), will be uploaded to the gateway. The image will also be added to the log along with the full text of the agreement. This preserves the historical record in the event that standard agreements or templates change over time.
Associating Agreements with Transactions
To associate a Terms & Conditions log entry with a transaction, just pass in the Transaction ID or Transaction Ref for the associated transaction.
use blockchyp;
use std::error::Error;
fn terms_and_conditions_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::TermsAndConditionsRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
tc_alias: "hippa".to_string(),
tc_name: "HIPPA Disclosure".to_string(),
tc_content: "Full contract text".to_string(),
sig_format: blockchyp::SignatureFormat::PNG,
sig_width: 200,
sig_required: true,
..Default::default()
};
let (response, err) = client.terms_and_conditions(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
terms_and_conditions_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns all terms and conditions templates associated with a merchant account.
use blockchyp;
use std::error::Error;
fn tc_templates_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::TermsAndConditionsTemplateRequest{
..Default::default()
};
let (response, err) = client.tc_templates(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
tc_templates_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns as single terms and conditions template.
use blockchyp;
use std::error::Error;
fn tc_template_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::TermsAndConditionsTemplateRequest{
template_id: "<TEMPLATE ID>".to_string(),
..Default::default()
};
let (response, err) = client.tc_template(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
tc_template_example()?;
println!("Example completed successfully!");
Ok(())
}
This API updates or creates a terms and conditions template.
Terms and conditions templates are fairly simple and essentially consist of a name, content, and alias.
The name is the caption that will be displayed at the top of the screen. The alias is a code or short description that will be used in subsequence API calls to refer to the template.
Content is the full text of the contract or agreement. Currently, no special formatting or merge behavior is supported. Only plain text is supported.
use blockchyp;
use std::error::Error;
fn tc_update_template_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::TermsAndConditionsTemplate{
alias: "HIPPA".to_string(),
name: "HIPPA Disclosure".to_string(),
content: "Lorem ipsum dolor sit amet.".to_string(),
..Default::default()
};
let (response, err) = client.tc_update_template(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
tc_update_template_example()?;
println!("Example completed successfully!");
Ok(())
}
This API deletes a terms and conditions template.
If a template is deleted, its alias can be reused and any previous Terms & Conditions log entry derived from the template being deleted is fully preserved since log entries always include a complete independent copy of the agreement text.
use blockchyp;
use std::error::Error;
fn tc_delete_template_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::TermsAndConditionsTemplateRequest{
template_id: "<TEMPLATE ID>".to_string(),
..Default::default()
};
let (response, err) = client.tc_delete_template(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
tc_delete_template_example()?;
println!("Example completed successfully!");
Ok(())
}
This API allows developers to search and sort through terms and conditions log entries.
The default API call with no parameters will return the last 250 log entries in descending order.
Optional parameters can be used to filter and query the data set.
transactionId: If provided, returns only those log entries associated with a specific transactions. Paging and date filters are ignored if this parameter is used.
maxResults: The max number of results to return in a single page. Defaults to 250 and 250 is the maximum value.
startIndex The zero based start index of results within the full result set to return. Used to advance pages. For example, if the page size is 10 and you wish to return the second page of results, send a startIndex of 10.
startDate: An optional start date for results provided as an ISO 8601 timestamp. (e.g. 2022-05-24T13:51:38+00:00)
endDate: An optional end date for results provided as an ISO 8601 timestamp. (e.g. 2022-05-24T13:51:38+00:00)
use blockchyp;
use std::error::Error;
fn tc_log_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::TermsAndConditionsLogRequest{
log_entry_id: "<LOG ENTRY ID>".to_string(),
..Default::default()
};
let (response, err) = client.tc_log(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
tc_log_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns details for a single terms and conditions log entry. The logEntryId
of the record to be returned is the only required parameter.
The signature image is returned as Base 64 encoded binary in the image format specified by the sigFormat
field.
The default format is PNG.
use blockchyp;
use std::error::Error;
fn tc_entry_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::TermsAndConditionsLogRequest{
log_entry_id: "<ENTRY ID>".to_string(),
..Default::default()
};
let (response, err) = client.tc_entry(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
tc_entry_example()?;
println!("Example completed successfully!");
Ok(())
}
BlockChyp supports saved payments and recurring payments through the use of tokens. Tokens can be created via the Enroll API or the web tokenizer. Once created, these tokens can be used for subsequent payments or associated with customer records as saved payment methods.
Tokens are limited to a single merchant by default, but can be shared across an organization for multi-location merchants by special arrangement with BlockChyp. Contact your BlockChyp rep to setup token sharing.
