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authorAshish Chaudhari <ashish@ettus.com>2014-08-12 18:28:36 -0700
committerAshish Chaudhari <ashish@ettus.com>2014-08-12 18:28:36 -0700
commit675350a1d69bafaf76e3723707b23ec1d2830e53 (patch)
treeb16bb60d6a7eaccdde64c04fc86491be81f1438f
parent145f1d7cf7aa94f67c7ba349e29daff9a7d85d54 (diff)
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b200, ad9361: Cleanup up AD9361 driver
- Removed transaction interface - Made the driver a C++ class
-rw-r--r--host/lib/usrp/b200/b200_impl.cpp31
-rw-r--r--host/lib/usrp/b200/b200_impl.hpp2
-rw-r--r--host/lib/usrp/common/CMakeLists.txt2
-rw-r--r--host/lib/usrp/common/ad9361_client.cpp56
-rw-r--r--host/lib/usrp/common/ad9361_ctrl.cpp245
-rw-r--r--host/lib/usrp/common/ad9361_ctrl.hpp35
-rw-r--r--host/lib/usrp/common/ad9361_driver/ad9361_client.h49
-rw-r--r--host/lib/usrp/common/ad9361_driver/ad9361_device.h150
-rw-r--r--host/lib/usrp/common/ad9361_driver/ad9361_dispatch.h24
-rw-r--r--host/lib/usrp/common/ad9361_driver/ad9361_impl.c1854
-rw-r--r--host/lib/usrp/common/ad9361_driver/ad9361_platform.h64
-rw-r--r--host/lib/usrp/common/ad9361_driver/ad9361_transaction.h77
-rw-r--r--host/lib/usrp/common/ad9361_platform_uhd.cpp86
13 files changed, 1122 insertions, 1553 deletions
diff --git a/host/lib/usrp/b200/b200_impl.cpp b/host/lib/usrp/b200/b200_impl.cpp
index 393da2d04..0d0cec784 100644
--- a/host/lib/usrp/b200/b200_impl.cpp
+++ b/host/lib/usrp/b200/b200_impl.cpp
@@ -46,6 +46,33 @@ static const boost::posix_time::milliseconds REENUMERATION_TIMEOUT_MS(3000);
static const size_t FE1 = 1;
static const size_t FE2 = 0;
+class b200_ad9361_client_t : public ad9361_params {
+public:
+ ~b200_ad9361_client_t() {}
+ double get_band_edge(frequency_band_t band) {
+ switch (band) {
+ case AD9361_RX_BAND0: return 2.2e9;
+ case AD9361_RX_BAND1: return 4.0e9;
+ case AD9361_TX_BAND0: return 2.5e9;
+ default: return 0;
+ }
+ }
+ clocking_mode_t get_clocking_mode() {
+ return AD9361_XTAL_N_CLK_PATH;
+ }
+ digital_interface_mode_t get_digital_interface_mode() {
+ return AD9361_DDR_FDD_LVCMOS;
+ }
+ digital_interface_delays_t get_digital_interface_timing() {
+ digital_interface_delays_t delays;
+ delays.rx_clk_delay = 0;
+ delays.rx_data_delay = 0xF;
+ delays.tx_clk_delay = 0;
+ delays.tx_data_delay = 0xF;
+ return delays;
+ }
+};
+
/***********************************************************************
* Discovery
**********************************************************************/
@@ -349,8 +376,8 @@ b200_impl::b200_impl(const device_addr_t &device_addr)
// Init codec - turns on clocks
////////////////////////////////////////////////////////////////////
UHD_MSG(status) << "Initialize CODEC control..." << std::endl;
- _codec_ctrl = ad9361_ctrl::make(
- ad9361_ctrl_transport::make_software_spi(AD9361_B200, _spi_iface, AD9361_SLAVENO));
+ ad9361_params::sptr client_settings = boost::make_shared<b200_ad9361_client_t>();
+ _codec_ctrl = ad9361_ctrl::make_spi(client_settings, _spi_iface, AD9361_SLAVENO);
this->reset_codec_dcm();
////////////////////////////////////////////////////////////////////
diff --git a/host/lib/usrp/b200/b200_impl.hpp b/host/lib/usrp/b200/b200_impl.hpp
index c9462c6d6..155ff699c 100644
--- a/host/lib/usrp/b200/b200_impl.hpp
+++ b/host/lib/usrp/b200/b200_impl.hpp
@@ -100,7 +100,7 @@ private:
//controllers
b200_iface::sptr _iface;
radio_ctrl_core_3000::sptr _local_ctrl;
- ad9361_ctrl::sptr _codec_ctrl;
+ uhd::usrp::ad9361_ctrl::sptr _codec_ctrl;
