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/* -*- c++ -*- */
/*
* Copyright 2007,2008 Free Software Foundation, Inc.
*
* This file is part of GNU Radio
*
* GNU Radio 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, or (at your option)
* any later version.
*
* GNU Radio 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, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <mblock/mblock.h>
#include <mblock/runtime.h>
#include <mb_runtime_nop.h> // QA only
#include <mblock/protocol_class.h>
#include <mblock/exception.h>
#include <mblock/msg_queue.h>
#include <mblock/message.h>
#include <mb_mblock_impl.h>
#include <mblock/msg_accepter.h>
#include <mblock/class_registry.h>
#include <pmt.h>
#include <stdio.h>
#include <string.h>
#include <iostream>
#include <ui_nco.h>
#include <symbols_usrp_server_cs.h>
#include <symbols_usrp_channel.h>
#include <symbols_usrp_low_level_cs.h>
#include <symbols_usrp_tx.h>
static bool verbose = true;
class test_usrp_tx : public mb_mblock
{
mb_port_sptr d_tx;
mb_port_sptr d_cs;
pmt_t d_tx_chan0, d_tx_chan1;
enum state_t {
INIT,
OPENING_USRP,
ALLOCATING_CHANNEL,
TRANSMITTING,
CLOSING_CHANNEL,
CLOSING_USRP,
};
state_t d_state;
long d_nsamples_to_send;
long d_nsamples_xmitted;
long d_nframes_xmitted;
long d_samples_per_frame;
bool d_done_sending;
// for generating sine wave output
ui_nco<float,float> d_nco;
double d_amplitude;
public:
test_usrp_tx(mb_runtime *runtime, const std::string &instance_name, pmt_t user_arg);
~test_usrp_tx();
void initial_transition();
void handle_message(mb_message_sptr msg);
protected:
void open_usrp();
void close_usrp();
void allocate_channel();
void send_packets();
void enter_transmitting();
void build_and_send_next_frame();
void handle_xmit_response(pmt_t invocation_handle);
void enter_closing_channel();
};
test_usrp_tx::test_usrp_tx(mb_runtime *runtime, const std::string &instance_name, pmt_t user_arg)
: mb_mblock(runtime, instance_name, user_arg),
d_tx_chan0(PMT_NIL), d_tx_chan1(PMT_NIL),
d_state(INIT), d_nsamples_to_send((long) 80e6),
d_nsamples_xmitted(0),
d_nframes_xmitted(0),
d_samples_per_frame((long)(126 * 4)), // full packet
d_done_sending(false),
d_amplitude(16384)
{
// std::cout << "[TEST_USRP_TX] Initializing...\n";
d_tx = define_port("tx0", "usrp-tx", false, mb_port::INTERNAL);
d_cs = define_port("cs", "usrp-server-cs", false, mb_port::INTERNAL);
//bool fake_usrp_p = true;
bool fake_usrp_p = false;
// Test the TX side
pmt_t usrp_dict = pmt_make_dict();
if(fake_usrp_p) {
pmt_dict_set(usrp_dict,
pmt_intern("fake-usrp"),
PMT_T);
}
// Specify the RBF to use
pmt_dict_set(usrp_dict,
pmt_intern("rbf"),
pmt_intern("inband_2rxhb_2tx.rbf"));
// Set TX and RX interpolations
pmt_dict_set(usrp_dict,
pmt_intern("interp-tx"),
pmt_from_long(128));
// pmt_dict_set(usrp_dict,
// pmt_intern("rf-freq"),
// pmt_from_long(10e6));
define_component("server", "usrp_server", usrp_dict);
connect("self", "tx0", "server", "tx0");
connect("self", "cs", "server", "cs");
// initialize NCO
double freq = 100e3;
int interp = 32; // 32 -> 4MS/s
double sample_rate = 128e6 / interp;
d_nco.set_freq(2*M_PI * freq/sample_rate);
// FIXME need to somehow set the interp rate in the USRP.
// for now, we'll have the low-level code hardwire it.
