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gnss-sdr/drivers/gr-gn3s/lib/fusb_linux.cc
Javier Arribas b849b20a8c Added optional support for Sparkfun SiGe GN3S USB GPS RF sampler: 
- Added a pre-compiled custom GN3S firmware.
- Added a fully-compliant GNU Radio source block for GN3S USB dongle. It can be used also from GNU Radio companion and from Python applications.
- Added a new GN3S_Signal_Source block. It is possible to disable the GN3S signal source compilation. See README.

git-svn-id: https://svn.code.sf.net/p/gnss-sdr/code/trunk@217 64b25241-fba3-4117-9849-534c7e92360d
2012-07-30 15:46:07 +00:00

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/* -*- c++ -*- */
/*
* Copyright 2003 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 "fusb_linux.h"
#include "usb.h" // libusb header
#include <stdexcept>
#ifdef HAVE_LINUX_COMPILER_H
#include <linux/compiler.h>
#endif
#include <linux/usbdevice_fs.h> // interface to kernel portion of user mode usb driver
#include <sys/ioctl.h>
#include <assert.h>
#include <string.h>
#include <algorithm>
#include <errno.h>
#include <string.h>
#include <cstdio>
#define MINIMIZE_TX_BUFFERING 1 // must be defined to 0 or 1
//static const int MAX_BLOCK_SIZE = fusb_sysconfig::max_block_size(); // hard limit
//static const int DEFAULT_BLOCK_SIZE = MAX_BLOCK_SIZE;
static const int DEFAULT_BUFFER_SIZE = 4 * (1L << 20); // 4 MB / endpoint
static const int MAX_BLOCK_SIZE = 16 * 1024; // hard limit
static const int DEFAULT_BLOCK_SIZE = 4 * 1024; // fewer kernel memory problems
static const int FUSB_BUFFER_SIZE = 1 * (1L << 20); // 1MB
// Totally evil and fragile extraction of file descriptor from
// guts of libusb. They don't install usbi.h, which is what we'd need
// to do this nicely.
//
// FIXME if everything breaks someday in the future, look here...
static int
fd_from_usb_dev_handle (usb_dev_handle *udh)
{
return *((int *) udh);
}
inline static void
urb_set_ephandle (usbdevfs_urb *urb, fusb_ephandle_linux *handle)
{
urb->usercontext = handle;
}
inline static fusb_ephandle_linux *
urb_get_ephandle (usbdevfs_urb *urb)
{
return (fusb_ephandle_linux *) urb->usercontext;
}
// ------------------------------------------------------------------------
// USB request block (urb) allocation
// ------------------------------------------------------------------------
static usbdevfs_urb *
alloc_urb (fusb_ephandle_linux *self, int buffer_length, int endpoint,
bool input_p, unsigned char *write_buffer)
{
usbdevfs_urb *urb = new usbdevfs_urb;
memset (urb, 0, sizeof (*urb));
urb->buffer_length = buffer_length;
// We allocate dedicated memory only for input buffers.
// For output buffers we reuse the same buffer (the kernel
// copies the data at submital time)
if (input_p)
urb->buffer = new unsigned char [buffer_length];
else
urb->buffer = write_buffer;
// init common values
urb->type = USBDEVFS_URB_TYPE_BULK;
urb->endpoint = (endpoint & 0x7f) | (input_p ? 0x80 : 0);
// USBDEVFS_URB_QUEUE_BULK goes away in linux 2.5, but is needed if
// we are using a 2.4 usb-uhci host controller driver. This is
// unlikely since we're almost always going to be plugged into a
// high speed host controller (ehci)
#if 0 && defined (USBDEVFS_URB_QUEUE_BULK)
urb->flags = USBDEVFS_URB_QUEUE_BULK;
#endif
urb->signr = 0;
urb_set_ephandle (urb, self);
return urb;
}
static void
free_urb (usbdevfs_urb *urb)
{
// if this was an input urb, free the buffer
if (urb->endpoint & 0x80)
delete [] ((unsigned char *) urb->buffer);
delete urb;
}
// ------------------------------------------------------------------------
// device handle
// ------------------------------------------------------------------------
fusb_devhandle_linux::fusb_devhandle_linux (usb_dev_handle *udh)
: fusb_devhandle (udh)
{
// that's all
}
fusb_devhandle_linux::~fusb_devhandle_linux ()
{
// if there are any pending requests, cancel them and free the urbs.
