mirror of
https://github.com/dingusdev/dingusppc.git
synced 2024-12-27 00:29:18 +00:00
456 lines
15 KiB
C++
456 lines
15 KiB
C++
/*
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DingusPPC - The Experimental PowerPC Macintosh emulator
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Copyright (C) 2018-23 divingkatae and maximum
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(theweirdo) spatium
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(Contact divingkatae#1017 or powermax#2286 on Discord for more info)
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <https://www.gnu.org/licenses/>.
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*/
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/** @file BigMac Ethernet controller emulation. */
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#include <devices/deviceregistry.h>
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#include <devices/ethernet/bigmac.h>
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#include <loguru.hpp>
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BigMac::BigMac(uint8_t id) {
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set_name("BigMac");
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supports_types(HWCompType::MMIO_DEV | HWCompType::ETHER_MAC);
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this->chip_id = id;
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this->chip_reset();
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}
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void BigMac::chip_reset() {
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this->event_mask = 0xFFFFU; // disable HW events causing on-chip interrupts
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this->stat = 0;
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this->phy_reset();
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this->mii_reset();
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this->srom_reset();
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}
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uint16_t BigMac::read(uint16_t reg_offset) {
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switch (reg_offset) {
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case BigMacReg::XIFC:
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return this->tx_if_ctrl;
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case BigMacReg::CHIP_ID:
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return this->chip_id;
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case BigMacReg::MIF_CSR:
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return (this->mif_csr_old & ~Mif_Data_In) | (this->mii_in_bit << 3);
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case BigMacReg::GLOB_STAT: {
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uint16_t old_stat = this->stat;
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this->stat = 0; // clear-on-read
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return old_stat;
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}
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case BigMacReg::EVENT_MASK:
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return this->event_mask;
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case BigMacReg::SROM_CSR:
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return (this->srom_csr_old & ~Srom_Data_In) | (this->srom_in_bit << 2);
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case BigMacReg::TX_SW_RST:
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return this->tx_reset;
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case BigMacReg::TX_CONFIG:
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return this->tx_config;
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case BigMacReg::PEAK_ATT: {
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uint8_t old_val = this->peak_attempts;
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this->peak_attempts = 0; // clear-on-read
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return old_val;
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}
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case BigMacReg::NC_CNT:
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return this->norm_coll_cnt;
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case BigMacReg::EX_CNT:
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return this->excs_coll_cnt;
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case BigMacReg::LT_CNT:
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return this->late_coll_cnt;
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case BigMacReg::RX_CONFIG:
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return this->rx_config;
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default:
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LOG_F(WARNING, "%s: unimplemented register at 0x%X", this->name.c_str(),
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reg_offset);
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}
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return 0;
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}
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void BigMac::write(uint16_t reg_offset, uint16_t value) {
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switch (reg_offset) {
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case BigMacReg::XIFC:
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this->tx_if_ctrl = value;
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break;
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case BigMacReg::TX_FIFO_CSR:
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this->tx_fifo_enable = !!(value & 1);
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this->tx_fifo_size = (((value >> 1) & 0xFF) + 1) << 7;
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break;
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case BigMacReg::TX_FIFO_TH:
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this->tx_fifo_tresh = value;
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break;
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case BigMacReg::RX_FIFO_CSR:
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this->rx_fifo_enable = !!(value & 1);
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this->rx_fifo_size = (((value >> 1) & 0xFF) + 1) << 7;
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break;
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case BigMacReg::MIF_CSR:
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if (value & Mif_Data_Out_En) {
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// send bits one by one on each low-to-high transition of Mif_Clock
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if (((this->mif_csr_old ^ value) & Mif_Clock) && (value & Mif_Clock))
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this->mii_xmit_bit(!!(value & Mif_Data_Out));
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} else {
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if (((this->mif_csr_old ^ value) & Mif_Clock) && (value & Mif_Clock))
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this->mii_rcv_bit();
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}
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this->mif_csr_old = value;
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break;
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case BigMacReg::EVENT_MASK:
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this->event_mask = value;
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break;
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case BigMacReg::SROM_CSR:
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if (value & Srom_Chip_Select) {
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// exchange data on each low-to-high transition of Srom_Clock
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if (((this->srom_csr_old ^ value) & Srom_Clock) && (value & Srom_Clock))
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this->srom_xmit_bit(!!(value & Srom_Data_Out));
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} else {
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this->srom_reset();
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}
