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|
/* -*- c++ -*- */
/*
* Copyright 2012,2018 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 GNU Radio; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street,
* Boston, MA 02110-1301, USA.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "file_meta_sink_impl.h"
#include <gnuradio/io_signature.h>
#include <fcntl.h>
#include <stdio.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <cstdio>
#include <stdexcept>
// win32 (mingw/msvc) specific
#ifdef HAVE_IO_H
#include <io.h>
#endif
#ifdef O_BINARY
#define OUR_O_BINARY O_BINARY
#else
#define OUR_O_BINARY 0
#endif
// should be handled via configure
#ifdef O_LARGEFILE
#define OUR_O_LARGEFILE O_LARGEFILE
#else
#define OUR_O_LARGEFILE 0
#endif
namespace gr {
namespace blocks {
file_meta_sink::sptr file_meta_sink::make(size_t itemsize,
const std::string& filename,
double samp_rate,
double relative_rate,
gr_file_types type,
bool complex,
size_t max_segment_size,
pmt::pmt_t extra_dict,
bool detached_header)
{
return gnuradio::get_initial_sptr(new file_meta_sink_impl(itemsize,
filename,
samp_rate,
relative_rate,
type,
complex,
max_segment_size,
extra_dict,
detached_header));
}
file_meta_sink_impl::file_meta_sink_impl(size_t itemsize,
const std::string& filename,
double samp_rate,
double relative_rate,
gr_file_types type,
bool complex,
size_t max_segment_size,
pmt::pmt_t extra_dict,
bool detached_header)
: sync_block("file_meta_sink",
io_signature::make(1, 1, itemsize),
io_signature::make(0, 0, 0)),
d_itemsize(itemsize),
d_samp_rate(samp_rate),
d_relative_rate(relative_rate),
d_max_seg_size(max_segment_size),
d_total_seg_size(0),
d_updated(false),
d_unbuffered(false)
{
d_fp = 0;
d_new_fp = 0;
d_hdr_fp = 0;
d_new_hdr_fp = 0;
if (detached_header == true)
d_state = STATE_DETACHED;
else
d_state = STATE_INLINE;
if (!open(filename))
throw std::runtime_error("file_meta_sink: can't open file\n");
pmt::pmt_t timestamp = pmt::make_tuple(pmt::from_uint64(0), pmt::from_double(0));
// handle extra dictionary
d_extra = pmt::make_dict();
pmt::pmt_t keys = pmt::dict_keys(extra_dict);
pmt::pmt_t vals = pmt::dict_values(extra_dict);
size_t nitems = pmt::length(keys);
for (size_t i = 0; i < nitems; i++) {
d_extra = pmt::dict_add(d_extra, pmt::nth(i, keys), pmt::nth(i, vals));
}
d_extra_size = pmt::serialize_str(d_extra).size();
d_header = pmt::make_dict();
d_header = pmt::dict_add(d_header, pmt::mp("version"), pmt::mp(METADATA_VERSION));
d_header = pmt::dict_add(d_header, pmt::mp("rx_rate"), pmt::mp(samp_rate));
d_header = pmt::dict_add(d_header, pmt::mp("rx_time"), timestamp);
d_header = pmt::dict_add(d_header, pmt::mp("size"), pmt::from_long(d_itemsize));
d_header = pmt::dict_add(d_header, pmt::mp("type"), pmt::from_long(type));
d_header =
pmt::dict_add(d_header, pmt::mp("cplx"), complex ? pmt::PMT_T : pmt::PMT_F);
d_header = pmt::dict_add(
d_header, pmt::mp("strt"), pmt::from_uint64(METADATA_HEADER_SIZE + d_extra_size));
d_header = pmt::dict_add(d_header, mp("bytes"), pmt::from_uint64(0));
do_update();
if (d_state == STATE_DETACHED)
write_header(d_hdr_fp, d_header, d_extra);
else
write_header(d_fp, d_header, d_extra);
}
file_meta_sink_impl::~file_meta_sink_impl() { close(); }
bool file_meta_sink_impl::open(const std::string& filename)
{
bool ret = true;
if (d_state == STATE_DETACHED) {
std::string s = filename + ".hdr";
ret = _open(&d_new_hdr_fp, s.c_str());
}
ret = ret && _open(&d_new_fp, filename.c_str());
d_updated = true;
return ret;
}
bool file_meta_sink_impl::_open(FILE** fp, const char* filename)
{
gr::thread::scoped_lock guard(d_setlock); // hold mutex for duration of this function
bool ret = true;
int fd;
if ((fd = ::open(filename,
O_WRONLY | O_CREAT | O_TRUNC | OUR_O_LARGEFILE | OUR_O_BINARY,
0664)) < 0) {
perror(filename);
return false;
}
if (*fp) { // if we've already got a new one open, close it
fclose(*fp);
fp = 0;
}
if ((*fp = fdopen(fd, "wb")) == NULL) {
perror(filename);
::close(fd); // don't leak file descriptor if fdopen fails.
