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//
// Copyright 2010 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 <http://www.gnu.org/licenses/>.
//
#include "usrp2_impl.hpp"
#include "usrp2_regs.hpp"
#include <uhd/types/dict.hpp>
#include <uhd/utils/assert.hpp>
#include <boost/assign/list_of.hpp>
#include <algorithm>
using namespace uhd::usrp;
class usrp2_dboard_interface : public dboard_interface{
public:
usrp2_dboard_interface(usrp2_impl *impl);
~usrp2_dboard_interface(void);
void write_aux_dac(unit_type_t, int, int);
int read_aux_adc(unit_type_t, int);
void set_atr_reg(gpio_bank_t, atr_reg_t, boost::uint16_t);
void set_gpio_ddr(gpio_bank_t, boost::uint16_t);
boost::uint16_t read_gpio(gpio_bank_t);
void write_i2c(int, const byte_vector_t &);
byte_vector_t read_i2c(int, size_t);
double get_rx_clock_rate(void);
double get_tx_clock_rate(void);
void write_spi(
unit_type_t unit,
const spi_config_t &config,
boost::uint32_t data,
size_t num_bits
){
transact_spi(unit, config, data, num_bits, false /*no rb*/);
}
boost::uint32_t read_spi(
unit_type_t unit,
const spi_config_t &config,
size_t num_bits
){
return transact_spi(unit, config, 0, num_bits, true /*rb*/);
}
boost::uint32_t read_write_spi(
unit_type_t unit,
const spi_config_t &config,
boost::uint32_t data,
size_t num_bits
){
return transact_spi(unit, config, data, num_bits, true /*rb*/);
}
private:
boost::uint32_t transact_spi(
unit_type_t, const spi_config_t &, boost::uint32_t, size_t, bool
);
usrp2_impl *_impl;
boost::uint32_t _ddr_shadow;
};
/***********************************************************************
* Make Function
**********************************************************************/
dboard_interface::sptr make_usrp2_dboard_interface(usrp2_impl *impl){
return dboard_interface::sptr(new usrp2_dboard_interface(impl));
}
/***********************************************************************
* Structors
**********************************************************************/
usrp2_dboard_interface::usrp2_dboard_interface(usrp2_impl *impl){
_impl = impl;
_ddr_shadow = 0;
//set the selection mux to use atr
boost::uint32_t new_sels = 0x0;
for(size_t i = 0; i < 16; i++){
new_sels |= FRF_GPIO_SEL_ATR << (i*2);
}
_impl->poke32(FR_GPIO_TX_SEL, new_sels);
_impl->poke32(FR_GPIO_RX_SEL, new_sels);
}
usrp2_dboard_interface::~usrp2_dboard_interface(void){
/* NOP */
}
/***********************************************************************
* Clock Rates
**********************************************************************/
double usrp2_dboard_interface::get_rx_clock_rate(void){
return _impl->get_master_clock_freq();
}
double usrp2_dboard_interface::get_tx_clock_rate(void){
return _impl->get_master_clock_freq();
}
/***********************************************************************
* GPIO
**********************************************************************/
static int bank_to_shift(dboard_interface::gpio_bank_t bank){
switch(bank){
case dboard_interface::GPIO_BANK_RX: return 0;
case dboard_interface::GPIO_BANK_TX: return 16;
}
throw std::runtime_error("unknown gpio bank type");
}
void usrp2_dboard_interface::set_gpio_ddr(gpio_bank_t bank, boost::uint16_t value){
_ddr_shadow = \
(_ddr_shadow & ~(0xffff << bank_to_shift(bank))) |
(boost::uint32_t(value) << bank_to_shift(bank));
_impl->poke32(FR_GPIO_DDR, _ddr_shadow);
}
boost::uint16_t usrp2_dboard_interface::read_gpio(gpio_bank_t bank){
return boost::uint16_t(_impl->peek32(FR_GPIO_IO) >> bank_to_shift(bank));
}
void usrp2_dboard_interface::set_atr_reg(gpio_bank_t bank, atr_reg_t atr, boost::uint16_t value){
//define mapping of bank to atr regs to register address
static const uhd::dict<
gpio_bank_t, uhd::dict<atr_reg_t, boost::uint32_t>
> bank_to_atr_to_addr = boost::assign::map_list_of
(GPIO_BANK_RX, boost::assign::map_list_of
(ATR_REG_IDLE, FR_ATR_IDLE_RXSIDE)
(ATR_REG_TX_ONLY, FR_ATR_INTX_RXSIDE)
(ATR_REG_RX_ONLY, FR_ATR_INRX_RXSIDE)
(ATR_REG_FULL_DUPLEX, FR_ATR_FULL_RXSIDE)
)
(GPIO_BANK_TX, boost::assign::map_list_of
(ATR_REG_IDLE, FR_ATR_IDLE_TXSIDE)
(ATR_REG_TX_ONLY, FR_ATR_INTX_TXSIDE)
(ATR_REG_RX_ONLY, FR_ATR_INRX_TXSIDE)
(ATR_REG_FULL_DUPLEX, FR_ATR_FULL_TXSIDE)
)
;
_impl->poke16(bank_to_atr_to_addr[bank][atr], value);
}
/***********************************************************************
* SPI
**********************************************************************/
/*!
* Static function to convert a unit type enum
* to an over-the-wire value for the spi device.
* \param unit the dboard interface unit type enum
* \return an over the wire representation
*/
static boost::uint8_t unit_to_otw_dev(dboard_interface::unit_type_t unit){
switch(unit){
case dboard_interface::UNIT_TYPE_TX: return SPI_SS_TX_DB;
case dboard_interface::UNIT_TYPE_RX: return SPI_SS_RX_DB;
}
throw std::invalid_argument("unknown unit type type");
}
/*!