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this->srom_csr_old = value;
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break;
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case BigMacReg::TX_SW_RST:
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if (value == 1) {
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LOG_F(INFO, "%s: transceiver soft reset asserted", this->name.c_str());
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this->tx_reset = 0; // acknowledge SW reset
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}
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break;
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case BigMacReg::TX_CONFIG:
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this->tx_config = value;
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break;
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case BigMacReg::NC_CNT:
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this->norm_coll_cnt = value;
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break;
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case BigMacReg::NT_CNT:
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this->net_coll_cnt = value;
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break;
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case BigMacReg::EX_CNT:
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this->excs_coll_cnt = value;
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break;
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case BigMacReg::LT_CNT:
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this->late_coll_cnt = value;
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break;
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case BigMacReg::RNG_SEED:
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this->rng_seed = value;
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break;
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case BigMacReg::RX_SW_RST:
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if (!value) {
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LOG_F(INFO, "%s: receiver soft reset asserted", this->name.c_str());
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}
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break;
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case BigMacReg::RX_CONFIG:
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this->rx_config = value;
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break;
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case BigMacReg::MAC_ADDR_0:
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case BigMacReg::MAC_ADDR_1:
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case BigMacReg::MAC_ADDR_2:
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this->mac_addr_flt[8 - ((reg_offset >> 4) & 0xF)] = value;
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break;
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case BigMacReg::RX_FRM_CNT:
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this->rcv_frame_cnt = value;
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break;
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case BigMacReg::RX_LE_CNT:
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this->len_err_cnt = value;
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break;
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case BigMacReg::RX_AE_CNT:
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this->align_err_cnt = value;
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break;
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case BigMacReg::RX_FE_CNT:
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this->fcs_err_cnt = value;
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break;
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case BigMacReg::RX_CVE_CNT:
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this->cv_err_cnt = value;
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break;
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case BigMacReg::HASH_TAB_0:
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case BigMacReg::HASH_TAB_1:
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case BigMacReg::HASH_TAB_2:
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case BigMacReg::HASH_TAB_3:
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this->hash_table[(reg_offset >> 4) & 3] = value;
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break;
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default:
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LOG_F(WARNING, "%s: unimplemented register at 0x%X is written with 0x%X",
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this->name.c_str(), reg_offset, value);
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}
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}
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// ================ Media Independent Interface (MII) emulation ================
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bool BigMac::mii_rcv_value(uint16_t& var, uint8_t num_bits, uint8_t next_bit) {
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var = (var << 1) | (next_bit & 1);
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this->mii_bit_counter++;
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if (this->mii_bit_counter >= num_bits) {
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this->mii_bit_counter = 0;
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return true; // all bits have been received -> return true
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}
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return false; // more bits expected
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}
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void BigMac::mii_rcv_bit() {
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switch(this->mii_state) {
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case MII_FRAME_SM::Preamble:
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this->mii_in_bit = 1; // required for OSX
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this->mii_reset();
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break;
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case MII_FRAME_SM::Turnaround:
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this->mii_in_bit = 0;
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this->mii_bit_counter = 16;
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this->mii_state = MII_FRAME_SM::Read_Data;
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break;
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case MII_FRAME_SM::Read_Data:
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if (this->mii_bit_counter) {
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--this->mii_bit_counter;
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this->mii_in_bit = (this->mii_data >> this->mii_bit_counter) & 1;
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if (!this->mii_bit_counter) {
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this->mii_state = MII_FRAME_SM::Preamble;
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}
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} else { // out of sync (shouldn't happen)
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this->mii_reset();
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}
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break;
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case MII_FRAME_SM::Stop:
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this->mii_reset();
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break;
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default:
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LOG_F(ERROR, "%s: unhandled state %d in mii_rcv_bit", this->name.c_str(),
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this->mii_state);
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this->mii_reset();
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}
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}
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void BigMac::mii_xmit_bit(const uint8_t bit_val) {
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switch(this->mii_state) {
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case MII_FRAME_SM::Preamble:
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if (bit_val) {
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this->mii_bit_counter++;
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if (this->mii_bit_counter >= 32) {
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this->mii_state = MII_FRAME_SM::Start;
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this->mii_in_bit = 1; // checked in OSX
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this->mii_bit_counter = 0;
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}
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} else { // zero bit -> out of sync
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this->mii_reset();
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}
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break;
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case MII_FRAME_SM::Start:
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if (this->mii_rcv_value(this->mii_start, 2, bit_val)) {
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LOG_F(9, "MII_Start=0x%X", this->mii_start);
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this->mii_state = MII_FRAME_SM::Opcode;
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}
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break;
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case MII_FRAME_SM::Opcode:
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if (this->mii_rcv_value(this->mii_opcode, 2, bit_val)) {
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LOG_F(9, "MII_Opcode=0x%X", this->mii_opcode);
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this->mii_state = MII_FRAME_SM::Phy_Address;
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}
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break;
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case MII_FRAME_SM::Phy_Address:
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if (this->mii_rcv_value(this->mii_phy_address, 5, bit_val)) {
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LOG_F(9, "MII_PHY_Address=0x%X", this->mii_phy_address);
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this->mii_state = MII_FRAME_SM::Reg_Address;
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}
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break;
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case MII_FRAME_SM::Reg_Address:
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if (this->mii_rcv_value(this->mii_reg_address, 5, bit_val)) {
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LOG_F(9, "MII_REG_Address=0x%X", this->mii_reg_address);
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if (this->mii_start != 1)
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LOG_F(ERROR, "%s: unsupported frame type %d", this->name.c_str(),
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this->mii_start);
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if (this->mii_phy_address)
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LOG_F(ERROR, "%s: unsupported PHY address %d", this->name.c_str(),
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this->mii_phy_address);
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switch (this->mii_opcode) {
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case 1: // write
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this->mii_state = MII_FRAME_SM::Turnaround;
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break;
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case 2: // read
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this->mii_data = this->phy_reg_read(this->mii_reg_address);
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this->mii_state = MII_FRAME_SM::Turnaround;
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break;
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default:
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LOG_F(ERROR, "%s: invalid MII opcode %d", this->name.c_str(),
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this->mii_opcode);
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}
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}
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break;
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case MII_FRAME_SM::Turnaround:
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if (this->mii_rcv_value(this->mii_turnaround, 2, bit_val)) {
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if (this->mii_turnaround != 2)
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LOG_F(ERROR, "%s: unexpected turnaround 0x%X", this->name.c_str(),
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this->mii_turnaround);
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this->mii_state = MII_FRAME_SM::Write_Data;
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}
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break;
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case MII_FRAME_SM::Write_Data:
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if (this->mii_rcv_value(this->mii_data, 16, bit_val)) {
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LOG_F(9, "%s: MII data received = 0x%X", this->name.c_str(),
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this->mii_data);
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this->phy_reg_write(this->mii_reg_address, this->mii_data);
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this->mii_state = MII_FRAME_SM::Stop;
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}
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break;
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case MII_FRAME_SM::Stop:
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if (this->mii_rcv_value(this->mii_stop, 2, bit_val)) {
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LOG_F(9, "MII_Stop=0x%X", this->mii_stop);
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this->mii_reset();
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}
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break;
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default:
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LOG_F(ERROR, "%s: unhandled state %d in mii_xmit_bit", this->name.c_str(),
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this->mii_state);
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this->mii_reset();
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}
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}
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void BigMac::mii_reset() {
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mii_start = 0;
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mii_opcode = 0;
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mii_phy_address = 0;
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mii_reg_address = 0;
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mii_turnaround = 0;
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mii_data = 0;
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mii_stop = 0;
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this->mii_bit_counter = 0;
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this->mii_state = MII_FRAME_SM::Preamble;
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}
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// ===================== Ethernet PHY interface emulation =====================
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void BigMac::phy_reset() {
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// TODO: add PHY type property to be able to select another PHY (DP83843)
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if (this->chip_id == EthernetCellId::Paddington) {
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this->phy_oui = 0x1E0400; // LXT970 aka ST10040 PHY
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this->phy_model = 0;
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this->phy_rev = 0;
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} else { // assume Heathrow with LXT907 PHY
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this->phy_oui = 0; // LXT907 doesn't support MII, MDIO is pulled low
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this->phy_model = 0;
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this->phy_rev = 0;