This API allows you to tokenize and enroll a payment method in the token vault. You can also pass in customer information and associate the payment method with a customer record.
A token is returned in the response that can be used in subsequent charge, preauth, and refund transactions.
Gift Cards and EBT
Gift Cards and EBT cards cannot be tokenized.
E-Commerce Tokens
The tokens returned by the enroll API and the e-commerce web tokenizer are the same tokens and can be used interchangeably.
use blockchyp;
use std::error::Error;
fn enroll_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let mut request = blockchyp::EnrollRequest{
test: true,
terminal_name: "Test Terminal".to_string(),
..Default::default()
};
let (response, err) = client.enroll(&mut request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.approved {
println!("approved");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
enroll_example()?;
println!("Example completed successfully!");
Ok(())
}
This API retrieves status and metadata information about a token, including any links to customer records.
This will also return any customer records related to the card behind the token. If the underlying card has been tokenized multiple times, all customers related to the card will be returned, even if those customer associations are related to other tokens.
use blockchyp;
use std::error::Error;
fn token_metadata_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::TokenMetadataRequest{
token: "<TOKEN>".to_string(),
..Default::default()
};
let (response, err) = client.token_metadata(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
token_metadata_example()?;
println!("Example completed successfully!");
Ok(())
}
This API links a payment token with a customer record. Usually this would only be needed to reverse a previous unlink operation.
use blockchyp;
use std::error::Error;
fn link_token_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::LinkTokenRequest{
token: "<TOKEN>".to_string(),
customer_id: "<CUSTOMER ID>".to_string(),
..Default::default()
};
let (response, err) = client.link_token(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
link_token_example()?;
println!("Example completed successfully!");
Ok(())
}
This API removes a payment token link from a customer record.
This will remove links between the customer record and all tokens for the same underlying card.
use blockchyp;
use std::error::Error;
fn unlink_token_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::UnlinkTokenRequest{
token: "<TOKEN>".to_string(),
customer_id: "<CUSTOMER ID>".to_string(),
..Default::default()
};
let (response, err) = client.unlink_token(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
unlink_token_example()?;
println!("Example completed successfully!");
Ok(())
}
This API deletes a payment token from the gateway. Tokens are automatically deleted if they have not been used for a year.
use blockchyp;
use std::error::Error;
fn delete_token_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::DeleteTokenRequest{
token: "<TOKEN>".to_string(),
..Default::default()
};
let (response, err) = client.delete_token(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
delete_token_example()?;
println!("Example completed successfully!");
Ok(())
}
These APIs allow developers to create and manage customer records in BlockChyp. Developers who wish to use BlockChyp for tokenized recurring payments can use tokens directly if they have their own customer management system. However, BlockChyp provides additional tools for managing customers and keeping track of a customer's saved payment tokens.
In addition, if customer features are used, BlockChyp can detect a payment method associated with an existing customer, and return customer data with payment transactions. This can be used as a passive method to detect repeat customers.
This API adds or updates a customer record.
If you pass in customer information including firstName
, lastName
, email
,
or sms
without any Customer ID or Customer Ref, a new record will
be created.
If you pass in customerRef
and customerId
, the customer record will be updated
if it exists.
Customer Ref
The customerRef
field is optional, but highly recommended as this allows you
to use your own customer identifiers instead of storing BlockChyp's Customer IDs
in your systems.
Creating Customer Records With Payment Transactions
If you have customer information available at the time a payment transaction is executed, you can pass all the same customer information directly into a payment transaction. BlockChyp will create a customer record at the same time payment is captured. The advantage of this approach is that the customer's payment card is automatically associated with the customer record in a single step. If the customer uses the payment card in the future, the customer data will automatically be returned. You won't need to ask the customer to provide any additional information.
use blockchyp;
use std::error::Error;
fn update_customer_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::UpdateCustomerRequest{
customer: blockchyp::Customer{
id: "<CUSTOMER ID>".to_string(),
customer_ref: "Customer reference string".to_string(),
first_name: "FirstName".to_string(),
last_name: "LastName".to_string(),
company_name: "Company Name".to_string(),
email_address: "notifications@blockchypteam.m8r.co".to_string(),
sms_number: "(123) 123-1231".to_string(),
..Default::default()
},
..Default::default()
};
let (response, err) = client.update_customer(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
update_customer_example()?;
println!("Example completed successfully!");
Ok(())
}
With this API, you can retrieve detailed information about a customer record, including saved payment methods if available.
Customers can be looked up by customerId
or customerRef
.
use blockchyp;
use std::error::Error;
fn customer_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::CustomerRequest{
customer_id: "<CUSTOMER ID>".to_string(),
..Default::default()
};
let (response, err) = client.customer(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
customer_example()?;
println!("Example completed successfully!");
Ok(())
}
This API searches the customer database and returns matching results.