* Static function to convert a spi edge enum
* to an over-the-wire value for the usrp2 control.
* \param edge the dboard interface spi edge enum
* \return an over the wire representation
*/
static boost::uint8_t spi_edge_to_otw(dboard_interface::spi_config_t::edge_t edge){
switch(edge){
case dboard_interface::spi_config_t::EDGE_RISE: return USRP2_CLK_EDGE_RISE;
case dboard_interface::spi_config_t::EDGE_FALL: return USRP2_CLK_EDGE_FALL;
}
throw std::invalid_argument("unknown spi edge type");
}
boost::uint32_t usrp2_dboard_interface::transact_spi(
unit_type_t unit,
const spi_config_t &config,
boost::uint32_t data,
size_t num_bits,
bool readback
){
//setup the out data
usrp2_ctrl_data_t out_data;
out_data.id = htonl(USRP2_CTRL_ID_TRANSACT_ME_SOME_SPI_BRO);
out_data.data.spi_args.dev = unit_to_otw_dev(unit);
out_data.data.spi_args.miso_edge = spi_edge_to_otw(config.miso_edge);
out_data.data.spi_args.mosi_edge = spi_edge_to_otw(config.mosi_edge);
out_data.data.spi_args.readback = (readback)? 1 : 0;
out_data.data.spi_args.num_bits = num_bits;
out_data.data.spi_args.data = htonl(data);
//send and recv
usrp2_ctrl_data_t in_data = _impl->ctrl_send_and_recv(out_data);
ASSERT_THROW(htonl(in_data.id) == USRP2_CTRL_ID_OMG_TRANSACTED_SPI_DUDE);
return ntohl(out_data.data.spi_args.data);
}
/***********************************************************************
* I2C
**********************************************************************/
void usrp2_dboard_interface::write_i2c(int i2c_addr, const byte_vector_t &buf){
//setup the out data
usrp2_ctrl_data_t out_data;
out_data.id = htonl(USRP2_CTRL_ID_WRITE_THESE_I2C_VALUES_BRO);
out_data.data.i2c_args.addr = i2c_addr;
out_data.data.i2c_args.bytes = buf.size();
//limitation of i2c transaction size
ASSERT_THROW(buf.size() <= sizeof(out_data.data.i2c_args.data));
//copy in the data
std::copy(buf.begin(), buf.end(), out_data.data.i2c_args.data);
//send and recv
usrp2_ctrl_data_t in_data = _impl->ctrl_send_and_recv(out_data);
ASSERT_THROW(htonl(in_data.id) == USRP2_CTRL_ID_COOL_IM_DONE_I2C_WRITE_DUDE);
}
dboard_interface::byte_vector_t usrp2_dboard_interface::read_i2c(int i2c_addr, size_t num_bytes){
//setup the out data
usrp2_ctrl_data_t out_data;
out_data.id = htonl(USRP2_CTRL_ID_DO_AN_I2C_READ_FOR_ME_BRO);
out_data.data.i2c_args.addr = i2c_addr;
out_data.data.i2c_args.bytes = num_bytes;
//limitation of i2c transaction size
ASSERT_THROW(num_bytes <= sizeof(out_data.data.i2c_args.data));
//send and recv
usrp2_ctrl_data_t in_data = _impl->ctrl_send_and_recv(out_data);
ASSERT_THROW(htonl(in_data.id) == USRP2_CTRL_ID_HERES_THE_I2C_DATA_DUDE);
ASSERT_THROW(in_data.data.i2c_args.addr = num_bytes);
//copy out the data
byte_vector_t result(num_bytes);
std::copy(in_data.data.i2c_args.data, in_data.data.i2c_args.data + num_bytes, result.begin());
return result;
}
/***********************************************************************
* Aux DAX/ADC
**********************************************************************/
/*!
* Static function to convert a unit type enum
* to an over-the-wire value for the usrp2 control.
* \param unit the dboard interface unit type enum
* \return an over the wire representation
*/
static boost::uint8_t unit_to_otw(dboard_interface::unit_type_t unit){
switch(unit){
case dboard_interface::UNIT_TYPE_TX: return USRP2_DIR_TX;
case dboard_interface::UNIT_TYPE_RX: return USRP2_DIR_RX;
}
throw std::invalid_argument("unknown unit type type");
}
void usrp2_dboard_interface::write_aux_dac(unit_type_t unit, int which, int value){
//setup the out data
usrp2_ctrl_data_t out_data;
out_data.id = htonl(USRP2_CTRL_ID_WRITE_THIS_TO_THE_AUX_DAC_BRO);
out_data.data.aux_args.dir = unit_to_otw(unit);
out_data.data.aux_args.which = which;
out_data.data.aux_args.value = htonl(value);
//send and recv
usrp2_ctrl_data_t in_data = _impl->ctrl_send_and_recv(out_data);
ASSERT_THROW(htonl(in_data.id) == USRP2_CTRL_ID_DONE_WITH_THAT_AUX_DAC_DUDE);
}
int usrp2_dboard_interface::read_aux_adc(unit_type_t unit, int which){
//setup the out data
usrp2_ctrl_data_t out_data;
out_data.id = htonl(USRP2_CTRL_ID_READ_FROM_THIS_AUX_ADC_BRO);
out_data.data.aux_args.dir = unit_to_otw(unit);
out_data.data.aux_args.which = which;
//send and recv
usrp2_ctrl_data_t in_data = _impl->ctrl_send_and_recv(out_data);
ASSERT_THROW(htonl(in_data.id) == USRP2_CTRL_ID_DONE_WITH_THAT_AUX_ADC_DUDE);
return ntohl(in_data.data.aux_args.value);
}
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