/* -*- c++ -*- */
/*
- * Copyright 2003,2004 Free Software Foundation, Inc.
+ * Copyright 2003,2004,2009 Free Software Foundation, Inc.
*
* This file is part of GNU Radio
*
%{
-#include <usrp_prims.h>
+#include <usrp/usrp_prims.h>
%}
enum usrp_load_status_t { ULS_ERROR = 0, ULS_OK, ULS_ALREADY_LOADED };
-struct usb_dev_handle;
-struct usb_device;
/*!
* \brief initialize libusb; probe busses and devices.
* Safe to call more than once.
*/
-void usrp_one_time_init ();
+void usrp_one_time_init (libusb_context **ctx = NULL);
void usrp_rescan ();
* configured USRP (firmware loaded)
* unconfigured Cypress FX2 (only if fx2_ok_p is true)
*/
-struct usb_device *usrp_find_device (int nth, bool fx2_ok_p = false);
+libusb_device *usrp_find_device (int nth, bool fx2_ok_p = false, libusb_context *ctx = NULL);
-bool usrp_usrp_p (struct usb_device *q); //< is this a USRP
-bool usrp_usrp0_p (struct usb_device *q); //< is this a USRP Rev 0
-bool usrp_usrp1_p (struct usb_device *q); //< is this a USRP Rev 1
-bool usrp_usrp2_p (struct usb_device *q); //< is this a USRP Rev 2
-int usrp_hw_rev (struct usb_device *q); //< return h/w rev code
-bool usrp_fx2_p (struct usb_device *q); //< is this an unconfigured Cypress FX2
+bool usrp_usrp_p (libusb_device *q); //< is this a USRP
+bool usrp_usrp0_p (libusb_device *q); //< is this a USRP Rev 0
+bool usrp_usrp1_p (libusb_device *q); //< is this a USRP Rev 1
+bool usrp_usrp2_p (libusb_device *q); //< is this a USRP Rev 2
+int usrp_hw_rev (libusb_device *q); //< return h/w rev code
+bool usrp_fx2_p (libusb_device *q); //< is this an unconfigured Cypress FX2
-bool usrp_unconfigured_usrp_p (struct usb_device *q); //< some kind of unconfigured USRP
-bool usrp_configured_usrp_p (struct usb_device *q); //< some kind of configured USRP
+bool usrp_unconfigured_usrp_p (libusb_device *q); //< some kind of unconfigured USRP
+bool usrp_configured_usrp_p (libusb_device *q); //< some kind of configured USRP
/*!
- * \brief given a usb_device return an instance of the appropriate usb_dev_handle
+ * \brief given a libusb_device return an instance of the appropriate libusb_device_handle
*
* These routines claim the specified interface and select the
* correct alternate interface. (USB nomenclature is totally screwed!)
* If interface can't be opened, or is already claimed by some other
* process, 0 is returned.
*/
-struct usb_dev_handle *usrp_open_cmd_interface (struct usb_device *dev);
-struct usb_dev_handle *usrp_open_rx_interface (struct usb_device *dev);
-struct usb_dev_handle *usrp_open_tx_interface (struct usb_device *dev);
+libusb_device_handle *usrp_open_cmd_interface (libusb_device *dev);
+libusb_device_handle *usrp_open_rx_interface (libusb_device *dev);
+libusb_device_handle *usrp_open_tx_interface (libusb_device *dev);
/*!
* \brief close interface.
*/
-bool usrp_close_interface (struct usb_dev_handle *udh);
+bool usrp_close_interface (libusb_device_handle *udh);
/*!
* \brief load intel hex format file into USRP/Cypress FX2 (8051).
*/
usrp_load_status_t
-usrp_load_firmware (struct usb_dev_handle *udh, const char *filename, bool force);
+usrp_load_firmware (libusb_device_handle *udh, const char *filename, bool force);
/*!
* \brief load intel hex format file into USRP FX2 (8051).
* then rescans the busses and devices.
*/
usrp_load_status_t
-usrp_load_firmware_nth (int nth, const char *filename, bool force);
+usrp_load_firmware_nth (int nth, const char *filename, bool force, libusb_context *ctx = NULL);
/*!
* \brief load fpga configuration bitstream
*/
usrp_load_status_t
-usrp_load_fpga (struct usb_dev_handle *udh, const char *filename, bool force);
+usrp_load_fpga (libusb_device_handle *udh, const char *filename, bool force);
/*!
* \brief load the regular firmware and fpga bitstream in the Nth USRP.