Use query
to pass in a search string and the system will return all results whose
first or last names contain the query string.
use blockchyp;
use std::error::Error;
fn customer_search_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::CustomerSearchRequest{
query: "(123) 123-1234".to_string(),
..Default::default()
};
let (response, err) = client.customer_search(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
customer_search_example()?;
println!("Example completed successfully!");
Ok(())
}
This API deletes a customer record.
use blockchyp;
use std::error::Error;
fn delete_customer_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::DeleteCustomerRequest{
customer_id: "<CUSTOMER ID>".to_string(),
..Default::default()
};
let (response, err) = client.delete_customer(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
delete_customer_example()?;
println!("Example completed successfully!");
Ok(())
}
These APIs are used to work with post-transaction surveys and survey data.
Merchants can optionally configure scaled (1-5) or yes/no questions that can be presented to consumers after every approved Charge and Preauth transaction. Surveys do not require any custom programming and merchants can simply configure them without the point-of-sale system needing any additional customization.
However, these APIs allow point-of-sale or third-party system developers to integrate survey question configuration or result visualization into their own systems.
This API returns all survey questions in the order in which they would be presented on the terminal.
All questions are returned, whether enabled or disabled.
use blockchyp;
use std::error::Error;
fn survey_questions_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::SurveyQuestionRequest{
..Default::default()
};
let (response, err) = client.survey_questions(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
survey_questions_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns a single survey question with response data. questionId
is required.
use blockchyp;
use std::error::Error;
fn survey_question_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::SurveyQuestionRequest{
question_id: "<QUESTION ID>".to_string(),
..Default::default()
};
let (response, err) = client.survey_question(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
survey_question_example()?;
println!("Example completed successfully!");
Ok(())
}
This API updates or creates survey questions. questionText
and questionType
are required
fields. The following values are valid for questionType
.
Questions are disabled by default. Pass in enabled
to enable a question.
The ordinal
field is used to control the sequence of questions when multiple questions are enabled. We recommend keeping
the number of questions minimal.
use blockchyp;
use std::error::Error;
fn update_survey_question_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::SurveyQuestion{
id: "<QUESTION ID>".to_string(),
ordinal: 1,
question_text: "Would you shop here again?".to_string(),
question_type: "yes_no".to_string(),
enabled: true,
..Default::default()
};
let (response, err) = client.update_survey_question(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
update_survey_question_example()?;
println!("Example completed successfully!");
Ok(())
}
This API deletes a survey question. questionId
is a required parameter.
use blockchyp;
use std::error::Error;
fn delete_survey_question_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::SurveyQuestionRequest{
question_id: "<QUESTION ID>".to_string(),
..Default::default()
};
let (response, err) = client.delete_survey_question(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
delete_survey_question_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns survey results for a single question.
The results returned include the response rate, which is the percentage of transactions after which the consumer provided an answer.
The responses
array breaks down the results by answer, providing the total number of responses,
the answer's percentage of the total, and the average transaction amount associated with a specific
answer.
By default, all results based on all responses are returned. However, developers may optionally provide
startDate
and endDate
parameters to return only responses provided between certain dates.
startDate
and endDate
can be provided in MM/DD/YYYY or YYYY-MM-DD format.
use blockchyp;
use std::error::Error;
fn survey_results_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::SurveyResultsRequest{
question_id: "<QUESTION ID>".to_string(),
..Default::default()
};
let (response, err) = client.survey_results(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
survey_results_example()?;
println!("Example completed successfully!");
Ok(())
}
BlockChyp has a sophisticated terminal media and branding control platform. Terminals can be configured to display logos, images, videos, and slide shows when a terminal is idle. Branding assets can be configured at the partner, organization, and merchant level with fine-grained hour-by-hour schedules, if desired.
Conceptually, all branding and media start with the media library. Merchants, Partners, and Organizations can upload images or video and build branding assets from uploaded media.
Slide shows can combine images from the media library into a timed loop of repeating images.
Branding Assets can then be used to combine media or slide shows with priority and timing rules to create what we call the Terminal Branding Stack.
We call a group of branding assets the Terminal Branding Stack because there are implicit rules about which branding assets take priority. For example, a merchant with no branding assets configured will inherit the branding rules from any organization to which the merchant may belong. If the merchant doesn't belong to an organization or the organization has no branding rules configured, then the system will defer to branding defaults established by the point-of-sale or software partner that owns the merchant.
This feature enables partners and organizations (multi-store operators and large national chains) to configure branding for potentially thousands of terminals from a single interface.