b200_local_spi_core::sptr _spi_iface;
boost::shared_ptr<uhd::usrp::adf4001_ctrl> _adf4001_iface;
uhd::gps_ctrl::sptr _gps;
diff --git a/host/lib/usrp/common/CMakeLists.txt b/host/lib/usrp/common/CMakeLists.txt
index b40c16121..1729b9d33 100644
--- a/host/lib/usrp/common/CMakeLists.txt
+++ b/host/lib/usrp/common/CMakeLists.txt
@@ -34,8 +34,6 @@ LIBUHD_APPEND_SOURCES(
${CMAKE_CURRENT_SOURCE_DIR}/adf435x_common.cpp
${CMAKE_CURRENT_SOURCE_DIR}/ad9361_ctrl.cpp
${CMAKE_CURRENT_SOURCE_DIR}/ad9361_driver/ad9361_impl.c
- ${CMAKE_CURRENT_SOURCE_DIR}/ad9361_platform_uhd.cpp
- ${CMAKE_CURRENT_SOURCE_DIR}/ad9361_client.cpp
${CMAKE_CURRENT_SOURCE_DIR}/apply_corrections.cpp
${CMAKE_CURRENT_SOURCE_DIR}/validate_subdev_spec.cpp
${CMAKE_CURRENT_SOURCE_DIR}/recv_packet_demuxer.cpp
diff --git a/host/lib/usrp/common/ad9361_client.cpp b/host/lib/usrp/common/ad9361_client.cpp
deleted file mode 100644
index c0cc61585..000000000
--- a/host/lib/usrp/common/ad9361_client.cpp
+++ /dev/null
@@ -1,56 +0,0 @@
-//
-// Copyright 2014 Ettus Research LLC
-//
-
-#include <ad9361_client.h>
-
-double ad9361_client_get_band_edge(ad9361_product_t product, frequency_band_t band)
-{
- switch (product) {
- default:
- switch (band) {
- case AD9361_RX_BAND0: return 2.2e9;
- case AD9361_RX_BAND1: return 4.0e9;
- case AD9361_TX_BAND0: return 2.5e9;
- default: return 0;
- }
- }
-}
-
-clocking_mode_t ad9361_client_get_clocking_mode(ad9361_product_t product)
-{
- switch (product) {
- case AD9361_B200:
- return AD9361_XTAL_N_CLK_PATH;
- default:
- return AD9361_XTAL_N_CLK_PATH;
- }
-}
-
-digital_interface_mode_t ad9361_client_get_digital_interface_mode(ad9361_product_t product)
-{
- switch (product) {
- case AD9361_B200: return AD9361_DDR_FDD_LVCMOS;
- default: return AD9361_DDR_FDD_LVCMOS;
- }
-}
-
-digital_interface_delays_t ad9361_client_get_digital_interface_timing(ad9361_product_t product)
-{
- digital_interface_delays_t delays;
- switch (product) {
- case AD9361_B200:
- delays.rx_clk_delay = 0;
- delays.rx_data_delay = 0xF;
- delays.tx_clk_delay = 0;
- delays.tx_data_delay = 0xF;
- break;
- default:
- delays.rx_clk_delay = 0;
- delays.rx_data_delay = 0;
- delays.tx_clk_delay = 0;
- delays.tx_data_delay = 0;
- break;
- }
- return delays;
-}
diff --git a/host/lib/usrp/common/ad9361_ctrl.cpp b/host/lib/usrp/common/ad9361_ctrl.cpp
index 4cdfaa6e1..0754d2c86 100644
--- a/host/lib/usrp/common/ad9361_ctrl.cpp
+++ b/host/lib/usrp/common/ad9361_ctrl.cpp
@@ -3,20 +3,19 @@
//
#include "ad9361_ctrl.hpp"
-#include "ad9361_transaction.h"
-#include "ad9361_dispatch.h"
-#include <ad9361_platform.h>
#include <uhd/exception.hpp>
#include <uhd/types/ranges.hpp>
#include <uhd/utils/msg.hpp>
#include <uhd/types/serial.hpp>
-#include <boost/thread/mutex.hpp>
-#include <boost/format.hpp>
#include <cstring>
+#include <boost/format.hpp>
#include <boost/utility.hpp>
#include <boost/function.hpp>
+#include <boost/make_shared.hpp>
+#include <boost/thread.hpp>
using namespace uhd;
+using namespace uhd::usrp;
/***********************************************************************
* AD9361 IO Implementation Classes
@@ -28,7 +27,9 @@ public:
ad9361_io_spi(uhd::spi_iface::sptr spi_iface, uint32_t slave_num) :
_spi_iface(spi_iface), _slave_num(slave_num) { }
- uint8_t peek8(uint32_t reg)
+ virtual ~ad9361_io_spi() { }
+
+ virtual uint8_t peek8(uint32_t reg)
{
uhd::spi_config_t config;
config.mosi_edge = uhd::spi_config_t::EDGE_FALL;
@@ -43,7 +44,7 @@ public:
return static_cast<uint8_t>(val);
}
- void poke8(uint32_t reg, uint8_t val)
