from liteeth.common import * from liteeth.mac.common import * from liteeth.mac.core import preamble, crc, last_be class LiteEthMACCore(Module, AutoCSR): def __init__(self, phy, dw, endianness="be", with_hw_preamble_crc=True): if dw < phy.dw: raise ValueError("Core data width({}) must be larger than PHY data width({})".format(dw, phy.dw)) # Preamble / CRC (optional) if with_hw_preamble_crc: self._hw_preamble_crc = CSRStatus(reset=1) # Preamble insert/check preamble_inserter = preamble.LiteEthMACPreambleInserter(phy.dw) preamble_checker = preamble.LiteEthMACPreambleChecker(phy.dw) self.submodules += RenameClockDomains(preamble_inserter, "eth_tx") self.submodules += RenameClockDomains(preamble_checker, "eth_rx") # CRC insert/check crc32_inserter = crc.LiteEthMACCRC32Inserter(eth_phy_description(phy.dw)) crc32_checker = crc.LiteEthMACCRC32Checker(eth_phy_description(phy.dw)) self.submodules += RenameClockDomains(crc32_inserter, "eth_tx") self.submodules += RenameClockDomains(crc32_checker, "eth_rx") # Delimiters tx_last_be = last_be.LiteEthMACTXLastBE(phy.dw) rx_last_be = last_be.LiteEthMACRXLastBE(phy.dw) self.submodules += RenameClockDomains(tx_last_be, "eth_tx") self.submodules += RenameClockDomains(rx_last_be, "eth_rx") # Converters reverse = endianness == "be" tx_converter = Converter(eth_phy_description(dw), eth_phy_description(phy.dw), reverse=reverse) rx_converter = Converter(eth_phy_description(phy.dw), eth_phy_description(dw), reverse=reverse) self.submodules += RenameClockDomains(tx_converter, "eth_tx") self.submodules += RenameClockDomains(rx_converter, "eth_rx") # Cross Domain Crossing tx_cdc = AsyncFIFO(eth_phy_description(dw), 4) rx_cdc = AsyncFIFO(eth_phy_description(dw), 4) self.submodules += RenameClockDomains(tx_cdc, {"write": "sys", "read": "eth_tx"}) self.submodules += RenameClockDomains(rx_cdc, {"write": "eth_rx", "read": "sys"}) # Graph if with_hw_preamble_crc: rx_pipeline = [phy, preamble_checker, crc32_checker, rx_last_be, rx_converter, rx_cdc] tx_pipeline = [tx_cdc, tx_converter, tx_last_be, crc32_inserter, preamble_inserter, phy] else: rx_pipeline = [phy, rx_last_be, rx_converter, rx_cdc] tx_pipeline = [tx_cdc, tx_converter, tx_last_be, phy] self.submodules.rx_pipeline = Pipeline(*rx_pipeline) self.submodules.tx_pipeline = Pipeline(*tx_pipeline) self.sink, self.source = self.tx_pipeline.sink, self.rx_pipeline.source