Terminal Branding can also be configured at the individual terminal level and a merchant's terminal fleet can be broken into groups and branding configured at the group level. Branding configured at the terminal level will always override branding from any higher level group.
The order of priority for the Terminal Branding Stack is given below.
Terminal
Terminal Group
Merchant
Organization (Region, Chain, etc)
Partner
BlockChyp Default Logo
This API returns the entire media library associated with the API Credentials (Merchant, Partner, or Organization). The media library results will include the ID used to reference a media asset in slide shows and branding assets along with the full file url and thumbnail.
use blockchyp;
use std::error::Error;
fn media_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::MediaRequest{
..Default::default()
};
let (response, err) = client.media(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
media_example()?;
println!("Example completed successfully!");
Ok(())
}
This API supports media library uploads. The operation of this API works slightly differently depending on the SDK platform. In all cases, the intent is to allow the file's binary to be passed into the SDK using the lowest level I/O primitive possible in order to support situations where developers aren't working with literal files. It might be (and usually is) more convenient to work with buffers, raw bytes, or streams.
For example, the Go implementation accepts an io.Reader
and the Java implementation accepts a
java.io.InputStream
. The CLI does accept a literal File URL via the -file
command line parameter.
The following file formats are accepted as valid uploads:
The UploadMetadata object allows developers to pass additional metadata about the upload including
fileName
, fileSize
, and uploadId
.
None of these values are required, but providing them can unlock some additional functionality relating to
media uploads. fileName
will be used to record the original file name in the media library. fileSize
and uploadId
are used to support upload status tracking, which is especially useful for large video file
uploads.
The fileSize
should be the file's full size in bytes.
The uploadId
value can be any random string. This is the value you'll use to check the status of an upload
via the Upload Status API. This API will return information needed to drive progress feedback on uploads and
return video transcoding information.
use blockchyp;
use std::error::Error;
use std::fs::File;
fn upload_media_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::UploadMetadata{
file_name: "aviato.png".to_string(),
file_size: 18843,
upload_id: "<RANDOM ID>".to_string(),
..Default::default()
};
let mut file = File::open("aviato.png")?;
let (response, err) = client.upload_media(&request, &mut file);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
upload_media_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns status and progress information about in progress or recently completed uploads.
Before calling this API, developers must first start a file upload with fileSize
and uploadId
parameters.
The data structure returned will include the file size, number of bytes uploaded, a narrative status
and flags indicating whether or not the upload is complete or post upload processing is in progress.
If the upload is completed, the ID assigned to the media asset and a link to the thumbnail image will
also be returned.
use blockchyp;
use std::error::Error;
fn upload_status_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::UploadStatusRequest{
upload_id: "<UPLOAD ID>".to_string(),
..Default::default()
};
let (response, err) = client.upload_status(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
upload_status_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns a detailed media asset. The data returned includes the exact same media information returned by the full media library endpoint, including fully qualified URLs pointing to the original media file and the thumbnail.
use blockchyp;
use std::error::Error;
fn media_asset_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::MediaRequest{
media_id: "<MEDIA ASSET ID>".to_string(),
..Default::default()
};
let (response, err) = client.media_asset(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
media_asset_example()?;
println!("Example completed successfully!");
Ok(())
}
This API deletes a media asset. Note that a media asset cannot be deleted if it is in use in a slide show or in the terminal branding stack.
use blockchyp;
use std::error::Error;
fn delete_media_asset_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::MediaRequest{
media_id: "<MEDIA ASSET ID>".to_string(),
..Default::default()
};
let (response, err) = client.delete_media_asset(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
delete_media_asset_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns all slide shows.
Note that slide level data is not returned with this API. Use the Get Slide Show API to get slide level detail.
use blockchyp;
use std::error::Error;
fn slide_shows_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::SlideShowRequest{
..Default::default()
};
let (response, err) = client.slide_shows(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
slide_shows_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns a single slide show. Slide level detail is returned with the fully qualified thumbnail URL for each slide.
slideShowId
is the only required parameter.
use blockchyp;
use std::error::Error;
fn slide_show_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::SlideShowRequest{
slide_show_id: "<SLIDE SHOW ID>".to_string(),
..Default::default()
};
let (response, err) = client.slide_show(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
slide_show_example()?;
println!("Example completed successfully!");
Ok(())
}
This API updates or creates a slide show. name
, delay
and slides
are required.
The slides property is an array of slides. The Slide data structure has ordinal and thumbnail URL fields,
but these are not required when updating or creating a slide show. Only the mediaId
field is required
when updating or creating a slide show.