+ virtual void poke8(uint32_t reg, uint8_t val)
{
uhd::spi_config_t config;
config.mosi_edge = uhd::spi_config_t::EDGE_FALL;
@@ -58,6 +59,7 @@ public:
//networked devices, it makes writes blocking which will considerably slow down the programming
peek8(reg);
}
+
private:
uhd::spi_iface::sptr _spi_iface;
uint32_t _slave_num;
@@ -72,126 +74,31 @@ private:
};
/***********************************************************************
- * AD9361 Transport Implementation Classes
- **********************************************************************/
-
-//----------------------------------------------------------------------
-//Over a zero-copy device transport
-//----------------------------------------------------------------------
-class ad9361_ctrl_transport_zc_impl : public ad9361_ctrl_transport
-{
-public:
- ad9361_ctrl_transport_zc_impl(uhd::transport::zero_copy_if::sptr xport)
- {
- _xport = xport;
- }
-
- void ad9361_transact(const unsigned char in_buff[AD9361_DISPATCH_PACKET_SIZE], unsigned char out_buff[AD9361_DISPATCH_PACKET_SIZE])
- {
- {
- uhd::transport::managed_send_buffer::sptr buff = _xport->get_send_buff(10.0);
- if (not buff or buff->size() < AD9361_DISPATCH_PACKET_SIZE) throw std::runtime_error("ad9361_ctrl_over_zc send timeout");
- std::memcpy(buff->cast<void *>(), in_buff, AD9361_DISPATCH_PACKET_SIZE);
- buff->commit(AD9361_DISPATCH_PACKET_SIZE);
- }
- {
- uhd::transport::managed_recv_buffer::sptr buff = _xport->get_recv_buff(10.0);
- if (not buff or buff->size() < AD9361_DISPATCH_PACKET_SIZE) throw std::runtime_error("ad9361_ctrl_over_zc recv timeout");
- std::memcpy(out_buff, buff->cast<const void *>(), AD9361_DISPATCH_PACKET_SIZE);
- }
- }
-
- uint64_t get_device_handle()
- {
- return 0; //Unused for zero-copy transport because chip class is in FW
- }
-
-private:
- uhd::transport::zero_copy_if::sptr _xport;
-};
-
-//----------------------------------------------------------------------
-//Over a software transport
-//----------------------------------------------------------------------
-class ad9361_ctrl_transport_sw_spi_impl : public ad9361_ctrl_transport
-{
-public:
- ad9361_ctrl_transport_sw_spi_impl(
- ad9361_product_t product,
- uhd::spi_iface::sptr spi_iface,
- boost::uint32_t slave_num) :
- _io_iface(spi_iface, slave_num)
- {
- _device.product = product;
- _device.io_iface = reinterpret_cast<void*>(&_io_iface);
- }
-
- void ad9361_transact(const unsigned char in_buff[AD9361_DISPATCH_PACKET_SIZE], unsigned char out_buff[AD9361_DISPATCH_PACKET_SIZE])
- {
- ad9361_dispatch((const char*)in_buff, (char*)out_buff);
- }
-
- uint64_t get_device_handle()
- {
- return reinterpret_cast<uint64_t>(reinterpret_cast<void*>(&_device));
- }
-
-private:
- ad9361_device_t _device;
- ad9361_io_spi _io_iface;
-};
-
-//----------------------------------------------------------------------
-// Make an instance of the AD9361 Transport
-//----------------------------------------------------------------------
-ad9361_ctrl_transport::sptr ad9361_ctrl_transport::make_zero_copy(uhd::transport::zero_copy_if::sptr xport)
-{
- return sptr(new ad9361_ctrl_transport_zc_impl(xport));
-}
-
-ad9361_ctrl_transport::sptr ad9361_ctrl_transport::make_software_spi(
- ad9361_product_t product,
- uhd::spi_iface::sptr spi_iface,
- boost::uint32_t slave_num)
-{
- return sptr(new ad9361_ctrl_transport_sw_spi_impl(product, spi_iface, slave_num));
-}
-
-/***********************************************************************
- * AD9361 Software API Class
+ * AD9361 Control API Class