std::list<usbdevfs_urb*>::reverse_iterator it;
for (it = d_pending_rqsts.rbegin (); it != d_pending_rqsts.rend (); it++){
_cancel_urb (*it);
free_urb (*it);
}
}
fusb_ephandle *
fusb_devhandle_linux::make_ephandle (int endpoint, bool input_p,
int block_size, int nblocks)
{
return new fusb_ephandle_linux (this, endpoint, input_p,
block_size, nblocks);
}
// Attempt to cancel all transactions associated with eph.
void
fusb_devhandle_linux::_cancel_pending_rqsts (fusb_ephandle_linux *eph)
{
std::list<usbdevfs_urb*>::reverse_iterator it;
for (it = d_pending_rqsts.rbegin (); it != d_pending_rqsts.rend (); it++){
if (urb_get_ephandle (*it) == eph)
_cancel_urb (*it);
}
}
void
fusb_devhandle_linux::pending_add (usbdevfs_urb *urb)
{
d_pending_rqsts.push_back (urb);
}
usbdevfs_urb *
fusb_devhandle_linux::pending_get ()
{
if (d_pending_rqsts.empty ())
return 0;
usbdevfs_urb *urb = d_pending_rqsts.front ();
d_pending_rqsts.pop_front ();
return urb;
}
bool
fusb_devhandle_linux::pending_remove (usbdevfs_urb *urb)
{
std::list<usbdevfs_urb*>::iterator result = find (d_pending_rqsts.begin (),
d_pending_rqsts.end (),
urb);
if (result == d_pending_rqsts.end ()){
fprintf (stderr, "fusb::pending_remove: failed to find urb in pending_rqsts: %p\n", urb);
return false;
}
d_pending_rqsts.erase (result);
return true;
}
/*
* Submit the urb to the kernel.
* iff successful, the urb will be placed on the devhandle's pending list.
*/
bool
fusb_devhandle_linux::_submit_urb (usbdevfs_urb *urb)
{
int ret;
ret = ioctl (fd_from_usb_dev_handle (d_udh), USBDEVFS_SUBMITURB, urb);
if (ret < 0){
perror ("fusb::_submit_urb");
return false;
}
pending_add (urb);
return true;
}
/*
* Attempt to cancel the in pending or in-progress urb transaction.
* Return true iff transaction was sucessfully cancelled.
*
* Failure to cancel should not be considered a problem. This frequently
* occurs if the transaction has already completed in the kernel but hasn't
* yet been reaped by the user mode code.
*
* urbs which were cancelled have their status field set to -ENOENT when
* they are reaped.
*/
bool
fusb_devhandle_linux::_cancel_urb (usbdevfs_urb *urb)
{
int ret = ioctl (fd_from_usb_dev_handle (d_udh), USBDEVFS_DISCARDURB, urb);
if (ret < 0){
// perror ("fusb::_cancel_urb");
return false;
}
return true;
}
/*
* Check with the kernel and see if any of our outstanding requests
* have completed. For each completed transaction, remove it from the
* devhandle's pending list and append it to the completed list for
* the corresponding endpoint.
*
* If any transactions are reaped return true.
*
* If ok_to_block_p is true, then this will block until at least one
* transaction completes or an unrecoverable error occurs.
*/
bool
fusb_devhandle_linux::_reap (bool ok_to_block_p)
{
int ret;
int nreaped = 0;
usbdevfs_urb *urb = 0;
int fd = fd_from_usb_dev_handle (d_udh);
// try to reap as many as possible without blocking...
