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//
// Copyright 2014-2015 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/>.
//
// This file contains the block control functions for block controller classes.
// See block_ctrl_base_factory.cpp for discovery and factory functions.
#include "ctrl_iface.hpp"
#include "nocscript/block_iface.hpp"
#include <uhd/utils/msg.hpp>
#include <uhd/utils/log.hpp>
#include <uhd/convert.hpp>
#include <uhd/rfnoc/block_ctrl_base.hpp>
#include <uhd/rfnoc/constants.hpp>
#include <boost/format.hpp>
#include <boost/foreach.hpp>
#include <boost/bind.hpp>
#define UHD_BLOCK_LOG() UHD_LOGV(never)
using namespace uhd;
using namespace uhd::rfnoc;
using std::string;
/***********************************************************************
* Helpers
**********************************************************************/
//! Convert register to a peek/poke compatible address
inline uint32_t _sr_to_addr(uint32_t reg) { return reg * 4; };
inline uint32_t _sr_to_addr64(uint32_t reg) { return reg * 8; }; // for peek64
/***********************************************************************
* Structors
**********************************************************************/
block_ctrl_base::block_ctrl_base(
const make_args_t &make_args
) : _tree(make_args.tree),
_transport_is_big_endian(make_args.is_big_endian),
_ctrl_ifaces(make_args.ctrl_ifaces),
_base_address(make_args.base_address & 0xFFF0)
{
UHD_BLOCK_LOG() << "block_ctrl_base()" << std::endl;
/*** Identify this block (NoC-ID, block-ID, and block definition) *******/
// Read NoC-ID (name is passed in through make_args):
uint64_t noc_id = sr_read64(SR_READBACK_REG_ID);
_block_def = blockdef::make_from_noc_id(noc_id);
if (_block_def) UHD_BLOCK_LOG() << "Found valid blockdef" << std::endl;
if (not _block_def)
_block_def = blockdef::make_from_noc_id(DEFAULT_NOC_ID);
UHD_ASSERT_THROW(_block_def);
// For the block ID, we start with block count 0 and increase until
// we get a block ID that's not already registered:
_block_id.set(make_args.device_index, make_args.block_name, 0);
while (_tree->exists("xbar/" + _block_id.get_local())) {
_block_id++;
}
UHD_BLOCK_LOG()
<< "NOC ID: " << str(boost::format("0x%016X ") % noc_id)
<< "Block ID: " << _block_id << std::endl;
/*** Initialize property tree *******************************************/
_root_path = "xbar/" + _block_id.get_local();
_tree->create<uint64_t>(_root_path / "noc_id").set(noc_id);
/*** Reset block state *******************************************/
clear();
/*** Configure ports ****************************************************/
size_t n_valid_input_buffers = 0;
BOOST_FOREACH(const size_t ctrl_port, get_ctrl_ports()) {
// Set source addresses:
sr_write(SR_BLOCK_SID, get_address(ctrl_port), ctrl_port);
// Set sink buffer sizes:
settingsbus_reg_t reg = SR_READBACK_REG_FIFOSIZE;
uint64_t value = sr_read64(reg, ctrl_port);
size_t buf_size_log2 = value & 0xFF;
size_t buf_size_bytes = BYTES_PER_LINE * (1 << buf_size_log2); // Bytes == 8 * 2^x
if (buf_size_bytes > 0) n_valid_input_buffers++;
_tree->create<size_t>(_root_path / "input_buffer_size" / ctrl_port).set(buf_size_bytes);
}
/*** Register names *****************************************************/
blockdef::registers_t sregs = _block_def->get_settings_registers();
BOOST_FOREACH(const std::string ®_name, sregs.keys()) {
if (DEFAULT_NAMED_SR.has_key(reg_name)) {
throw uhd::runtime_error(str(
boost::format("Register name %s is already defined!")
