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//
// Copyright 2010-2012 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 "fx2_ctrl.hpp"
#include <uhd/utils/msg.hpp>
#include <uhd/exception.hpp>
#include <uhd/transport/usb_control.hpp>
#include <boost/functional/hash.hpp>
#include <boost/thread/thread.hpp>
#include <boost/cstdint.hpp>
#include <fstream>
#include <sstream>
#include <string>
#include <vector>
#include <cstring>
using namespace uhd;
using namespace uhd::usrp;
#define FX2_FIRMWARE_LOAD 0xa0
static const bool load_img_msg = true;
typedef boost::uint32_t hash_type;
/***********************************************************************
* Helper Functions
**********************************************************************/
/*!
* Create a file hash
* The hash will be used to identify the loaded firmware and fpga image
* \param filename file used to generate hash value
* \return hash value in a size_t type
*/
static hash_type generate_hash(const char *filename)
{
std::ifstream file(filename);
if (not file){
throw uhd::io_error(std::string("cannot open input file ") + filename);
}
size_t hash = 0;
char ch;
while (file.get(ch)) {
boost::hash_combine(hash, ch);
}
if (not file.eof()){
throw uhd::io_error(std::string("file error ") + filename);
}
file.close();
return hash_type(hash);
}
/*!
* Verify checksum of a Intel HEX record
* \param record a line from an Intel HEX file
* \return true if record is valid, false otherwise
*/
static bool checksum(std::string *record)
{
size_t len = record->length();
unsigned int i;
unsigned char sum = 0;
unsigned int val;
for (i = 1; i < len; i += 2) {
std::istringstream(record->substr(i, 2)) >> std::hex >> val;
sum += val;
}
if (sum == 0)
return true;
else
return false;
}
/*!
* Parse Intel HEX record
*
* \param record a line from an Intel HEX file
* \param len output length of record
* \param addr output address
* \param type output type
* \param data output data
* \return true if record is sucessfully read, false on error
*/
bool parse_record(std::string *record, unsigned int &len,
unsigned int &addr, unsigned int &type,
unsigned char* data)
{
unsigned int i;
std::string _data;
unsigned int val;
if (record->substr(0, 1) != ":")
return false;
std::istringstream(record->substr(1, 2)) >> std::hex >> len;
std::istringstream(record->substr(3, 4)) >> std::hex >> addr;
std::istringstream(record->substr(7, 2)) >> std::hex >> type;
for (i = 0; i < len; i++) {
std::istringstream(record->substr(9 + 2 * i, 2)) >> std::hex >> val;
data[i] = (unsigned char) val;
}
return true;
}
/*!
* USRP control implementation for device discovery and configuration
*/
class fx2_ctrl_impl : public fx2_ctrl {
public:
fx2_ctrl_impl(uhd::transport::usb_control::sptr ctrl_transport)
{
_ctrl_transport = ctrl_transport;
}
void usrp_fx2_reset(void){
unsigned char reset_y = 1;
unsigned char reset_n = 0;
usrp_control_write(FX2_FIRMWARE_LOAD, 0xe600, 0, &reset_y, 1);
usrp_control_write(FX2_FIRMWARE_LOAD, 0xe600, 0, &reset_n, 1);
//wait for things to settle
boost::this_thread::sleep(boost::posix_time::milliseconds(2000));
}
void usrp_load_firmware(std::string filestring, bool force)
{
const char *filename = filestring.c_str();
hash_type hash = generate_hash(filename);
hash_type loaded_hash; usrp_get_firmware_hash(loaded_hash);
if (not force and (hash == loaded_hash)) return;
//FIXME: verify types
unsigned int len;
unsigned int addr;
unsigned int type;
unsigned char data[512];
std::ifstream file;
file.open(filename, std::ifstream::in);
if (!file.good()) {
throw uhd::io_error("usrp_load_firmware: cannot open firmware input file");
}
unsigned char reset_y = 1;
unsigned char reset_n = 0;
//hit the reset line
