# Connection Setup ## Access point Connection The first step to connecting to Spotify's servers is finding an Access Point (AP) to do so. Clients make an HTTP GET request to `http://apresolve.spotify.com` to retrieve a list of hostname an port combination in JSON format. An AP is randomly picked from that list to connect to. The connection is done using a bare TCP socket. Despite many APs using ports 80 and 443, neither HTTP nor TLS are used to connect. ## Connection Hello The first 3 packets exchanged are unencrypted, and have the following format : header | length | payload ---------|--------|--------- variable | 32 | variable Length is a 32 bit, big endian encoded, integer. It is the length of the entire packet, ie `len(header) + 4 + len(payload)`. The header is only present in the very first packet sent by the client, and is two bytes long, `[0, 4]`. It probably corresponds to the protocol version used. The payload is a protobuf encoded message. The client starts by sending a `ClientHello` message, describing the client info, a random nonce and client's Diffie Hellman public key. The AP replies by a `APResponseMessage` message, containing a random nonce and the server's DH key. The client solves a challenge based on these two packets, and sends it back using a `ClientResponsePlaintext`. It also computes the shared keys used to encrypt the rest of the communication. ## Login challenge and cipher key computation. The client starts by computing the DH shared secret using it's private key and the server's public key. HMAC-SHA1 is then used to compute the send and receive keys, as well as the login challenge. ``` data = [] for i in 1..6 { data += HMAC(client_hello || ap_response || [ i ], shared) } challenge = HMAC(client_hello || ap_response, data[:20]) send_key = data[20:52] recv_key = data[52:84] ``` `client_hello` and `ap_response` are the first packets sent respectively by the client and the AP. These include the header and length fields. ## Encrypted packets Every packet after ClientResponsePlaintext is encrypted using a Shannon cipher. The cipher is setup with 4 bytes big endian nonce, incremented after each packet, starting at zero. Two independent ciphers and accompanying nonces are used, one for transmission and one for reception, using respectively `send_key` and `recv_key` as keys. The packet format is as followed : cmd | length | payload | mac ----|--------|----------|---- 8 | 16 | variable | 32 Each packet has a type identified by the 8 bit `cmd` field. The 16 bit big endian length only includes the length of the payload.