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uhd/host/lib/device.cpp
Andrew Lynch 6235f6208a device: read in preferences file before discovery
2020-05-05 12:48:02 -07:00

184 lines
6.3 KiB
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//
// Copyright 2010-2011,2014-2015 Ettus Research LLC
// Copyright 2018 Ettus Research, a National Instruments Company
//
// SPDX-License-Identifier: GPL-3.0-or-later
//
#include <uhd/device.hpp>
#include <uhd/exception.hpp>
#include <uhd/types/dict.hpp>
#include <uhd/utils/algorithm.hpp>
#include <uhd/utils/log.hpp>
#include <uhd/utils/static.hpp>
#include <uhdlib/utils/prefs.hpp>
#include <boost/format.hpp>
#include <boost/functional/hash.hpp>
#include <boost/thread/mutex.hpp>
#include <boost/tuple/tuple.hpp>
#include <boost/weak_ptr.hpp>
#include <future>
using namespace uhd;
static boost::mutex _device_mutex;
/***********************************************************************
* Helper Functions
**********************************************************************/
/*!
* Make a device hash that maps 1 to 1 with a device address.
* The hash will be used to identify created devices.
* \param dev_addr the device address
* \return the hash number
*/
static size_t hash_device_addr(const device_addr_t& dev_addr)
{
// combine the hashes of sorted keys/value pairs
size_t hash = 0;
// The device addr can contain all sorts of stuff, which sometimes gets in
// the way of hashing reliably. TODO: Make this a whitelist
const std::vector<std::string> hash_key_blacklist = {
"claimed", "skip_dram", "skip_ddc", "skip_duc"};
if (dev_addr.has_key("resource")) {
boost::hash_combine(hash, "resource");
boost::hash_combine(hash, dev_addr["resource"]);
} else {
for (const std::string& key : uhd::sorted(dev_addr.keys())) {
if (std::find(hash_key_blacklist.begin(), hash_key_blacklist.end(), key)
== hash_key_blacklist.end()) {
boost::hash_combine(hash, key);
boost::hash_combine(hash, dev_addr[key]);
}
}
}
return hash;
}
/***********************************************************************
* Registration
**********************************************************************/
typedef boost::tuple<device::find_t, device::make_t, device::device_filter_t>
dev_fcn_reg_t;
// instantiate the device function registry container
UHD_SINGLETON_FCN(std::vector<dev_fcn_reg_t>, get_dev_fcn_regs)
void device::register_device(
const find_t& find, const make_t& make, const device_filter_t filter)
{
// UHD_LOGGER_TRACE("UHD") << "registering device";
get_dev_fcn_regs().push_back(dev_fcn_reg_t(find, make, filter));
}
device::~device(void)
{
/* NOP */
}
/***********************************************************************
* Discover
**********************************************************************/
device_addrs_t device::find(const device_addr_t& hint, device_filter_t filter)
{
boost::mutex::scoped_lock lock(_device_mutex);
device_addrs_t device_addrs;
std::vector<std::future<device_addrs_t>> find_tasks;
for (const auto& fcn : get_dev_fcn_regs()) {
if (filter == ANY or fcn.get<2>() == filter) {
find_tasks.emplace_back(std::async(
std::launch::async, [fcn, hint]() { return fcn.get<0>()(hint); }));
}
}
for (auto& find_task : find_tasks) {
try {
device_addrs_t discovered_addrs = find_task.get();
device_addrs.insert(
device_addrs.begin(), discovered_addrs.begin(), discovered_addrs.end());
} catch (const std::exception& e) {
UHD_LOGGER_ERROR("UHD") << "Device discovery error: " << e.what();
}
}
return device_addrs;
}
/***********************************************************************
* Make
**********************************************************************/
device::sptr device::make(const device_addr_t& hint, device_filter_t filter, size_t which)
{
boost::mutex::scoped_lock lock(_device_mutex);
typedef boost::tuple<device_addr_t, make_t> dev_addr_make_t;
std::vector<dev_addr_make_t> dev_addr_makers;
device_addr_t hint_with_prefs = prefs::get_usrp_args(hint);
UHD_LOGGER_DEBUG("UHD") << "Looking for device with hint: " << hint_with_prefs.to_string();
for (const dev_fcn_reg_t& fcn : get_dev_fcn_regs()) {
try {
if (filter == ANY or fcn.get<2>() == filter) {
for (device_addr_t dev_addr : fcn.get<0>()(hint_with_prefs)) {
// append the discovered address and its factory function
dev_addr_makers.push_back(dev_addr_make_t(dev_addr, fcn.get<1>()));
}
}
} catch (const std::exception& e) {
UHD_LOGGER_ERROR("UHD") << "Device discovery error: " << e.what();
}
}
// check that we found any devices
if (dev_addr_makers.size() == 0) {
throw uhd::key_error(
str(boost::format("No devices found for ----->\n%s") % hint.to_pp_string()));
}
// check that the which index is valid
if (dev_addr_makers.size() <= which) {
throw uhd::index_error(str(boost::format("No device at index %d for ----->\n%s")
% which % hint.to_pp_string()));
}
// create a unique hash for the device address
device_addr_t dev_addr;
make_t maker;
boost::tie(dev_addr, maker) = dev_addr_makers.at(which);
size_t dev_hash = hash_device_addr(dev_addr);
UHD_LOGGER_TRACE("UHD") << boost::format("Device hash: %u") % dev_hash;
// copy keys that were in hint but not in dev_addr
// this way, we can pass additional transport arguments
for (const std::string& key : hint.keys()) {
if (not dev_addr.has_key(key))
dev_addr[key] = hint[key];
}
// map device address hash to created devices
static uhd::dict<size_t, boost::weak_ptr<device>> hash_to_device;
// try to find an existing device
if (hash_to_device.has_key(dev_hash) and not hash_to_device[dev_hash].expired()) {
return hash_to_device[dev_hash].lock();
} else {
// Add keys from the config files (note: the user-defined keys will
// always be applied, see also get_usrp_args()
// Then, create and register a new device.
device::sptr dev = maker(prefs::get_usrp_args(dev_addr));
hash_to_device[dev_hash] = dev;
return dev;
}
}
uhd::property_tree::sptr device::get_tree(void) const
{
return _tree;
}
device::device_filter_t device::get_device_type() const
{
return _type;
}
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