BIP MinerHardwareBinaryProtocol
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This page describes a BIP (Bitcoin Improvement Proposal). |
BIP: ? Title: Protocol for Dedicated Mining Hardware Author: Luke Dashjr <luke+bipmhbp@dashjr.org> Status: Draft Type: Standards Track Created: 08-06-2012
Contents
Abstract
Specification
This protocol is designed to be spoken only over a reliable (including error correction) lower-level protocol, such as USB-Serial or USB-CDC, to a local device.
Packet Format
1 byte: packet length/type N bytes: packet data
Valid lengths are 1-250 (bytes). End of command is denoted by a length/type of ff. Abort command is denoted by a length/type of 00. ACK is denoted by a length/type of fe, and should be sent in response to each 250-byte packet. Bulk data transfers, such as bitstream uploads, should wait until ACK is received before sending more packets (maybe? or does USB handle this for us too?). Length/types fa-fd are reserved.
Command Format
- 1 byte: request id
- 1 byte: command id
- 0x -- Modification commands (potentially dangerous)
- 4x -- Informational commands
- (high bit set for replies)
- 1 byte: device number (ignored for some commands)
- 00 is the MCU
- 1-fe are FPGAs
- ff for "all FPGAs"
- 1 byte: status (should always be 00 for requests)
- 00 -- success
- 80 -- failure
- N bytes: data
Commands less than 4 bytes should be ignored. Additional data beyond what is expected should be ignored.
Commands
01 -- program software
Data:
- 4 bytes: hardware version (big endian)
- 2 bytes: hardware manuf/authority
- 2 bytes: hardware model number
- 4 bytes: hardware specific information ("ID Code")
- 4 bytes: software size
- N bytes: software data
02 -- get/set clock speed
Data:
- 1 byte: new clock speed (00 = don't change)
Reply (if getting):
- 1 byte: current clock speed
03 -- get/set register(s)
Data:
- 2 bytes: first register number
- 2 bytes: number of registers to fetch/set
- N bytes: new values for each register (omitted to read)
Reply (if reading):
- 1 byte: width (in bits) of each register
- N bytes: value of each register
04 -- watch register(s)
Data:
- 2 bytes: first register number
- 2 bytes: number of registers to watch
- 1 byte: how long to watch, in seconds; 00 = cancel watch; ff = never expire
Reply (immediate):
- 1 byte: width (in bits) of each register
- N bytes: current value of each register
Notification (DEFERRED, with command=ff and same request id):
- 2 bytes: number of registers changed
- for each:
- 2 bytes: register number
- N bytes: value of register
40 -- ping
Device number ignored. Replies with same data given
41 -- get FPGA count
Device number ignored. Reply:
- 1 byte: number of FPGAs
42 -- hardware version
Reply:
- 4 bytes: hardware version (big endian)
- 2 bytes: hardware manuf/authority
- 2 bytes: hardware model number
- 4 bytes: hardware specific information ("ID Code")
- 1 byte: length of hardware model number
- N bytes: hardware model number (EUI-64 when available)
- 1 byte: length of human-readable hardware model
- N bytes: human-readable hardware model/version string (UTF-8)
43 -- software version
Reply:
- 4 bytes: software version (big endian)
- 1 byte: length of software-specific unique identifier (git commit?)
- N bytes: software-specific unique identifier
- 1 byte: length of human-readable software name
- N bytes: human-readable hardware model/version string (UTF-8)
44 -- get temperature
Reply:
- 1 byte: temperature in celcius
Examples
Get temperature of FPGA #2
> 04 00 44 02 00 ff < 05 00 c4 02 00 30 ff
> 34 00 03 01 00 0000 000b <32:midstate> <12:taildata> ff (assign job to registers) > 09 01 04 01 00 000e 0001 ff ff (setup watch on nonce-found register) < 04 00 83 01 00 ff < 09 01 84 01 00 20 ffffffff ff ... < 0c 01 ff 01 00 0001 000e <4:nonce> ff (nonce-found got updated) > 09 02 04 01 00 000e 0001 00 ff (clear nonce-found watch) < 09 02 84 01 00 20 <4:nonce> ff
Reset the command queue
To reset the command queue, send 251 zero bytes; this will pad-out any "open" packet, and send a zero-length for the next one to abort the command.