When using the CLI, slides can be specified by sending a comma-separated list of media ids via the -mediaId
parameter.
use blockchyp;
use std::error::Error;
fn update_slide_show_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::SlideShow{
name: "Test Slide Show".to_string(),
delay: 5,
slides: Some(vec![
blockchyp::Slide{
media_id: "<MEDIA ID>".to_string(),
..Default::default()
},
]),
..Default::default()
};
let (response, err) = client.update_slide_show(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
update_slide_show_example()?;
println!("Example completed successfully!");
Ok(())
}
This API deletes a slide show slideShowId
is the only required parameter.
use blockchyp;
use std::error::Error;
fn delete_slide_show_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::SlideShowRequest{
slide_show_id: "<SLIDE SHOW ID>".to_string(),
..Default::default()
};
let (response, err) = client.delete_slide_show(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
delete_slide_show_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns the full branding stack for a given API scope in the order of priority.
Consumers of this API should pay special attention to the editable
field. This field indicates whether or
not a branding asset is read-only from the perspective of a particular API Credential scope.
The thumbnail
and previewImage
attributes can be used to support building user interfaces for
managing the branding stack. previewImage
differs from thumbnail
in that the preview image is
intended to show how an asset would actually look when displayed on the terminal.
activeAsset
returns the asset that is currently visible on the terminal.
use blockchyp;
use std::error::Error;
fn terminal_branding_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::BrandingAssetRequest{
..Default::default()
};
let (response, err) = client.terminal_branding(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
terminal_branding_example()?;
println!("Example completed successfully!");
Ok(())
}
This API updates or creates a single Branding Asset.
Branding Assets represent a single element of the terminal branding stack. A Branding Asset can be a video or image,
in which case a mediaId
referencing an asset from the media library must be provided. A Branding Asset can also
be a slide show, in which case slideShowId
must be provided. Branding Assets must have a valid mediaId
or a valid
slideShowId
. The optional notes
field can be used to provide short notes and descriptions for a Branding asset.
Visibility Flags
In order for a Branding Asset to be visible on a terminal, the enabled
flag must be set to true and the preview
must be turned off. preview
is intended to show how a proposed Branding Asset will behave
without pushing it to live terminals. The Publish button in the BlockChyp merchant portal effectively turns
the preview
setting off.
Order and Sequencing
The ordinal
field is used to specify priority for a Branding Asset. Assets with a higher value for ordinal
will be prioritized first.
Padding Images
For plain images, it's sometimes helpful to add margins to images. This is especially helpful with logos
or any image file rendered without any white space or margins between the image content and edge of the image file.
Set the padded
flag to true if you'd like BlockChyp to auto apply margins when displaying an image on
the terminal.
Scheduling
By default, a Branding Asset placed on top of the Branding Stack, if it's enabled
and not in preview
mode, will immediately be displayed on the terminal round the clock.
Branding Assets can be scheduled with effective start and stop dates for seasonal campaigns. These assets can also be scheduled for specific times of day and specific days of the week.
Read Only Fields
The Branding Asset data structure has a number of read only fields that are returned when Branding Assets are retrieved. But these fields are ignored when you try to send them as part of an update. These are derived or calculated fields and are helpful for displaying branding assets in a management user interface, but cannot be changed via an API call.
These fields are:
ownerId
merchantId
organizationId
partnerId
userId
userName
thumbnail
lastModified
editable
assetType
ownerType
ownerTypeCaption
previewImage
narrativeEffectiveDates
narrativeDisplayPeriod
use blockchyp;
use std::error::Error;
fn update_branding_asset_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::BrandingAsset{
media_id: "<MEDIA ID>".to_string(),
padded: true,
ordinal: 10,
start_date: "01/06/2021".to_string(),
start_time: "14:00".to_string(),
end_date: "11/05/2024".to_string(),
end_time: "16:00".to_string(),
notes: "Test Branding Asset".to_string(),
preview: false,
enabled: true,
..Default::default()
};
let (response, err) = client.update_branding_asset(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
update_branding_asset_example()?;
println!("Example completed successfully!");
Ok(())
}
This API deletes a Branding Asset from the branding stack.
Note that deleting a Branding Asset does not delete the underlying media from the media library or slide show from the slide show library.
use blockchyp;
use std::error::Error;
fn delete_branding_asset_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::BrandingAssetRequest{
asset_id: "<BRANDING ASSET ID>".to_string(),
..Default::default()
};
let (response, err) = client.delete_branding_asset(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
delete_branding_asset_example()?;
println!("Example completed successfully!");
Ok(())
}
These APIs allow partners to manage and configure their merchant portfolios.
Use of these APIs (other than the Merchant Profile API) requires partner scoped API credentials with special roles and permissions that may require a special arrangement with BlockChyp.