% reg_name
));
}
_tree->create<size_t>(_root_path / "registers" / "sr" / reg_name)
.set(sregs.get(reg_name));
}
blockdef::registers_t rbacks = _block_def->get_readback_registers();
BOOST_FOREACH(const std::string ®_name, rbacks.keys()) {
_tree->create<size_t>(_root_path / "registers"/ "rb" / reg_name)
.set(rbacks.get(reg_name));
}
/*** Init I/O port definitions ******************************************/
_init_port_defs("in", _block_def->get_input_ports());
_init_port_defs("out", _block_def->get_output_ports());
// FIXME this warning always fails until the input buffer code above is fixed
if (_tree->list(_root_path / "ports/in").size() != n_valid_input_buffers) {
UHD_MSG(warning) <<
boost::format("[%s] defines %d input buffer sizes, but %d input ports")
% get_block_id().get() % n_valid_input_buffers % _tree->list(_root_path / "ports/in").size()
<< std::endl;
}
/*** Init default block args ********************************************/
_nocscript_iface = nocscript::block_iface::make(this);
_init_block_args();
}
block_ctrl_base::~block_ctrl_base()
{
_tree->remove(_root_path);
}
void block_ctrl_base::_init_port_defs(
const std::string &direction,
blockdef::ports_t ports,
const size_t first_port_index
) {
size_t port_index = first_port_index;
BOOST_FOREACH(const blockdef::port_t &port_def, ports) {
fs_path port_path = _root_path / "ports" / direction / port_index;
if (not _tree->exists(port_path)) {
_tree->create<blockdef::port_t>(port_path);
}
UHD_RFNOC_BLOCK_TRACE() << "Adding port definition at " << port_path
<< boost::format(": type = '%s' pkt_size = '%s' vlen = '%s'") % port_def["type"] % port_def["pkt_size"] % port_def["vlen"]
<< std::endl;
_tree->access<blockdef::port_t>(port_path).set(port_def);
port_index++;
}
}
void block_ctrl_base::_init_block_args()
{
blockdef::args_t args = _block_def->get_args();
fs_path arg_path = _root_path / "args";
BOOST_FOREACH(const size_t port, get_ctrl_ports()) {
_tree->create<std::string>(arg_path / port);
}
// First, create all nodes.
BOOST_FOREACH(const blockdef::arg_t &arg, args) {
fs_path arg_type_path = arg_path / arg["port"] / arg["name"] / "type";
_tree->create<std::string>(arg_type_path).set(arg["type"]);
fs_path arg_val_path = arg_path / arg["port"] / arg["name"] / "value";
if (arg["type"] == "int_vector") { throw uhd::runtime_error("not yet implemented: int_vector"); }
else if (arg["type"] == "int") { _tree->create<int>(arg_val_path); }
else if (arg["type"] == "double") { _tree->create<double>(arg_val_path); }
else if (arg["type"] == "string") { _tree->create<string>(arg_val_path); }
else { UHD_THROW_INVALID_CODE_PATH(); }
}
// Next: Create all the subscribers and coercers.
// TODO: Add coercer
#define _SUBSCRIBE_CHECK_AND_RUN(type, arg_tag, error_message) \
_tree->access<type>(arg_val_path).add_coerced_subscriber(boost::bind((&nocscript::block_iface::run_and_check), _nocscript_iface, arg[#arg_tag], error_message))
BOOST_FOREACH(const blockdef::arg_t &arg, args) {
fs_path arg_val_path = arg_path / arg["port"] / arg["name"] / "value";
if (not arg["check"].empty()) {
if (arg["type"] == "string") { _SUBSCRIBE_CHECK_AND_RUN(string, check, arg["check_message"]); }
else if (arg["type"] == "int") { _SUBSCRIBE_CHECK_AND_RUN(int, check, arg["check_message"]); }
else if (arg["type"] == "double") { _SUBSCRIBE_CHECK_AND_RUN(double, check, arg["check_message"]); }
else if (arg["type"] == "int_vector") { throw uhd::runtime_error("not yet implemented: int_vector"); }
else { UHD_THROW_INVALID_CODE_PATH(); }
}
if (not arg["action"].empty()) {
if (arg["type"] == "string") { _SUBSCRIBE_CHECK_AND_RUN(string, action, ""); }
else if (arg["type"] == "int") { _SUBSCRIBE_CHECK_AND_RUN(int, action, ""); }
else if (arg["type"] == "double") { _SUBSCRIBE_CHECK_AND_RUN(double, action, ""); }
else if (arg["type"] == "int_vector") { throw uhd::runtime_error("not yet implemented: int_vector"); }
else { UHD_THROW_INVALID_CODE_PATH(); }
}
}
// Finally: Set the values. This will call subscribers, if we have any.