}
ret = fp != 0;
return ret;
}
void file_meta_sink_impl::close()
{
gr::thread::scoped_lock guard(d_setlock); // hold mutex for duration of this function
update_last_header();
if (d_state == STATE_DETACHED) {
if (d_new_hdr_fp) {
fclose(d_new_hdr_fp);
d_new_hdr_fp = 0;
}
}
if (d_new_fp) {
fclose(d_new_fp);
d_new_fp = 0;
}
d_updated = true;
if (d_fp) {
fclose(d_fp);
d_fp = 0;
}
if (d_state == STATE_DETACHED) {
if (d_hdr_fp) {
fclose(d_hdr_fp);
d_hdr_fp = 0;
}
}
}
void file_meta_sink_impl::do_update()
{
if (d_updated) {
gr::thread::scoped_lock guard(d_setlock); // hold mutex for duration of this block
if (d_state == STATE_DETACHED) {
if (d_hdr_fp)
fclose(d_hdr_fp);
d_hdr_fp = d_new_hdr_fp; // install new file pointer
d_new_hdr_fp = 0;
}
if (d_fp)
fclose(d_fp);
d_fp = d_new_fp; // install new file pointer
d_new_fp = 0;
d_updated = false;
}
}
void file_meta_sink_impl::write_header(FILE* fp, pmt::pmt_t header, pmt::pmt_t extra)
{
std::string header_str = pmt::serialize_str(header);
std::string extra_str = pmt::serialize_str(extra);
if ((header_str.size() != METADATA_HEADER_SIZE) && (extra_str.size() != d_extra_size))
throw std::runtime_error("file_meta_sink: header or extra_dict is wrong size.\n");
size_t nwritten = 0;
while (nwritten < header_str.size()) {
std::string sub = header_str.substr(nwritten);
int count = fwrite(sub.c_str(), sizeof(char), sub.size(), fp);
nwritten += count;
if ((count == 0) && (ferror(fp))) {
fclose(fp);
throw std::runtime_error("file_meta_sink: error writing header to file.\n");
}
}
nwritten = 0;
while (nwritten < extra_str.size()) {
std::string sub = extra_str.substr(nwritten);
int count = fwrite(sub.c_str(), sizeof(char), sub.size(), fp);
nwritten += count;
if ((count == 0) && (ferror(fp))) {
fclose(fp);
throw std::runtime_error("file_meta_sink: error writing extra to file.\n");
}
}
fflush(fp);
}
void file_meta_sink_impl::update_header(pmt::pmt_t key, pmt::pmt_t value)
{
// Special handling caveat to transform rate from radio source into
// the rate at this sink.
if (pmt::eq(key, mp("rx_rate"))) {
d_samp_rate = pmt::to_double(value);
value = pmt::from_double(d_samp_rate * d_relative_rate);
}
// If the tag is not part of the standard header, we put it into the
// extra data, which either updates the current dictionary or adds a
// new item.
if (pmt::dict_has_key(d_header, key)) {
d_header = pmt::dict_add(d_header, key, value);
} else {
d_extra = pmt::dict_add(d_extra, key, value);
d_extra_size = pmt::serialize_str(d_extra).size();
}
}
void file_meta_sink_impl::update_last_header()
{
if (d_state == STATE_DETACHED) {
if (d_hdr_fp)
update_last_header_detached();
} else {
if (d_fp)
update_last_header_inline();
}
}
void file_meta_sink_impl::update_last_header_inline()
{
// Update the last header info with the number of samples this
// block represents.
size_t hdrlen = pmt::to_uint64(pmt::dict_ref(d_header, mp("strt"), pmt::PMT_NIL));
size_t seg_size = d_itemsize * d_total_seg_size;
pmt::pmt_t s = pmt::from_uint64(seg_size);
update_header(mp("bytes"), s);
update_header(mp("strt"), pmt::from_uint64(METADATA_HEADER_SIZE + d_extra_size));
fseek(d_fp, -seg_size - hdrlen, SEEK_CUR);
write_header(d_fp, d_header, d_extra);
fseek(d_fp, seg_size, SEEK_CUR);
}
void file_meta_sink_impl::update_last_header_detached()
{
// Update the last header info with the number of samples this
// block represents.
size_t hdrlen = pmt::to_uint64(pmt::dict_ref(d_header, mp("strt"), pmt::PMT_NIL));
size_t seg_size = d_itemsize * d_total_seg_size;
pmt::pmt_t s = pmt::from_uint64(seg_size);
update_header(mp("bytes"), s);
update_header(mp("strt"), pmt::from_uint64(METADATA_HEADER_SIZE + d_extra_size));
fseek(d_hdr_fp, -hdrlen, SEEK_CUR);
write_header(d_hdr_fp, d_header, d_extra);
}
void file_meta_sink_impl::write_and_update()
{
// New header, so set current size of chunk to 0 and start of chunk
// based on current index + header size.