}
test_usrp_tx::~test_usrp_tx()
{
}
void
test_usrp_tx::initial_transition()
{
open_usrp();
}
void
test_usrp_tx::handle_message(mb_message_sptr msg)
{
pmt_t event = msg->signal();
pmt_t data = msg->data();
pmt_t handle = PMT_F;
pmt_t status = PMT_F;
std::string error_msg;
//std::cout << msg << std::endl;
switch(d_state){
case OPENING_USRP:
if (pmt_eq(event, s_response_open)){
status = pmt_nth(1, data);
if (pmt_eq(status, PMT_T)){
allocate_channel();
return;
}
else {
error_msg = "failed to open usrp:";
goto bail;
}
}
goto unhandled;
case ALLOCATING_CHANNEL:
if (pmt_eq(event, s_response_allocate_channel)){
status = pmt_nth(1, data);
if(pmt_eqv(d_tx_chan0, PMT_NIL))
d_tx_chan0 = pmt_nth(2, data);
else
d_tx_chan1 = pmt_nth(2, data);
if (pmt_eq(status, PMT_T) && !pmt_eqv(d_tx_chan1, PMT_NIL)){
enter_transmitting();
return;
}
else if(pmt_eq(status, PMT_F)){
error_msg = "failed to allocate channel:";
goto bail;
}
return;
}
goto unhandled;
case TRANSMITTING:
if (pmt_eq(event, s_response_xmit_raw_frame)){
handle = pmt_nth(0, data);
status = pmt_nth(1, data);
if (pmt_eq(status, PMT_T)){
handle_xmit_response(handle);
return;
}
else {
error_msg = "bad response-xmit-raw-frame:";
goto bail;
}
}
goto unhandled;
case CLOSING_CHANNEL:
if (pmt_eq(event, s_response_deallocate_channel)){
status = pmt_nth(1, data);
if (pmt_eq(status, PMT_T)){
close_usrp();
return;
}
else {
error_msg = "failed to deallocate channel:";
goto bail;
}
}
goto unhandled;
case CLOSING_USRP:
if (pmt_eq(event, s_response_close)){
status = pmt_nth(1, data);
if (pmt_eq(status, PMT_T)){
shutdown_all(PMT_T);
return;
}
else {
error_msg = "failed to close USRP:";
goto bail;
}
}
goto unhandled;
default:
goto unhandled;
}
return;
bail:
std::cerr << error_msg << data
<< "status = " << status << std::endl;
shutdown_all(PMT_F);
return;
unhandled:
std::cout << "test_usrp_inband_tx: unhandled msg: " << msg
<< "in state "<< d_state << std::endl;
}
void
test_usrp_tx::open_usrp()
{
pmt_t which_usrp = pmt_from_long(0);
d_cs->send(s_cmd_open, pmt_list2(PMT_NIL, which_usrp));
d_state = OPENING_USRP;
if(verbose)
std::cout << "[TEST_USRP_INBAND_TX] Opening the USRP\n";
}
void
test_usrp_tx::close_usrp()
{
d_cs->send(s_cmd_close, pmt_list1(PMT_NIL));
d_state = CLOSING_USRP;
if(verbose)
std::cout << "[TEST_USRP_INBAND_TX] Closing the USRP\n";
}
void
test_usrp_tx::allocate_channel()
{
long capacity = (long) 16e6;
// Send two capacity requests, which will allocate us two channels
d_tx->send(s_cmd_allocate_channel, pmt_list2(PMT_T, pmt_from_long(capacity)));
d_tx->send(s_cmd_allocate_channel, pmt_list2(PMT_T, pmt_from_long(capacity)));
d_state = ALLOCATING_CHANNEL;
if(verbose)
std::cout << "[TEST_USRP_INBAND_TX] Requesting TX channel allocation\n";
}
void
test_usrp_tx::enter_transmitting()
{
d_state = TRANSMITTING;
d_nsamples_xmitted = 0;
if(verbose)
std::cout << "[TEST_USRP_INBAND_TX] Transmitting...\n";
build_and_send_next_frame(); // fire off 4 to start pipeline
build_and_send_next_frame();
build_and_send_next_frame();
build_and_send_next_frame();
}
void
test_usrp_tx::build_and_send_next_frame()
{
// allocate the uniform vector for the samples
// FIXME perhaps hold on to this between calls
#if 1
long nsamples_this_frame =
std::min(d_nsamples_to_send - d_nsamples_xmitted,
d_samples_per_frame);
#else
long nsamples_this_frame = d_samples_per_frame;
#endif
if (nsamples_this_frame == 0){
d_done_sending = true;
return;
}
size_t nshorts = 2 * nsamples_this_frame; // 16-bit I & Q
pmt_t uvec = pmt_make_s16vector(nshorts, 0);
size_t ignore;
int16_t *samples = pmt_s16vector_writable_elements(uvec, ignore);
// fill in the complex sinusoid
for (int i = 0; i < nsamples_this_frame; i++){
if (1){
gr_complex s;
d_nco.sincos(&s, 1, d_amplitude);
// write 16-bit i & q
samples[2*i] = (int16_t) s.real();
samples[2*i+1] = (int16_t) s.imag();
}
else {
gr_complex s(d_amplitude, d_amplitude);
// write 16-bit i & q
samples[2*i] = (int16_t) s.real();
samples[2*i+1] = (int16_t) s.imag();
}
}
pmt_t tx_properties = pmt_make_dict();
pmt_t timestamp = pmt_from_long(0xffffffff); // NOW
d_tx->send(s_cmd_xmit_raw_frame,
pmt_list5(pmt_from_long(d_nframes_xmitted), // invocation-handle
d_tx_chan0, // channel
uvec, // the samples
timestamp,
tx_properties));
// Resend on channel 1
d_tx->send(s_cmd_xmit_raw_frame,
pmt_list5(pmt_from_long(d_nframes_xmitted), // invocation-handle
d_tx_chan1, // channel
uvec, // the samples
timestamp,
tx_properties));
d_nsamples_xmitted += nsamples_this_frame;
d_nframes_xmitted++;
if(verbose && 0)
std::cout << "[TEST_USRP_INBAND_TX] Transmitted frame\n";
}
void
test_usrp_tx::handle_xmit_response(pmt_t handle)
{
if (d_done_sending &&
pmt_to_long(handle) == (d_nframes_xmitted - 1)){
// We're done sending and have received all responses
enter_closing_channel();
}
build_and_send_next_frame();
}
void
test_usrp_tx::enter_closing_channel()
{
d_state = CLOSING_CHANNEL;
// Deallocate both channels
d_tx->send(s_cmd_deallocate_channel, pmt_list2(PMT_NIL, d_tx_chan0));
d_tx->send(s_cmd_deallocate_channel, pmt_list2(PMT_NIL, d_tx_chan1));
if(verbose)
std::cout << "[TEST_USRP_INBAND_tX] Deallocating TX channel\n";
}
REGISTER_MBLOCK_CLASS(test_usrp_tx);
// ----------------------------------------------------------------
int
main (int argc, char **argv)
{
// handle any command line args here
mb_runtime_sptr rt = mb_make_runtime();
pmt_t result = PMT_NIL;
rt->run("top", "test_usrp_tx", PMT_F, &result);
}
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