BOOST_FOREACH(const blockdef::arg_t &arg, args) {
fs_path arg_val_path = arg_path / arg["port"] / arg["name"] / "value";
if (not arg["value"].empty()) {
if (arg["type"] == "int_vector") { throw uhd::runtime_error("not yet implemented: int_vector"); }
else if (arg["type"] == "int") { _tree->access<int>(arg_val_path).set(boost::lexical_cast<int>(arg["value"])); }
else if (arg["type"] == "double") { _tree->access<double>(arg_val_path).set(boost::lexical_cast<double>(arg["value"])); }
else if (arg["type"] == "string") { _tree->access<string>(arg_val_path).set(arg["value"]); }
else { UHD_THROW_INVALID_CODE_PATH(); }
}
}
}
/***********************************************************************
* FPGA control & communication
**********************************************************************/
wb_iface::sptr block_ctrl_base::get_ctrl_iface(const size_t block_port)
{
return _ctrl_ifaces[block_port];
}
std::vector<size_t> block_ctrl_base::get_ctrl_ports() const
{
std::vector<size_t> ctrl_ports;
ctrl_ports.reserve(_ctrl_ifaces.size());
std::pair<size_t, wb_iface::sptr> it;
BOOST_FOREACH(it, _ctrl_ifaces) {
ctrl_ports.push_back(it.first);
}
return ctrl_ports;
}
void block_ctrl_base::sr_write(const uint32_t reg, const uint32_t data, const size_t port)
{
//UHD_BLOCK_LOG() << " ";
//UHD_RFNOC_BLOCK_TRACE() << boost::format("sr_write(%d, %08X, %d)") % reg % data % port << std::endl;
if (not _ctrl_ifaces.count(port)) {
throw uhd::key_error(str(boost::format("[%s] sr_write(): No such port: %d") % get_block_id().get() % port));
}
try {
_ctrl_ifaces[port]->poke32(_sr_to_addr(reg), data);
}
catch(const std::exception &ex) {
throw uhd::io_error(str(boost::format("[%s] sr_write() failed: %s") % get_block_id().get() % ex.what()));
}
}
void block_ctrl_base::sr_write(const std::string ®, const uint32_t data, const size_t port)
{
uint32_t reg_addr = 255;
if (DEFAULT_NAMED_SR.has_key(reg)) {
reg_addr = DEFAULT_NAMED_SR[reg];
} else {
if (not _tree->exists(_root_path / "registers" / "sr" / reg)) {
throw uhd::key_error(str(
boost::format("Unknown settings register name: %s")
% reg
));
}
reg_addr = uint32_t(_tree->access<size_t>(_root_path / "registers" / "sr" / reg).get());
}
UHD_BLOCK_LOG() << " ";
UHD_RFNOC_BLOCK_TRACE() << boost::format("sr_write(%s, %08X) ==> ") % reg % data << std::endl;
return sr_write(reg_addr, data, port);
}
uint64_t block_ctrl_base::sr_read64(const settingsbus_reg_t reg, const size_t port)
{
if (not _ctrl_ifaces.count(port)) {
throw uhd::key_error(str(boost::format("[%s] sr_read64(): No such port: %d") % get_block_id().get() % port));
}
try {
return _ctrl_ifaces[port]->peek64(_sr_to_addr64(reg));
}
catch(const std::exception &ex) {
throw uhd::io_error(str(boost::format("[%s] sr_read64() failed: %s") % get_block_id().get() % ex.what()));
}
}
uint32_t block_ctrl_base::sr_read32(const settingsbus_reg_t reg, const size_t port)
{
if (not _ctrl_ifaces.count(port)) {
throw uhd::key_error(str(boost::format("[%s] sr_read32(): No such port: %d") % get_block_id().get() % port));
}
try {
return _ctrl_ifaces[port]->peek32(_sr_to_addr64(reg));
}
catch(const std::exception &ex) {
throw uhd::io_error(str(boost::format("[%s] sr_read32() failed: %s") % get_block_id().get() % ex.what()));
}
}
uint64_t block_ctrl_base::user_reg_read64(const uint32_t addr, const size_t port)
{
try {
// Set readback register address
sr_write(SR_READBACK_ADDR, addr, port);
// Read readback register via RFNoC
return sr_read64(SR_READBACK_REG_USER, port);
}
catch(const std::exception &ex) {
throw uhd::io_error(str(boost::format("%s user_reg_read64() failed: %s") % get_block_id().get() % ex.what()));
}
}
uint64_t block_ctrl_base::user_reg_read64(const std::string ®, const size_t port)
{
if (not _tree->exists(_root_path / "registers" / "rb" / reg)) {
throw uhd::key_error(str(
boost::format("Invalid readback register name: %s")
% reg
));
}
return user_reg_read64(uint32_t(
_tree->access<size_t>(_root_path / "registers" / "rb" / reg).get()
), port);
}
uint32_t block_ctrl_base::user_reg_read32(const uint32_t addr, const size_t port)