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}
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this->phy_anar = 0xA1; // tell the world we support 10BASE-T and 100BASE-TX
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}
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uint16_t BigMac::phy_reg_read(uint8_t reg_num) {
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switch(reg_num) {
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case PHY_BMCR:
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return this->phy_bmcr;
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case PHY_BMSR:
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return 0x7809; // value from LXT970 datasheet
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case PHY_ID1:
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return (this->phy_oui >> 6) & 0xFFFFU;
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case PHY_ID2:
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return ((this->phy_oui << 10) | (phy_model << 4) | phy_rev) & 0xFFFFU;
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case PHY_ANAR:
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return this->phy_anar;
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default:
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LOG_F(ERROR, "Reading unimplemented PHY register %d", reg_num);
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}
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return 0;
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}
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void BigMac::phy_reg_write(uint8_t reg_num, uint16_t value) {
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switch(reg_num) {
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case PHY_BMCR:
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if (value & 0x8000) {
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LOG_F(INFO, "PHY reset requested");
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value &= ~0x8000; // Reset bit is self-clearing
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}
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this->phy_bmcr = value;
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break;
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case PHY_ANAR:
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this->phy_anar = value;
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break;
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default:
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LOG_F(ERROR, "Writing unimplemented PHY register %d", reg_num);
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}
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}
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// ======================== MAC Serial EEPROM emulation ========================
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void BigMac::srom_reset() {
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this->srom_csr_old = 0;
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this->srom_bit_counter = 0;
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this->srom_opcode = 0;
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this->srom_address = 0;
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this->srom_state = Srom_Start;
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}
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bool BigMac::srom_rcv_value(uint16_t& var, uint8_t num_bits, uint8_t next_bit) {
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var = (var << 1) | (next_bit & 1);
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this->srom_bit_counter++;
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if (this->srom_bit_counter >= num_bits) {
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this->srom_bit_counter = 0;
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return true; // all bits have been received -> return true
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}
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return false; // more bits expected
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}
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void BigMac::srom_xmit_bit(const uint8_t bit_val) {
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switch(this->srom_state) {
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case Srom_Start:
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if (bit_val)
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this->srom_state = Srom_Opcode;
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else
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this->srom_reset();
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break;
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case Srom_Opcode:
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if (this->srom_rcv_value(this->srom_opcode, 2, bit_val)) {
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switch(this->srom_opcode) {
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case 2: // read
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this->srom_state = Srom_Address;
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break;
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default:
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LOG_F(ERROR, "%s: unsupported SROM opcode %d", this->name.c_str(),
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this->srom_opcode);
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this->srom_reset();
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}
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}
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break;
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case Srom_Address:
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if (this->srom_rcv_value(this->srom_address, 6, bit_val)) {
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LOG_F(9, "SROM address received = 0x%X", this->srom_address);
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this->srom_bit_counter = 16;
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this->srom_state = Srom_Read_Data;
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}
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break;
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case Srom_Read_Data:
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if (this->srom_bit_counter) {
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this->srom_bit_counter--;
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this->srom_in_bit = (this->srom_data[this->srom_address] >> this->srom_bit_counter) & 1;
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if (!this->srom_bit_counter) {
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this->srom_address++;
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this->srom_bit_counter = 16;
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}
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}
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break;
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default:
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LOG_F(ERROR, "%s: unhandled state %d in srom_xmit_bit", this->name.c_str(),
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this->srom_state);
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this->srom_reset();
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}
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}
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static const DeviceDescription BigMac_Heathrow_Descriptor = {
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BigMac::create_for_heathrow, {}, {}
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};
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static const DeviceDescription BigMac_Paddington_Descriptor = {
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BigMac::create_for_paddington, {}, {}
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};
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REGISTER_DEVICE(BigMacHeathrow, BigMac_Heathrow_Descriptor);
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REGISTER_DEVICE(BigMacPaddington, BigMac_Paddington_Descriptor);
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