For example, Partners usually can't board merchants directly, but must board merchants using the standard underwriting process via offer codes and invitations.
The API returns detailed metadata about the merchant's configuration, including basic identity information, terminal settings, store and forward settings, and bank account information for merchants that support split settlement.
Some of these fields can be updated via the Update Merchant API, but many of these fields are controlled by underwriting and cannot be altered outside of the underwriting and risk processes.
Merchant Descriptive Fields
The following fields are basic descriptive fields that can be used to describe and identify merchants.
Batch and Terminal Settings
The following fields are used to control batch closure and high level terminal configuration.
Card Brand and Transaction Settings
freeRangeRefundsEnabled: Enables direct refunds that do not reference a previous transaction.
partialAuthEnabled: Indicates that partial authorizations (usually for gift card support) are enabled.
splitBankAccountsEnabled: Used for law firm merchants only.
contactlessEmv: Enables contactless/tap transactions on a terminal. Defaults to true.
visa: Enables Visa transactions.
masterCard: Enables MasterCard transactions.
amex: Enables American Express transactions.
discover: Enables Discover transactions.
jcb: Enables JCB (Japan Card Bureau) transactions.
unionPay: Enables China UnionPay transactions.
use blockchyp;
use std::error::Error;
fn merchant_profile_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::MerchantProfileRequest{
..Default::default()
};
let (response, err) = client.merchant_profile(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
merchant_profile_example()?;
println!("Example completed successfully!");
Ok(())
}
This is a partner or organization level API that can be used to return the merchant portfolio.
Live merchants are returned by default. Use the test
flag to return only test merchants. The
results returned include detailed settings including underwriting controlled flags.
A maximum of 250 merchants are returned by default. For large merchant portfolios, the maxResults
and startIndex
field can be used to reduce the page size and page through multiple pages of results.
use blockchyp;
use std::error::Error;
fn get_merchants_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::GetMerchantsRequest{
test: true,
..Default::default()
};
let (response, err) = client.get_merchants(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
get_merchants_example()?;
println!("Example completed successfully!");
Ok(())
}
This API can be used to update or create merchant accounts.
Merchant scoped API credentials can be used to update merchant account settings.
Partner scoped API credentials can be used to update merchants, create new test merchants or board new gateway merchants.
Merchant Descriptive Fields
The following fields are basic descriptive fields that can be used to describe and identify merchants.
Batch and Terminal Settings
The following fields are used to control batch closure and high level terminal configuration.
Card Brand and Transaction Settings
freeRangeRefundsEnabled: Enables direct refunds that do not reference a previous transaction.
partialAuthEnabled: Indicates that partial authorizations (usually for gift card support) are enabled.
splitBankAccountsEnabled: Used for law firm merchants only.
contactlessEmv: Enables contactless/tap transactions on a terminal. Defaults to true.
visa: Enables Visa transactions.
masterCard: Enables MasterCard transactions.
amex: Enables American Express transactions.
discover: Enables Discover transactions.
jcb: Enables JCB (Japan Card Bureau) transactions.
unionPay: Enables China UnionPay transactions.
use blockchyp;
use std::error::Error;
fn update_merchant_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::MerchantProfile{
merchant_id: "<MERCHANT ID>".to_string(),
test: true,
dba_name: "Test Merchant".to_string(),
company_name: "Test Merchant".to_string(),
billing_address: blockchyp::Address{
address_1: "1060 West Addison".to_string(),
city: "Chicago".to_string(),
state_or_province: "IL".to_string(),
postal_code: "60613".to_string(),
..Default::default()
},
..Default::default()
};
let (response, err) = client.update_merchant(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
update_merchant_example()?;
println!("Example completed successfully!");
Ok(())
}
This API returns all users and pending invites associated with a merchant account including any assigned role codes.
use blockchyp;
use std::error::Error;
fn merchant_users_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::MerchantProfileRequest{
merchant_id: "<MERCHANT ID>".to_string(),
..Default::default()
};
let (response, err) = client.merchant_users(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
merchant_users_example()?;
println!("Example completed successfully!");
Ok(())
}
Invites a new user to join a merchant account. email
, firstName
, and lastName
are required.
The user will be sent an invite email with steps for creating a BlockChyp account and linking it to a merchant account. If the user already has a BlockChyp user account, the new user signup wil be skipped and the existing user account will be linked to the merchant account.