{
try {
// Set readback register address
sr_write(SR_READBACK_ADDR, addr, port);
// Read readback register via RFNoC
return sr_read32(SR_READBACK_REG_USER, port);
}
catch(const std::exception &ex) {
throw uhd::io_error(str(boost::format("[%s] user_reg_read32() failed: %s") % get_block_id().get() % ex.what()));
}
}
uint32_t block_ctrl_base::user_reg_read32(const std::string ®, const size_t port)
{
if (not _tree->exists(_root_path / "registers" / "rb" / reg)) {
throw uhd::key_error(str(
boost::format("Invalid readback register name: %s")
% reg
));
}
return user_reg_read32(uint32_t(
_tree->access<size_t>(_root_path / "registers" / "sr" / reg).get()
), port);
}
void block_ctrl_base::set_command_time(
const time_spec_t &time_spec,
const size_t port
) {
if (port == ANY_PORT) {
BOOST_FOREACH(const size_t specific_port, get_ctrl_ports()) {
set_command_time(time_spec, specific_port);
}
return;
}
boost::shared_ptr<ctrl_iface> iface_sptr =
boost::dynamic_pointer_cast<ctrl_iface>(get_ctrl_iface(port));
if (not iface_sptr) {
throw uhd::assertion_error(str(
boost::format("[%s] Cannot set command time on port '%d'")
% unique_id() % port
));
}
iface_sptr->set_time(time_spec);
}
time_spec_t block_ctrl_base::get_command_time(
const size_t port
) {
boost::shared_ptr<ctrl_iface> iface_sptr =
boost::dynamic_pointer_cast<ctrl_iface>(get_ctrl_iface(port));
if (not iface_sptr) {
throw uhd::assertion_error(str(
boost::format("[%s] Cannot get command time on port '%d'")
% unique_id() % port
));
}
return iface_sptr->get_time();
}
void block_ctrl_base::set_command_tick_rate(
const double tick_rate,
const size_t port
) {
if (port == ANY_PORT) {
BOOST_FOREACH(const size_t specific_port, get_ctrl_ports()) {
set_command_tick_rate(tick_rate, specific_port);
}
return;
}
boost::shared_ptr<ctrl_iface> iface_sptr =
boost::dynamic_pointer_cast<ctrl_iface>(get_ctrl_iface(port));
if (not iface_sptr) {
throw uhd::assertion_error(str(
boost::format("[%s] Cannot set command time on port '%d'")
% unique_id() % port
));
}
iface_sptr->set_tick_rate(tick_rate);
}
void block_ctrl_base::clear_command_time(const size_t port)
{
boost::shared_ptr<ctrl_iface> iface_sptr =
boost::dynamic_pointer_cast<ctrl_iface>(get_ctrl_iface(port));
if (not iface_sptr) {
throw uhd::assertion_error(str(
boost::format("[%s] Cannot set command time on port '%d'")
% unique_id() % port
));
}
iface_sptr->set_time(time_spec_t(0.0));
}
void block_ctrl_base::clear()
{
UHD_RFNOC_BLOCK_TRACE() << "block_ctrl_base::clear() " << std::endl;
// Call parent...
node_ctrl_base::clear();
// ...then child
BOOST_FOREACH(const size_t port_index, get_ctrl_ports()) {
_clear(port_index);
}
}
uint32_t block_ctrl_base::get_address(size_t block_port) {
UHD_ASSERT_THROW(block_port < 16);
return (_base_address & 0xFFF0) | (block_port & 0xF);
}
/***********************************************************************
* Argument handling
**********************************************************************/
void block_ctrl_base::set_args(const uhd::device_addr_t &args, const size_t port)
{
BOOST_FOREACH(const std::string &key, args.keys()) {
if (_tree->exists(get_arg_path(key, port))) {
set_arg(key, args.get(key), port);
}
}
}
void block_ctrl_base::set_arg(const std::string &key, const std::string &val, const size_t port)
{
fs_path arg_path = get_arg_path(key, port);
if (not _tree->exists(arg_path / "value")) {
throw uhd::runtime_error(str(
boost::format("Attempting to set uninitialized argument '%s' on block '%s'")
% key % unique_id()
));
}
std::string type = _tree->access<std::string>(arg_path / "type").get();
fs_path arg_val_path = arg_path / "value";
try {
if (type == "string") {
_tree->access<std::string>(arg_val_path).set(val);
}
else if (type == "int") {
_tree->access<int>(arg_val_path).set(boost::lexical_cast<int>(val));
}
else if (type == "double") {
_tree->access<double>(arg_val_path).set(boost::lexical_cast<double>(val));
}
else if (type == "int_vector") {
throw uhd::runtime_error("not yet implemented: int_vector");
}
