// // Copyright 2010-2011,2015 Ettus Research LLC // Copyright 2018 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: GPL-3.0-or-later // #include #include #include #include #include #include #include #include using namespace uhd; using namespace uhd::usrp; //////////////////////////////////////////////////////////////////////// // format of daughterboard EEPROM // 00: 0xDB code for ``I'm a daughterboard'' // 01: .. Daughterboard ID (LSB) // 02: .. Daughterboard ID (MSB) // 03: .. io bits 7-0 direction (bit set if it's an output from m'board) // 04: .. io bits 15-8 direction (bit set if it's an output from m'board) // 05: .. ADC0 DC offset correction (LSB) // 06: .. ADC0 DC offset correction (MSB) // 07: .. ADC1 DC offset correction (LSB) // 08: .. ADC1 DC offset correction (MSB) // ... // 1f: .. negative of the sum of bytes [0x00, 0x1e] #define DB_EEPROM_MAGIC 0x00 #define DB_EEPROM_MAGIC_VALUE 0xDB #define DB_EEPROM_ID_LSB 0x01 #define DB_EEPROM_ID_MSB 0x02 #define DB_EEPROM_REV_LSB 0x03 #define DB_EEPROM_REV_MSB 0x04 #define DB_EEPROM_OFFSET_0_LSB 0x05 // offset correction for ADC or DAC 0 #define DB_EEPROM_OFFSET_0_MSB 0x06 #define DB_EEPROM_OFFSET_1_LSB 0x07 // offset correction for ADC or DAC 1 #define DB_EEPROM_OFFSET_1_MSB 0x08 #define DB_EEPROM_SERIAL 0x09 #define DB_EEPROM_SERIAL_LEN 0x09 // 9 ASCII characters #define DB_EEPROM_CHKSUM 0x1f #define DB_EEPROM_CLEN 0x20 // length of common portion of eeprom #define DB_EEPROM_CUSTOM_BASE \ DB_EEPROM_CLEN // first avail offset for // daughterboard specific use //////////////////////////////////////////////////////////////////////// // negative sum of bytes excluding checksum byte static uint8_t checksum(const byte_vector_t& bytes) { int sum = 0; for (size_t i = 0; i < std::min(bytes.size(), size_t(DB_EEPROM_CHKSUM)); i++) { sum -= int(bytes.at(i)); } return uint8_t(sum); } dboard_eeprom_t::dboard_eeprom_t(void) { id = dboard_id_t::none(); serial = ""; } void dboard_eeprom_t::load(i2c_iface& iface, uint8_t addr) { byte_vector_t bytes = iface.read_eeprom(addr, 0, DB_EEPROM_CLEN); std::ostringstream ss; try { UHD_ASSERT_THROW(bytes.size() >= DB_EEPROM_CLEN); UHD_ASSERT_THROW(bytes[DB_EEPROM_MAGIC] == DB_EEPROM_MAGIC_VALUE); UHD_ASSERT_THROW(bytes[DB_EEPROM_CHKSUM] == checksum(bytes)); // parse the ids id = dboard_id_t::from_uint16(0 | (uint16_t(bytes[DB_EEPROM_ID_LSB]) << 0) | (uint16_t(bytes[DB_EEPROM_ID_MSB]) << 8)); // parse the serial serial = bytes_to_string(byte_vector_t(&bytes.at(DB_EEPROM_SERIAL), &bytes.at(DB_EEPROM_SERIAL + DB_EEPROM_SERIAL_LEN))); // parse the revision const uint16_t rev_num = 0 | (uint16_t(bytes[DB_EEPROM_REV_LSB]) << 0) | (uint16_t(bytes[DB_EEPROM_REV_MSB]) << 8); if (rev_num != 0 and rev_num != 0xffff) { revision = std::to_string(rev_num); } } catch (const uhd::assertion_error&) { id = dboard_id_t::none(); serial = ""; } } void dboard_eeprom_t::store(i2c_iface& iface, uint8_t addr) const { byte_vector_t bytes(DB_EEPROM_CLEN, 0); // defaults to all zeros bytes[DB_EEPROM_MAGIC] = DB_EEPROM_MAGIC_VALUE; // load the id bytes bytes[DB_EEPROM_ID_LSB] = uint8_t(id.to_uint16() >> 0); bytes[DB_EEPROM_ID_MSB] = uint8_t(id.to_uint16() >> 8); // load the serial bytes byte_vector_t ser_bytes = string_to_bytes(serial, DB_EEPROM_SERIAL_LEN); std::copy(ser_bytes.begin(), ser_bytes.end(), &bytes.at(DB_EEPROM_SERIAL)); // load the revision bytes if (not revision.empty()) { const uint16_t rev_num = boost::lexical_cast(revision); bytes[DB_EEPROM_REV_LSB] = uint8_t(rev_num >> 0); bytes[DB_EEPROM_REV_MSB] = uint8_t(rev_num >> 8); } // load the checksum bytes[DB_EEPROM_CHKSUM] = checksum(bytes); iface.write_eeprom(addr, 0, bytes); }