Developers can optionally restrict the user's access level by sending one or more role codes. Otherwise, the user will be given the default merchant user role. (STDMERCHANT)
use blockchyp;
use std::error::Error;
fn invite_merchant_user_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::InviteMerchantUserRequest{
email: "Email address for the invite".to_string(),
..Default::default()
};
let (response, err) = client.invite_merchant_user(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
invite_merchant_user_example()?;
println!("Example completed successfully!");
Ok(())
}
This is a partner level API that can be used to manually board gateway merchants. Use this API in conjunction with Platform Configuration to instantly board gateway merchants. Note that most partners don't have permission to do this and are unlikely to get it.
Settings can be changed by using the Update Merchant API.
use blockchyp;
use std::error::Error;
fn add_gateway_merchant_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::AddGatewayMerchantRequest{
profile: blockchyp::MerchantProfile{
dba_name: "DBA Name".to_string(),
company_name: "Corporate Entity Name".to_string(),
..Default::default()
},
..Default::default()
};
let (response, err) = client.add_gateway_merchant(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
add_gateway_merchant_example()?;
println!("Example completed successfully!");
Ok(())
}
This is a partner level API that can be used to create test merchant accounts. This creates a basic test merchant with default settings.
Settings can be changed by using the Update Merchant API.
use blockchyp;
use std::error::Error;
fn add_test_merchant_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::AddTestMerchantRequest{
dba_name: "DBA Name".to_string(),
company_name: "Corporate Entity Name".to_string(),
..Default::default()
};
let (response, err) = client.add_test_merchant(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
add_test_merchant_example()?;
println!("Example completed successfully!");
Ok(())
}
This partner API can be used to delete unused test merchant accounts. merchantId
is a required parameter.
use blockchyp;
use std::error::Error;
fn delete_test_merchant_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::MerchantProfileRequest{
merchant_id: "<MERCHANT ID>".to_string(),
..Default::default()
};
let (response, err) = client.delete_test_merchant(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
delete_test_merchant_example()?;
println!("Example completed successfully!");
Ok(())
}
These partner only APIs give ISV partners advanced reporting and tools for managing their portfolio.
Most of the APIs below are for portfolio reporting and range from basic partner commission statements to individual statements with all underlying card brand data.
We also provide a pricing policy API that enables partners to pull down the current pricing rules in force for any merchant in their portfolio.
The API returns the current pricing policy for a merchant. This API is valid for partner scoped API credentials
and merchantId
is a required parameter. By default this API returns the currently in-force pricing policy for a merchant,
but other inactive policies can be returned by providing the id
parameter.
Buy rates for interchange plus and fixed rate pricing are always returned, but only the pricing related to the pricing model type (flat rate or interchange plus) are actually used in fee calculation.
Each pricing level returns three values: buyRate
, current
, and limit
. The actual price the merchant will pay is
given in the current
field. The other values reflect the contract minimum (buyRate
) and maximum (limit
) range
the partner can use when changing prices.
use blockchyp;
use std::error::Error;
fn pricing_policy_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::PricingPolicyRequest{
..Default::default()
};
let (response, err) = client.pricing_policy(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
pricing_policy_example()?;
println!("Example completed successfully!");
Ok(())
}
The API returns a list of partner residual statements. By default, all statements are returned with the most recent
statements listed first. Optional date parameters (startDate
and endDate
) can filter statements to a specific date range.
The list of statements returns basic information about statements like volume, transaction count, and commissions earned.
Use the id
returned with each statement summary with the Partner Statement Detail API to pull down full details.
use blockchyp;
use std::error::Error;
fn partner_statements_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::PartnerStatementListRequest{
..Default::default()
};
let (response, err) = client.partner_statements(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
partner_statements_example()?;
println!("Example completed successfully!");
Ok(())
}
The API returns detailed information about a specific partner statement. Aggregate data is returned along with line item level data for each underlying merchant statement.
Use the merchant invoice id with the Merchant Statement Detail API and the Partner Commission Breakdown API to get the merchant statement and the card brand fee cost breakdown respectively.
use blockchyp;
use std::error::Error;
fn partner_statement_detail_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::PartnerStatementDetailRequest{
..Default::default()
};
let (response, err) = client.partner_statement_detail(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
partner_statement_detail_example()?;
println!("Example completed successfully!");
Ok(())
}
The API returns a list of merchant statements and invoices. By default, all invoices are returned with the most recent
statements listed first. Optional date parameters (startDate
and endDate
) can be used to filter statements by date
range.
The invoiceType
parameter can also be used to filter invoices by type. Invoices could be conventional invoices, such
as those generated when ordering terminals or gift cards, or invoices could be merchant statements.
use blockchyp;
use std::error::Error;
fn merchant_invoices_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::MerchantInvoiceListRequest{
..Default::default()
};
let (response, err) = client.merchant_invoices(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
merchant_invoices_example()?;
println!("Example completed successfully!");
Ok(())
}
The API returns detailed information about a specific merchant statement or invoice.
