// // Copyright 2014 Ettus Research LLC // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . // #include #include #include #include "e300_i2c.hpp" #include namespace uhd { namespace usrp { namespace e300 { class zc_impl : public i2c { public: zc_impl(uhd::transport::zero_copy_if::sptr xport) : _xport(xport) { } virtual ~zc_impl(void) { } void set_i2c_reg8( const boost::uint8_t addr, const boost::uint8_t reg, const boost::uint8_t value) { i2c_transaction_t transaction; transaction.type = WRITE | ONEBYTE; transaction.addr = addr; transaction.reg = uhd::htonx(reg); transaction.data = value; { uhd::transport::managed_send_buffer::sptr buff = _xport->get_send_buff(10.0); if (not buff or buff->size() < sizeof(transaction)) throw uhd::runtime_error("i2c_zc_impl send timeout"); std::memcpy(buff->cast(), &transaction, sizeof(transaction)); buff->commit(sizeof(transaction)); } } boost::uint8_t get_i2c_reg8( const boost::uint8_t addr, const boost::uint8_t reg) { i2c_transaction_t transaction; transaction.type = READ | ONEBYTE; transaction.addr = addr; transaction.reg = uhd::htonx(reg); { uhd::transport::managed_send_buffer::sptr buff = _xport->get_send_buff(10.0); if (not buff or buff->size() < sizeof(transaction)) throw std::runtime_error("i2c_zc_impl send timeout"); std::memcpy(buff->cast(), &transaction, sizeof(transaction)); buff->commit(sizeof(transaction)); } { uhd::transport::managed_recv_buffer::sptr buff = _xport->get_recv_buff(10.0); if (not buff or buff->size() < sizeof(transaction)) throw std::runtime_error("i2c_zc_impl recv timeout"); std::memcpy(&transaction, buff->cast(), sizeof(transaction)); } return transaction.data; } void set_i2c_reg16( const boost::uint8_t addr, const boost::uint16_t reg, const boost::uint8_t value) { i2c_transaction_t transaction; transaction.type = WRITE | TWOBYTE; transaction.addr = addr; transaction.reg = uhd::htonx(reg); transaction.data = value; { uhd::transport::managed_send_buffer::sptr buff = _xport->get_send_buff(10.0); if (not buff or buff->size() < sizeof(transaction)) throw uhd::runtime_error("i2c_zc_impl send timeout"); std::memcpy(buff->cast(), &transaction, sizeof(transaction)); buff->commit(sizeof(transaction)); } } boost::uint8_t get_i2c_reg16( const boost::uint8_t addr, const boost::uint16_t reg) { i2c_transaction_t transaction; transaction.type = READ | TWOBYTE; transaction.addr = addr; transaction.reg = uhd::htonx(reg); { uhd::transport::managed_send_buffer::sptr buff = _xport->get_send_buff(10.0); if (not buff or buff->size() < sizeof(transaction)) throw std::runtime_error("i2c_zc_impl send timeout"); std::memcpy(buff->cast(), &transaction, sizeof(transaction)); buff->commit(sizeof(transaction)); } { uhd::transport::managed_recv_buffer::sptr buff = _xport->get_recv_buff(10.0); if (not buff or buff->size() < sizeof(transaction)) throw std::runtime_error("i2c_zc_impl recv timeout"); std::memcpy(&transaction, buff->cast(), sizeof(transaction)); } return transaction.data; } private: uhd::transport::zero_copy_if::sptr _xport; }; i2c::sptr i2c::make_zc(uhd::transport::zero_copy_if::sptr xport) { return sptr(new zc_impl(xport)); } class simple_udp_impl : public i2c { public: simple_udp_impl(const std::string &ip_addr, const std::string &port) { _xport = uhd::transport::udp_simple::make_connected(ip_addr, port); } virtual ~simple_udp_impl(void) { } void set_i2c_reg8( const boost::uint8_t addr, const boost::uint8_t reg, const boost::uint8_t value) { i2c_transaction_t transaction; transaction.type = i2c::WRITE | ONEBYTE; transaction.addr = addr; transaction.reg = uhd::htonx(reg); transaction.data = value; _xport->send( boost::asio::buffer( &transaction, sizeof(transaction))); } boost::uint8_t get_i2c_reg8( const boost::uint8_t addr, const boost::uint8_t reg) { i2c_transaction_t transaction; transaction.type = i2c::READ | ONEBYTE; transaction.addr = addr; transaction.reg = uhd::htonx(reg); transaction.data = 0; _xport->send( boost::asio::buffer( &transaction, sizeof(transaction))); boost::uint8_t buff[sizeof(i2c_transaction_t)] = {}; const size_t nbytes = _xport->recv( boost::asio::buffer(buff), 0.100); if (not (nbytes == sizeof(transaction))) throw std::runtime_error("i2c_simple_udp_impl recv timeout"); i2c_transaction_t *reply = reinterpret_cast(buff); return reply->data; } void set_i2c_reg16( const boost::uint8_t addr, const boost::uint16_t reg, const boost::uint8_t value) { i2c_transaction_t transaction; transaction.type = i2c::WRITE | TWOBYTE; transaction.addr = addr; transaction.reg = uhd::htonx(reg); transaction.data = value; _xport->send( boost::asio::buffer( &transaction, sizeof(transaction))); } boost::uint8_t get_i2c_reg16( const boost::uint8_t addr, const boost::uint16_t reg) { i2c_transaction_t transaction; transaction.type = i2c::READ | TWOBYTE; transaction.addr = addr; transaction.reg = uhd::htonx(reg); transaction.data = 0; _xport->send( boost::asio::buffer( &transaction, sizeof(transaction))); boost::uint8_t buff[sizeof(i2c_transaction_t)] = {}; const size_t nbytes = _xport->recv( boost::asio::buffer(buff), 0.100); if (not (nbytes == sizeof(transaction))) throw std::runtime_error("i2c_simple_udp_impl recv timeout"); i2c_transaction_t *reply = reinterpret_cast(buff); return reply->data; } private: uhd::transport::udp_simple::sptr _xport; }; i2c::sptr i2c::make_simple_udp( const std::string &ip_addr, const std::string &port) { return sptr(new simple_udp_impl(ip_addr,port)); } }}} // namespace #ifdef E300_NATIVE #include #include #include #include #include #include #include namespace uhd { namespace usrp { namespace e300 { class i2cdev_impl : public i2c { public: i2cdev_impl(const std::string &device) { _fd = ::open(device.c_str(), O_RDWR); if (_fd < 0) throw uhd::system_error("open failed."); } virtual ~i2cdev_impl(void) { close(_fd); } void set_i2c_reg8( const boost::uint8_t addr, const boost::uint8_t reg, const boost::uint8_t value) { boost::uint8_t outbuf[2]; i2c_rdwr_ioctl_data packets; i2c_msg messages[1]; messages[0].addr = addr; messages[0].flags = 0; messages[0].len = sizeof(outbuf); messages[0].buf = outbuf; outbuf[0] = reg; outbuf[1] = value; packets.msgs = messages; packets.nmsgs = 1; if(::ioctl(_fd, I2C_RDWR, &packets) < 0) { throw std::runtime_error("ioctl failed"); } // this is ugly boost::this_thread::sleep(boost::posix_time::milliseconds(5)); } boost::uint8_t get_i2c_reg8( const boost::uint8_t addr, const boost::uint8_t reg) { i2c_rdwr_ioctl_data packets; i2c_msg messages[2]; boost::uint8_t outbuf = reg; messages[0].addr = addr; messages[0].flags = 0; messages[0].len = sizeof(outbuf); messages[0].buf = &outbuf; boost::uint8_t inbuf; messages[1].addr = addr; messages[1].flags = I2C_M_RD; messages[1].len = sizeof(inbuf); messages[1].buf = &inbuf; packets.msgs = messages; packets.nmsgs = 2; if(::ioctl(_fd, I2C_RDWR, &packets) < 0) { throw std::runtime_error("ioctl failed."); } return inbuf; } // the daughterboard uses 16 bit addresses void set_i2c_reg16( const boost::uint8_t addr, const boost::uint16_t reg, const boost::uint8_t value) { boost::uint8_t outbuf[3]; i2c_rdwr_ioctl_data packets; i2c_msg messages[1]; messages[0].addr = addr; messages[0].flags = 0; messages[0].len = sizeof(outbuf); messages[0].buf = outbuf; outbuf[0] = (reg >> 8) & 0xff; outbuf[1] = reg & 0xff; outbuf[2] = value; packets.msgs = messages; packets.nmsgs = 1; if(::ioctl(_fd, I2C_RDWR, &packets) < 0) { throw std::runtime_error("ioctl failed"); } // this is ugly boost::this_thread::sleep(boost::posix_time::milliseconds(5)); } // the daughterboard eeprom uses 16 bit addresses boost::uint8_t get_i2c_reg16( const boost::uint8_t addr, const boost::uint16_t reg) { i2c_rdwr_ioctl_data packets; i2c_msg messages[2]; // always little endian boost::uint8_t outbuf[2]; outbuf[0] = (reg >> 8) & 0xff; outbuf[1] = reg & 0xff; messages[0].addr = addr; messages[0].flags = 0; messages[0].len = sizeof(outbuf); messages[0].buf = outbuf; boost::uint8_t inbuf; messages[1].addr = addr; messages[1].flags = I2C_M_RD; messages[1].len = sizeof(inbuf); messages[1].buf = &inbuf; packets.msgs = messages; packets.nmsgs = 2; if(::ioctl(_fd, I2C_RDWR, &packets) < 0) { throw std::runtime_error("ioctl failed."); } return inbuf; } private: int _fd; }; }}} // namespace using namespace uhd::usrp::e300; i2c::sptr i2c::make_i2cdev(const std::string &device) { return sptr(new i2cdev_impl(device)); } #else using namespace uhd::usrp::e300; i2c::sptr i2c::make_i2cdev(const std::string &) { throw uhd::assertion_error("i2c::make() !E300_NATIVE"); } #endif // E300_NATIVE