%include <fpga_regs_standard.h>
-bool usrp_write_fpga_reg (struct usb_dev_handle *udh, int reg, int value);
+bool usrp_write_fpga_reg (libusb_device_handle *udh, int reg, int value);
%inline %{
int
-usrp_read_fpga_reg (struct usb_dev_handle *udh, int reg)
+usrp_read_fpga_reg (libusb_device_handle *udh, int reg)
{
int value;
bool ok = usrp_read_fpga_reg (udh, reg, &value);
%}
-bool usrp_set_fpga_reset (struct usb_dev_handle *udh, bool on);
-bool usrp_set_fpga_tx_enable (struct usb_dev_handle *udh, bool on);
-bool usrp_set_fpga_rx_enable (struct usb_dev_handle *udh, bool on);
-bool usrp_set_fpga_tx_reset (struct usb_dev_handle *udh, bool on);
-bool usrp_set_fpga_rx_reset (struct usb_dev_handle *udh, bool on);
-bool usrp_set_led (struct usb_dev_handle *udh, int which, bool on);
+bool usrp_set_fpga_reset (libusb_device_handle *udh, bool on);
+bool usrp_set_fpga_tx_enable (libusb_device_handle *udh, bool on);
+bool usrp_set_fpga_rx_enable (libusb_device_handle *udh, bool on);
+bool usrp_set_fpga_tx_reset (libusb_device_handle *udh, bool on);
+bool usrp_set_fpga_rx_reset (libusb_device_handle *udh, bool on);
+bool usrp_set_led (libusb_device_handle *udh, int which, bool on);
-bool usrp_check_rx_overrun (struct usb_dev_handle *udh, bool *overrun_p);
-bool usrp_check_tx_underrun (struct usb_dev_handle *udh, bool *underrun_p);
+bool usrp_check_rx_overrun (libusb_device_handle *udh, bool *overrun_p);
+bool usrp_check_tx_underrun (libusb_device_handle *udh, bool *underrun_p);
// i2c_read and i2c_write are limited to a maximum len of 64 bytes.
-bool usrp_i2c_write (struct usb_dev_handle *udh, int i2c_addr,
+bool usrp_i2c_write (libusb_device_handle *udh, int i2c_addr,
void *buf, int len);
-bool usrp_i2c_read (struct usb_dev_handle *udh, int i2c_addr,
+bool usrp_i2c_read (libusb_device_handle *udh, int i2c_addr,
void *buf, int len);
// spi_read and spi_write are limited to a maximum of 64 bytes
// See usrp_spi_defs.h for more info
-bool usrp_spi_write (struct usb_dev_handle *udh,
+bool usrp_spi_write (libusb_device_handle *udh,
int optional_header, int enables, int format,
unsigned char *buf, int len);
-bool usrp_spi_read (struct usb_dev_handle *udh,
+bool usrp_spi_read (libusb_device_handle *udh,
int optional_header, int enables, int format,
unsigned char *buf, int len);
-bool usrp_9862_write (struct usb_dev_handle *udh,
+bool usrp_9862_write (libusb_device_handle *udh,
int which_codec, // [0, 1]
int regno, // [0, 63]
int value); // [0, 255]
%inline %{
int
-usrp_9862_read (struct usb_dev_handle *udh, int which_codec, int reg)
+usrp_9862_read (libusb_device_handle *udh, int which_codec, int reg)
{
unsigned char value;
bool ok = usrp_9862_read (udh, which_codec, reg, &value);
%inline %{
bool
-usrp_eeprom_write (struct usb_dev_handle *udh, int i2c_addr,
+usrp_eeprom_write (libusb_device_handle *udh, int i2c_addr,
int eeprom_offset, const std::string buf)
{
return usrp_eeprom_write (udh, i2c_addr, eeprom_offset,
}
std::string
-usrp_eeprom_read (struct usb_dev_handle *udh, int i2c_addr,
+usrp_eeprom_read (libusb_device_handle *udh, int i2c_addr,
int eeprom_offset, int len)
{
if (len <= 0)
%}
-bool usrp_write_aux_dac (struct usb_dev_handle *uhd, int slot,
+bool usrp_write_aux_dac (libusb_device_handle *uhd, int slot,
int which_dac, int value);
%inline %{
-int usrp_read_aux_adc (struct usb_dev_handle *udh, int slot, int which_adc)
+int usrp_read_aux_adc (libusb_device_handle *udh, int slot, int which_adc)
{
int value;
bool ok = usrp_read_aux_adc (udh, slot, which_adc, &value);
* Note that this only works on a configured usrp.
* \returns non-zero length string iff successful.
*/
-std::string usrp_serial_number(struct usb_dev_handle *udh);
+std::string usrp_serial_number(libusb_device_handle *udh);
/*!
* \brief usrp daughterboard id to name mapping