if (load_img_msg) UHD_MSG(status) << "Loading firmware image: " << filestring << "..." << std::flush;
usrp_control_write(FX2_FIRMWARE_LOAD, 0xe600, 0, &reset_y, 1);
while (!file.eof()) {
std::string record;
file >> record;
//check for valid record
if (not checksum(&record) or not parse_record(&record, len, addr, type, data)) {
throw uhd::io_error("usrp_load_firmware: bad record checksum");
}
//type 0x00 is data
if (type == 0x00) {
int ret = usrp_control_write(FX2_FIRMWARE_LOAD, addr, 0, data, len);
if (ret < 0) throw uhd::io_error("usrp_load_firmware: usrp_control_write failed");
}
//type 0x01 is end
else if (type == 0x01) {
usrp_set_firmware_hash(hash); //set hash before reset
usrp_control_write(FX2_FIRMWARE_LOAD, 0xe600, 0, &reset_n, 1);
file.close();
//wait for things to settle
boost::this_thread::sleep(boost::posix_time::milliseconds(1000));
if (load_img_msg) UHD_MSG(status) << " done" << std::endl;
return;
}
//type anything else is unhandled
else {
throw uhd::io_error("usrp_load_firmware: unsupported record");
}
}
//file did not end
throw uhd::io_error("usrp_load_firmware: bad record");
}
void usrp_init(void){
//disable
usrp_rx_enable(false);
usrp_tx_enable(false);
//toggle resets
usrp_rx_reset(true);
usrp_tx_reset(true);
usrp_rx_reset(false);
usrp_tx_reset(false);
}
void usrp_load_fpga(std::string filestring)
{
const char *filename = filestring.c_str();
hash_type hash = generate_hash(filename);
hash_type loaded_hash; usrp_get_fpga_hash(loaded_hash);
if (hash == loaded_hash) return;
const int ep0_size = 64;
unsigned char buf[ep0_size];
if (load_img_msg) UHD_MSG(status) << "Loading FPGA image: " << filestring << "..." << std::flush;
std::ifstream file;
file.open(filename, std::ios::in | std::ios::binary);
if (not file.good()) {
throw uhd::io_error("usrp_load_fpga: cannot open fpga input file");
}
usrp_fpga_reset(true); //holding the fpga in reset while loading
if (usrp_control_write_cmd(VRQ_FPGA_LOAD, 0, FL_BEGIN) < 0) {
throw uhd::io_error("usrp_load_fpga: fpga load error");
}
while (not file.eof()) {
file.read((char *)buf, sizeof(buf));
const std::streamsize n = file.gcount();
if(n == 0) continue;
int ret = usrp_control_write(VRQ_FPGA_LOAD, 0, FL_XFER, buf, boost::uint16_t(n));
if (ret < 0 or std::streamsize(ret) != n) {
throw uhd::io_error("usrp_load_fpga: fpga load error");
}
}
if (usrp_control_write_cmd(VRQ_FPGA_LOAD, 0, FL_END) < 0) {
throw uhd::io_error("usrp_load_fpga: fpga load error");
}
usrp_set_fpga_hash(hash);
usrp_fpga_reset(false); //done loading, take fpga out of reset
file.close();
if (load_img_msg) UHD_MSG(status) << " done" << std::endl;
}
void usrp_load_eeprom(std::string filestring)
{
if (load_img_msg) UHD_MSG(status) << "Loading EEPROM image: " << filestring << "..." << std::flush;
const char *filename = filestring.c_str();
const boost::uint16_t i2c_addr = 0x50;
unsigned int addr;
unsigned char data[256];
unsigned char sendbuf[17];
std::ifstream file;
file.open(filename, std::ifstream::in);
if (not file.good()) {
throw uhd::io_error("usrp_load_eeprom: cannot open EEPROM input file");
}
file.read((char *)data, 256);
std::streamsize len = file.gcount();
if(len == 256) {
throw uhd::io_error("usrp_load_eeprom: image size too large");
}
const int pagesize = 16;
addr = 0;
while(len > 0) {
sendbuf[0] = addr;
memcpy(sendbuf+1, &data[addr], len > pagesize ? pagesize : size_t(len));
int ret = usrp_i2c_write(i2c_addr, sendbuf, (len > pagesize ? pagesize : size_t(len))+1);
if (ret < 0) {
throw uhd::io_error("usrp_load_eeprom: usrp_i2c_write failed");
}
addr += pagesize;
len -= pagesize;
boost::this_thread::sleep(boost::posix_time::milliseconds(100));
}
file.close();
if (load_img_msg) UHD_MSG(status) << " done" << std::endl;