// uint64_t loc = get_last_header_loc();
pmt::pmt_t s = pmt::from_uint64(0);
update_header(mp("bytes"), s);
// If we have multiple tags on the same offset, this makes
// sure we just overwrite the same header each time instead
// of creating a new header per tag.
s = pmt::from_uint64(METADATA_HEADER_SIZE + d_extra_size);
update_header(mp("strt"), s);
if (d_state == STATE_DETACHED)
write_header(d_hdr_fp, d_header, d_extra);
else
write_header(d_fp, d_header, d_extra);
}
void file_meta_sink_impl::update_rx_time()
{
pmt::pmt_t rx_time = pmt::string_to_symbol("rx_time");
pmt::pmt_t r = pmt::dict_ref(d_header, rx_time, pmt::PMT_NIL);
uint64_t secs = pmt::to_uint64(pmt::tuple_ref(r, 0));
double fracs = pmt::to_double(pmt::tuple_ref(r, 1));
double diff = d_total_seg_size / (d_samp_rate * d_relative_rate);
// std::cerr << "old secs: " << secs << std::endl;
// std::cerr << "old fracs: " << fracs << std::endl;
// std::cerr << "seg size: " << d_total_seg_size << std::endl;
// std::cerr << "diff: " << diff << std::endl;
fracs += diff;
uint64_t new_secs = static_cast<uint64_t>(fracs);
secs += new_secs;
fracs -= new_secs;
// std::cerr << "new secs: " << secs << std::endl;
// std::cerr << "new fracs: " << fracs << std::endl << std::endl;
r = pmt::make_tuple(pmt::from_uint64(secs), pmt::from_double(fracs));
d_header = pmt::dict_add(d_header, rx_time, r);
}
int file_meta_sink_impl::work(int noutput_items,
gr_vector_const_void_star& input_items,
gr_vector_void_star& output_items)
{
char* inbuf = (char*)input_items[0];
int nwritten = 0;
do_update(); // update d_fp is reqd
if (!d_fp)
return noutput_items; // drop output on the floor
uint64_t abs_N = nitems_read(0);
uint64_t end_N = abs_N + (uint64_t)(noutput_items);
std::vector<tag_t> all_tags;
get_tags_in_range(all_tags, 0, abs_N, end_N);
for (const auto& tag : all_tags) {
int item_offset = (int)(tag.offset - abs_N);
// Write date to file up to the next tag location
while (nwritten < item_offset) {
size_t towrite = std::min(d_max_seg_size - d_total_seg_size,
(size_t)(item_offset - nwritten));
int count = fwrite(inbuf, d_itemsize, towrite, d_fp);
if (count == 0) // FIXME add error handling
break;
nwritten += count;
inbuf += count * d_itemsize;
d_total_seg_size += count;
// Only add a new header if we are not at the position of the
// next tag
if ((d_total_seg_size == d_max_seg_size) && (nwritten < item_offset)) {
update_last_header();
update_rx_time();
write_and_update();
d_total_seg_size = 0;
}
}
if (d_total_seg_size > 0) {
update_last_header();
update_header(tag.key, tag.value);
write_and_update();
d_total_seg_size = 0;
} else {
update_header(tag.key, tag.value);
update_last_header();
}
}
// Finish up the rest of the data after tags
while (nwritten < noutput_items) {
size_t towrite = std::min(d_max_seg_size - d_total_seg_size,
(size_t)(noutput_items - nwritten));
int count = fwrite(inbuf, d_itemsize, towrite, d_fp);
if (count == 0) // FIXME add error handling
break;
nwritten += count;
inbuf += count * d_itemsize;
d_total_seg_size += count;
if (d_total_seg_size == d_max_seg_size) {
update_last_header();
update_rx_time();
write_and_update();
d_total_seg_size = 0;
}
}
if (d_unbuffered)
fflush(d_fp);
return nwritten;
}
} /* namespace blocks */
} /* namespace gr */
|