while ((ret = ioctl (fd, USBDEVFS_REAPURBNDELAY, &urb)) == 0){
if (urb->status != 0 && urb->status != -ENOENT){
fprintf (stderr, "_reap: usb->status = %d, actual_length = %5d\n",
urb->status, urb->actual_length);
}
pending_remove (urb);
urb_get_ephandle (urb)->completed_list_add (urb);
nreaped++;
}
if (nreaped > 0) // if we got any, return w/o blocking
return true;
if (!ok_to_block_p)
return false;
ret = ioctl (fd, USBDEVFS_REAPURB, &urb);
if (ret < 0){
perror ("fusb::_reap");
return false;
}
pending_remove (urb);
urb_get_ephandle (urb)->completed_list_add (urb);
return true;
}
void
fusb_devhandle_linux::_wait_for_completion ()
{
while (!d_pending_rqsts.empty ())
if (!_reap(true))
break;
}
// ------------------------------------------------------------------------
// end point handle
// ------------------------------------------------------------------------
fusb_ephandle_linux::fusb_ephandle_linux (fusb_devhandle_linux *devhandle,
int endpoint,
bool input_p,
int block_size, int nblocks)
: fusb_ephandle (endpoint, input_p, block_size, nblocks),
d_devhandle (devhandle),
d_write_work_in_progress (0), d_write_buffer (0),
d_read_work_in_progress (0), d_read_buffer (0), d_read_buffer_end (0)
{
if (d_block_size < 0 || d_block_size > MAX_BLOCK_SIZE)
throw std::out_of_range ("fusb_ephandle_linux: block_size");
if (d_nblocks < 0)
throw std::out_of_range ("fusb_ephandle_linux: nblocks");
if (d_block_size == 0)
d_block_size = DEFAULT_BLOCK_SIZE;
if (d_nblocks == 0)
d_nblocks = std::max (1, DEFAULT_BUFFER_SIZE / d_block_size);
if (!d_input_p)
if (!MINIMIZE_TX_BUFFERING)
d_write_buffer = new unsigned char [d_block_size];
if (0)
fprintf(stderr, "fusb_ephandle_linux::ctor: d_block_size = %d d_nblocks = %d\n",
d_block_size, d_nblocks);
// allocate urbs
for (int i = 0; i < d_nblocks; i++)
d_free_list.push_back (alloc_urb (this, d_block_size, d_endpoint,
d_input_p, d_write_buffer));
}
fusb_ephandle_linux::~fusb_ephandle_linux ()
{
stop ();
usbdevfs_urb *urb;
while ((urb = free_list_get ()) != 0)
free_urb (urb);
while ((urb = completed_list_get ()) != 0)
free_urb (urb);
if (d_write_work_in_progress)
free_urb (d_write_work_in_progress);
delete [] d_write_buffer;
if (d_read_work_in_progress)
free_urb (d_read_work_in_progress);
}
// ----------------------------------------------------------------
bool
fusb_ephandle_linux::start ()
{
if (d_started)
return true; // already running
d_started = true;
if (d_input_p){ // fire off all the reads
usbdevfs_urb *urb;
int nerrors = 0;
while ((urb = free_list_get ()) != 0 && nerrors < d_nblocks){
if (!submit_urb (urb))
nerrors++;
}
}
return true;
}
//
// kill all i/o in progress.
// kill any completed but unprocessed transactions.
//
bool
fusb_ephandle_linux::stop ()
{
if (!d_started)
return true;
if (d_write_work_in_progress){
free_list_add (d_write_work_in_progress);
d_write_work_in_progress = 0;
}
if (d_read_work_in_progress){
free_list_add (d_read_work_in_progress);
d_read_work_in_progress = 0;
d_read_buffer = 0;
d_read_buffer_end = 0;
}
d_devhandle->_cancel_pending_rqsts (this);
d_devhandle->_reap (false);
while (1){
usbdevfs_urb *urb;
while ((urb = completed_list_get ()) != 0)
free_list_add (urb);
if (d_free_list.size () == (unsigned) d_nblocks)
break;
if (!d_devhandle->_reap(true))
break;
}
d_started = false;
return true;
}
// ----------------------------------------------------------------
// routines for writing
// ----------------------------------------------------------------
#if (MINIMIZE_TX_BUFFERING)
int
fusb_ephandle_linux::write(const void *buffer, int nbytes)
{
if (!d_started)
return -1;
if (d_input_p)
return -1;
assert(nbytes % 512 == 0);
unsigned char *src = (unsigned char *) buffer;
int n = 0;
while (n < nbytes){
usbdevfs_urb *urb = get_write_work_in_progress();
if (!urb)
return -1;
assert(urb->actual_length == 0);
int m = std::min(nbytes - n, MAX_BLOCK_SIZE);
urb->buffer = src;
urb->buffer_length = m;
n += m;
src += m;
if (!submit_urb(urb))
return -1;
d_write_work_in_progress = 0;
}
return n;
}
#else
int
fusb_ephandle_linux::write (const void *buffer, int nbytes)
{
if (!d_started)
return -1;
if (d_input_p)
return -1;
unsigned char *src = (unsigned char *) buffer;
int n = 0;
while (n < nbytes){
usbdevfs_urb *urb = get_write_work_in_progress ();
if (!urb)
return -1;
unsigned char *dst = (unsigned char *) urb->buffer;
int m = std::min (nbytes - n, urb->buffer_length - urb->actual_length);
memcpy (&dst[urb->actual_length], &src[n], m);
urb->actual_length += m;
n += m;
if (urb->actual_length == urb->buffer_length){
if (!submit_urb (urb))
return -1;
d_write_work_in_progress = 0;
}
}
return n;
}
#endif
usbdevfs_urb *
fusb_ephandle_linux::get_write_work_in_progress ()
{
// if we've already got some work in progress, return it
if (d_write_work_in_progress)
return d_write_work_in_progress;
while (1){
reap_complete_writes ();
usbdevfs_urb *urb = free_list_get ();
if (urb != 0){
assert (urb->actual_length == 0);
d_write_work_in_progress = urb;
return urb;
}
// The free list is empty. Tell the device handle to reap.