}
void usrp_set_led(int led_num, bool on)
{
UHD_ASSERT_THROW(usrp_control_write_cmd(VRQ_SET_LED, on, led_num) >= 0);
}
void usrp_get_firmware_hash(hash_type &hash)
{
UHD_ASSERT_THROW(usrp_control_read(0xa0, USRP_HASH_SLOT_0_ADDR, 0,
(unsigned char*) &hash, sizeof(hash)) >= 0);
}
void usrp_set_firmware_hash(hash_type hash)
{
UHD_ASSERT_THROW(usrp_control_write(0xa0, USRP_HASH_SLOT_0_ADDR, 0,
(unsigned char*) &hash, sizeof(hash)) >= 0);
}
void usrp_get_fpga_hash(hash_type &hash)
{
UHD_ASSERT_THROW(usrp_control_read(0xa0, USRP_HASH_SLOT_1_ADDR, 0,
(unsigned char*) &hash, sizeof(hash)) >= 0);
}
void usrp_set_fpga_hash(hash_type hash)
{
UHD_ASSERT_THROW(usrp_control_write(0xa0, USRP_HASH_SLOT_1_ADDR, 0,
(unsigned char*) &hash, sizeof(hash)) >= 0);
}
void usrp_tx_enable(bool on)
{
UHD_ASSERT_THROW(usrp_control_write_cmd(VRQ_FPGA_SET_TX_ENABLE, on, 0) >= 0);
}
void usrp_rx_enable(bool on)
{
UHD_ASSERT_THROW(usrp_control_write_cmd(VRQ_FPGA_SET_RX_ENABLE, on, 0) >= 0);
}
void usrp_tx_reset(bool on)
{
UHD_ASSERT_THROW(usrp_control_write_cmd(VRQ_FPGA_SET_TX_RESET, on, 0) >= 0);
}
void usrp_rx_reset(bool on)
{
UHD_ASSERT_THROW(usrp_control_write_cmd(VRQ_FPGA_SET_RX_RESET, on, 0) >= 0);
}
void usrp_fpga_reset(bool on)
{
UHD_ASSERT_THROW(usrp_control_write_cmd(VRQ_FPGA_SET_RESET, on, 0) >= 0);
}
int usrp_control_write(boost::uint8_t request,
boost::uint16_t value,
boost::uint16_t index,
unsigned char *buff,
boost::uint16_t length)
{
return _ctrl_transport->submit(VRT_VENDOR_OUT, // bmReqeustType
request, // bRequest
value, // wValue
index, // wIndex
buff, // data
length); // wLength
}
int usrp_control_read(boost::uint8_t request,
boost::uint16_t value,
boost::uint16_t index,
unsigned char *buff,
boost::uint16_t length)
{
return _ctrl_transport->submit(VRT_VENDOR_IN, // bmReqeustType
request, // bRequest
value, // wValue
index, // wIndex
buff, // data
length); // wLength
}
int usrp_control_write_cmd(boost::uint8_t request, boost::uint16_t value, boost::uint16_t index)
{
return usrp_control_write(request, value, index, 0, 0);
}
byte_vector_t read_eeprom(
boost::uint8_t addr,
boost::uint8_t offset,
size_t num_bytes
){
this->write_i2c(addr, byte_vector_t(1, offset));
return this->read_i2c(addr, num_bytes);
}
int usrp_i2c_write(boost::uint16_t i2c_addr, unsigned char *buf, boost::uint16_t len)
{
return usrp_control_write(VRQ_I2C_WRITE, i2c_addr, 0, buf, len);
}
int usrp_i2c_read(boost::uint16_t i2c_addr, unsigned char *buf, boost::uint16_t len)
{
return usrp_control_read(VRQ_I2C_READ, i2c_addr, 0, buf, len);
}
static const bool iface_debug = false;
static const size_t max_i2c_data_bytes = 64;
void write_i2c(boost::uint8_t addr, const byte_vector_t &bytes)
{
UHD_ASSERT_THROW(bytes.size() < max_i2c_data_bytes);
int ret = this->usrp_i2c_write(addr, (unsigned char *)&bytes.front(), bytes.size());
if (iface_debug && (ret < 0))
uhd::runtime_error("USRP: failed i2c write");
}
byte_vector_t read_i2c(boost::uint8_t addr, size_t num_bytes)
{
UHD_ASSERT_THROW(num_bytes < max_i2c_data_bytes);
byte_vector_t bytes(num_bytes);
int ret = this->usrp_i2c_read(addr, (unsigned char *)&bytes.front(), num_bytes);
if (iface_debug && ((ret < 0) || (unsigned)ret < (num_bytes)))
uhd::runtime_error("USRP: failed i2c read");
return bytes;
}
private:
uhd::transport::usb_control::sptr _ctrl_transport;
};
/***********************************************************************
* Public make function for fx2_ctrl interface
**********************************************************************/
fx2_ctrl::sptr fx2_ctrl::make(uhd::transport::usb_control::sptr ctrl_transport){
return sptr(new fx2_ctrl_impl(ctrl_transport));
}
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