4 KiB
How To Dowload Content Using the LBRY Protocol
Getting Started
This is the step-by-step process of using the LBRY protocol to download something. It spans the three core components of LBRY (blockchain, DHT, blob exchange) and explains the structure of the claim metadata and the blobs that make up a LBRY stream.
You will need:
- a running lbrycrd node, or another way to access blockchain data (perhaps lbryumx or chainquery)
- a running DHT node
- the
claimID
of the content you wish to download
For this example, we will use claimID d9317ac7842f88ba442fee749c4f834353c24206
.
Overview
- start with claim ID
- blockchain gets you metadata for your claimID
- parsing metadata gets you sd hash and fee info
- if there is a fee, pay it using the blockchain
- dht gets you peers for the sd hash
- blob exchange gets sd blob from peers
- sd blob is parsed to get content hashes
- dht then blob exchange get you the content blobs
- blobs are decrypted and assembled to create the file
Parse the Metadata
Perform a getclaimbyid
call to lbrycrd using the claimID for the claim you want to look up. You should get a response with some parameters. The value
parameter contains the claim contents as a protobuf-encoded binary string. Decode the value using the protobuf definitions in lbryio/types. You will get a Claim object.
Get the SD Hash
Confirm that Claim.claimType
is 1
(streamType) and Claim.Stream.Source.sourceType
is 1
(lbry_sd_hash).
Claim.Stream.Source.source contains the hash of the sd blob
for the content. We call this the sd hash
.
Pay the Fee
Check the Claim.Stream.Metadata.Fee
field. If it exists, then a payment is required to download this content. Get the address, amount, and currency from the Fee, convert the amount to LBC if its not already in LBC, and perform a sendtoaddress
call to lbrycrd to send the fee amount to the fee address.
Find Hosts for SD Blob
Look up the sd hash in the DHT. Internally this will perform an iterativeFindValue call, starting with the nodes already in the routing table and proceeding to nodes that are closest to the sd hash. The DHT should return a list of hosts that have advertised that they have this hash.
Download SD Blob
Use blob exchange protocol to request the sd blob from the hosts found in the previous step.
Read SD Blob
The SD blob is JSON-formatted text. It contains a dictionary with the following structure:
{
"stream_name": "574c707655476a766d58632e6d7034",
"blobs": [
{
"length": 2097152,
"blob_num": 6,
"blob_hash": "b7e43c102781f978c24bc2bc...",
"iv": "63a6befc3c8d01f662ffad2f2381b357"
},
...
],
"stream_type": "lbryfile",
"key": "ee768c4e642012bb5b2e20cf9b1f997b",
"suggested_file_name": "574c707655476a766d58632e6d7034",
"stream_hash": "6b1f9d5f129e06bb94b2ffdda817a5848c...",
}
All string field are hex-encoded.
To download the content blobs, repeat the steps we took for the SD hash, but instead use the blob_hash
value for each blob. Look up the blob_hash in the DHT to find hosts, then download the blob from those hosts.
Every stream has 0-length blob as the last blob in the list of blobs. This blob is not a real blob, and is not available on the network. It serves a similar purpose to the null byte at the end of a string - it signals that this is the last blob. This supports streaming a file when the number of blobs is not known in advance.
Decrypt and Assemble Blobs
Now that all the blobs have been downloaded, they can be decrypted and assembled into the original file. Decrypt each blob using the key and IVs in the SD blob, and concatenate the decrypted bytes in blob_num
order. Write the finished file to disk (you may use the suggested_file_name
from the SD blob, or choose your own).
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