// Anything it reaps for us will end up on our completed list.
if (!d_devhandle->_reap (true))
return 0;
}
}
void
fusb_ephandle_linux::reap_complete_writes ()
{
// take a look at the completed_list and xfer to free list after
// checking for errors.
usbdevfs_urb *urb;
while ((urb = completed_list_get ()) != 0){
// Check for any errors or short writes that were reported in the urb.
// The kernel sets status, actual_length and error_count.
// error_count is only used for ISO xfers.
// status is 0 if successful, else is an errno kind of thing
if (urb->status != 0){
fprintf (stderr, "fusb: (status %d) %s\n", urb->status, strerror (-urb->status));
}
else if (urb->actual_length != urb->buffer_length){
fprintf (stderr, "fusb: short write xfer: %d != %d\n",
urb->actual_length, urb->buffer_length);
}
free_list_add (urb);
}
}
void
fusb_ephandle_linux::wait_for_completion ()
{
d_devhandle->_wait_for_completion ();
}
// ----------------------------------------------------------------
// routines for reading
// ----------------------------------------------------------------
int
fusb_ephandle_linux::read (void *buffer, int nbytes)
{
if (!d_started)
return -1;
if (!d_input_p)
return -1;
unsigned char *dst = (unsigned char *) buffer;
int n = 0;
while (n < nbytes){
if (d_read_buffer >= d_read_buffer_end)
if (!reload_read_buffer ())
return -1;
int m = std::min (nbytes - n, (int) (d_read_buffer_end - d_read_buffer));
memcpy (&dst[n], d_read_buffer, m);
d_read_buffer += m;
n += m;
}
return n;
}
bool
fusb_ephandle_linux::reload_read_buffer ()
{
assert (d_read_buffer >= d_read_buffer_end);
usbdevfs_urb *urb;
if (d_read_work_in_progress){
// We're done with this urb. Fire off a read to refill it.
urb = d_read_work_in_progress;
d_read_work_in_progress = 0;
d_read_buffer = 0;
d_read_buffer_end = 0;
urb->actual_length = 0;
if (!submit_urb (urb))
return false;
}
while (1){
while ((urb = completed_list_get ()) == 0)
if (!d_devhandle->_reap (true))
return false;
// check result of completed read
if (urb->status != 0){
// We've got a problem. Report it and fail.
fprintf (stderr, "fusb: (rd status %d) %s\n", urb->status, strerror (-urb->status));
urb->actual_length = 0;
free_list_add (urb);
return false;
}
// we've got a happy urb, full of data...
d_read_work_in_progress = urb;
d_read_buffer = (unsigned char *) urb->buffer;
d_read_buffer_end = d_read_buffer + urb->actual_length;
return true;
}
}
// ----------------------------------------------------------------
void
fusb_ephandle_linux::free_list_add (usbdevfs_urb *urb)
{
assert (urb_get_ephandle (urb) == this);
urb->actual_length = 0;
d_free_list.push_back (urb);
}
usbdevfs_urb *
fusb_ephandle_linux::free_list_get ()
{
if (d_free_list.empty ())
return 0;
usbdevfs_urb *urb = d_free_list.front ();
d_free_list.pop_front ();
return urb;
}
void
fusb_ephandle_linux::completed_list_add (usbdevfs_urb *urb)
{
assert (urb_get_ephandle (urb) == this);
d_completed_list.push_back (urb);
}
usbdevfs_urb *
fusb_ephandle_linux::completed_list_get ()
{
if (d_completed_list.empty ())
return 0;
usbdevfs_urb *urb = d_completed_list.front ();
d_completed_list.pop_front ();
return urb;
}
/*
* Submit the urb. If successful the urb ends up on the devhandle's
* pending list, otherwise, it's back on our free list.
*/
bool
fusb_ephandle_linux::submit_urb (usbdevfs_urb *urb)
{
if (!d_devhandle->_submit_urb (urb)){ // FIXME record the problem somewhere
fprintf (stderr, "_submit_urb failed\n");
free_list_add (urb);
return false;
}
return true;
}
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