All line items are returned a topographically sorted tree modeling the nested line item structure of the invoice. Details about any payments posted against the invoice are returned.
It the invoice is a merchant statement, details about every merchant deposit that occurred during the statement period are also returned.
use blockchyp;
use std::error::Error;
fn merchant_invoice_detail_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::MerchantInvoiceDetailRequest{
..Default::default()
};
let (response, err) = client.merchant_invoice_detail(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
merchant_invoice_detail_example()?;
println!("Example completed successfully!");
Ok(())
}
This API allows partners to pull down the low level data used to compute a partner commission for a specific merchant statement.
The statementId
is required and must be the id of a valid merchant invoice of type statement
.
use blockchyp;
use std::error::Error;
fn partner_commission_breakdown_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::PartnerCommissionBreakdownRequest{
..Default::default()
};
let (response, err) = client.partner_commission_breakdown(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
partner_commission_breakdown_example()?;
println!("Example completed successfully!");
Ok(())
}
This API allows partners to generate API credentials for a merchant.
The merchantId
is required and must be the id of a valid merchant.
Credentials are not delete protected by default. Pass in deleteProtected
to enable delete protection.
The optional notes
field will populate the notes in the credentials.
By default no roles will be assigned unless valid, comma-delimited, role codes are passed in the roles
field.
use blockchyp;
use std::error::Error;
fn merchant_credential_generation_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::MerchantCredentialGenerationRequest{
merchant_id: "<MERCHANT ID>".to_string(),
..Default::default()
};
let (response, err) = client.merchant_credential_generation(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
merchant_credential_generation_example()?;
println!("Example completed successfully!");
Ok(())
}
This is a partner level API that can be used to submit applications to add new merchant accounts. The application requires a significant amount of detailed information about the merchant and their business. Rather than providing an exhaustive list of required fields, we recommend submitting as much information as possible in your initial request.
If any required fields are missing or if there are any validation errors, the API will return specific error messages indicating which fields need to be addressed. Simply review these validation errors, fill in the missing information or correct any errors, and resubmit the application.
Key areas of information include:
Note: Some fields may be conditionally required based on the values of other fields. The validation process will guide you through ensuring all necessary information is provided.
use blockchyp;
use std::error::Error;
fn submit_application_example() -> Result<(), Box<dyn Error>> {
// sample credentials
let creds = blockchyp::APICredentials {
api_key: "ZDSMMZLGRPBPRTJUBTAFBYZ33Q".to_string(),
bearer_token: "ZLBW5NR4U5PKD5PNP3ZP3OZS5U".to_string(),
signing_key: "9c6a5e8e763df1c9256e3d72bd7f53dfbd07312938131c75b3bfd254da787947".to_string(),
};
// instantiate the client
let client = blockchyp::Client::new(creds);
let request = blockchyp::SubmitApplicationRequest{
..Default::default()
};
let (response, err) = client.submit_application(&request);
if let Some(e) = err {
eprintln!("Unexpected error occurred: {:?}", e);
return Err(e)
}
if response.success {
println!("Success");
}
println!("Response: {:?}", response);
Ok(())
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
submit_application_example()?;
println!("Example completed successfully!");
Ok(())
}
If you'd like to run the integration tests, create a new file on your system
called sdk-itest-config.json
with the API credentials you'll be using as
shown in the example below.
{
"gatewayHost": "https://api.blockchyp.com",
"testGatewayHost": "https://test.blockchyp.com",
"apiKey": "PZZNEFK7HFULCB3HTLA7HRQDJU",
"bearerToken": "QUJCHIKNXOMSPGQ4QLT2UJX5DI",
"signingKey": "f88a72d8bc0965f193abc7006bbffa240663c10e4d1dc3ba2f81e0ca10d359f5"
}
This file can be located in a few different places, but is usually located
at <USER_HOME>/.config/blockchyp/sdk-itest-config.json
. All BlockChyp SDKs
use the same configuration file.
To run the integration test suite via make
, type the following command:
make integration
If you'd like to bypass make and run the integration test suite directly use the following command:
cargo test --tests --no-fail-fast
If you'd like to run individual tests, try the following command:
cargo test --test terminal_charge_tests
BlockChyp welcomes contributions from the open source community, but bear in mind that this repository has been generated by our internal SDK Generator tool. If we choose to accept a PR or contribution, your code will be moved into our SDK Generator project, which is a private repository.
Copyright BlockChyp, Inc., 2019
Distributed under the terms of the MIT license, blockchyp-rust is free and open source software.
BlockChyp has officially supported SDKs for eight different development platforms and counting. Here's the full list with links to their GitHub repositories.