} catch (const boost::bad_lexical_cast &) {
throw uhd::value_error(str(
boost::format("Error trying to cast value %s == '%s' to type '%s'")
% key % val % type
));
}
}
device_addr_t block_ctrl_base::get_args(const size_t port) const
{
device_addr_t args;
BOOST_FOREACH(const std::string &key, _tree->list(_root_path / "args" / port)) {
args[key] = get_arg(key);
}
return args;
}
std::string block_ctrl_base::get_arg(const std::string &key, const size_t port) const
{
fs_path arg_path = get_arg_path(key, port);
if (not _tree->exists(arg_path / "value")) {
throw uhd::runtime_error(str(
boost::format("Attempting to get uninitialized argument '%s' on block '%s'")
% key % unique_id()
));
}
std::string type = _tree->access<std::string>(arg_path / "type").get();
fs_path arg_val_path = arg_path / "value";
if (type == "string") {
return _tree->access<std::string>(arg_val_path).get();
}
else if (type == "int") {
return boost::lexical_cast<std::string>(_tree->access<int>(arg_val_path).get());
}
else if (type == "double") {
return boost::lexical_cast<std::string>(_tree->access<double>(arg_val_path).get());
}
else if (type == "int_vector") {
throw uhd::runtime_error("not yet implemented: int_vector");
}
UHD_THROW_INVALID_CODE_PATH();
return "";
}
std::string block_ctrl_base::get_arg_type(const std::string &key, const size_t port) const
{
fs_path arg_type_path = _root_path / "args" / port / key / "type";
return _tree->access<std::string>(arg_type_path).get();
}
stream_sig_t block_ctrl_base::_resolve_port_def(const blockdef::port_t &port_def) const
{
if (not port_def.is_valid()) {
throw uhd::runtime_error(str(
boost::format("Invalid port definition: %s") % port_def.to_string()
));
}
// TODO this entire section is pretty dumb at this point. Needs better
// checks.
stream_sig_t stream_sig;
// Item Type
if (port_def.is_variable("type")) {
std::string var_name = port_def["type"].substr(1);
// TODO check this is even a string
stream_sig.item_type = get_arg(var_name);
} else if (port_def.is_keyword("type")) {
throw uhd::runtime_error("keywords resolution for type not yet implemented");
} else {
stream_sig.item_type = port_def["type"];
}
//UHD_RFNOC_BLOCK_TRACE() << " item type: " << stream_sig.item_type << std::endl;
// Vector length
if (port_def.is_variable("vlen")) {
std::string var_name = port_def["vlen"].substr(1);
stream_sig.vlen = boost::lexical_cast<size_t>(get_arg(var_name));
} else if (port_def.is_keyword("vlen")) {
throw uhd::runtime_error("keywords resolution for vlen not yet implemented");
} else {
stream_sig.vlen = boost::lexical_cast<size_t>(port_def["vlen"]);
}
//UHD_RFNOC_BLOCK_TRACE() << " vector length: " << stream_sig.vlen << std::endl;
// Packet size
if (port_def.is_variable("pkt_size")) {
std::string var_name = port_def["pkt_size"].substr(1);
stream_sig.packet_size = boost::lexical_cast<size_t>(get_arg(var_name));
} else if (port_def.is_keyword("pkt_size")) {
if (port_def["pkt_size"] != "%vlen") {
throw uhd::runtime_error("generic keywords resolution for pkt_size not yet implemented");
}
if (stream_sig.vlen == 0) {
stream_sig.packet_size = 0;
} else {
if (stream_sig.item_type.empty()) {
throw uhd::runtime_error("cannot resolve pkt_size if item type is not given");
}
size_t bpi = uhd::convert::get_bytes_per_item(stream_sig.item_type);
stream_sig.packet_size = stream_sig.vlen * bpi;
}
} else {
stream_sig.packet_size = boost::lexical_cast<size_t>(port_def["pkt_size"]);
}
//UHD_RFNOC_BLOCK_TRACE() << " packet size: " << stream_sig.vlen << std::endl;
return stream_sig;
}
/***********************************************************************
* Hooks & Derivables
**********************************************************************/
void block_ctrl_base::_clear(const size_t port)
{
UHD_RFNOC_BLOCK_TRACE() << "block_ctrl_base::_clear() " << std::endl;
sr_write(SR_CLEAR_TX_FC, 0x00C1EA12, port); // 'CLEAR', but we can write anything, really
sr_write(SR_CLEAR_RX_FC, 0x00C1EA12, port); // 'CLEAR', but we can write anything, really
}
// vim: sw=4 et:
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