**********************************************************************/
class ad9361_ctrl_impl : public ad9361_ctrl
{
public:
- ad9361_ctrl_impl(ad9361_ctrl_transport::sptr iface):
- _iface(iface), _seq(0)
+ ad9361_ctrl_impl(ad9361_params::sptr client_settings, ad9361_io::sptr io_iface):
+ _device(client_settings, io_iface)
{
- ad9361_transaction_t request;
-
- request.action = AD9361_ACTION_ECHO;
- this->do_transaction(request);
-
- request.action = AD9361_ACTION_INIT;
- this->do_transaction(request);
+ _device.initialize();
}
double set_gain(const std::string &which, const double value)
{
- ad9361_transaction_t request;
-
- if (which == "RX1") request.action = AD9361_ACTION_SET_RX1_GAIN;
- if (which == "RX2") request.action = AD9361_ACTION_SET_RX2_GAIN;
- if (which == "TX1") request.action = AD9361_ACTION_SET_TX1_GAIN;
- if (which == "TX2") request.action = AD9361_ACTION_SET_TX2_GAIN;
+ boost::lock_guard<boost::mutex> lock(_mutex);
- ad9361_double_pack(value, request.value.gain);
- const ad9361_transaction_t reply = this->do_transaction(request);
- return ad9361_double_unpack(reply.value.gain);
+ ad9361_device_t::direction_t direction = _get_direction_from_antenna(which);
+ ad9361_device_t::chain_t chain =_get_chain_from_antenna(which);
+ return _device.set_gain(direction, chain, value);
}
//! set a new clock rate, return the exact value
double set_clock_rate(const double rate)
{
+ boost::lock_guard<boost::mutex> lock(_mutex);
+
//warning for known trouble rates
if (rate > 56e6) UHD_MSG(warning) << boost::format(
"The requested clock rate %f MHz may cause slow configuration.\n"
@@ -202,110 +109,76 @@ public:
const meta_range_t clock_rate_range = ad9361_ctrl::get_clock_rate_range();
const double clipped_rate = clock_rate_range.clip(rate);
- ad9361_transaction_t request;
- request.action = AD9361_ACTION_SET_CLOCK_RATE;
- ad9361_double_pack(clipped_rate, request.value.rate);
- const ad9361_transaction_t reply = this->do_transaction(request);
- return ad9361_double_unpack(reply.value.rate);
+ return _device.set_clock_rate(clipped_rate);
}
//! set which RX and TX chains/antennas are active
void set_active_chains(bool tx1, bool tx2, bool rx1, bool rx2)
{
- boost::uint32_t mask = 0;
- if (tx1) mask |= (1 << 0);
- if (tx2) mask |= (1 << 1);
- if (rx1) mask |= (1 << 2);
- if (rx2) mask |= (1 << 3);
-
- ad9361_transaction_t request;
- request.action = AD9361_ACTION_SET_ACTIVE_CHAINS;
- request.value.enable_mask = mask;
- this->do_transaction(request);
+ boost::lock_guard<boost::mutex> lock(_mutex);
+
+ _device.set_active_chains(tx1, tx2, rx1, rx2);
}
//! tune the given frontend, return the exact value
double tune(const std::string &which, const double freq)
{
+ boost::lock_guard<boost::mutex> lock(_mutex);
+
//clip to known bounds
const meta_range_t freq_range = ad9361_ctrl::get_rf_freq_range();
const double clipped_freq = freq_range.clip(freq);
-
- ad9361_transaction_t request;
-
- if (which[0] == 'R') request.action = AD9361_ACTION_SET_RX_FREQ;
- if (which[0] == 'T') request.action = AD9361_ACTION_SET_TX_FREQ;
-
const double value = ad9361_ctrl::get_rf_freq_range().clip(clipped_freq);
- ad9361_double_pack(value, request.value.freq);
- const ad9361_transaction_t reply = this->do_transaction(request);
- return ad9361_double_unpack(reply.value.freq);
+
+ ad9361_device_t::direction_t direction = _get_direction_from_antenna(which);
+ return _device.tune(direction, value);
}
//! turn on/off Catalina's data port loopback
void data_port_loopback(const bool on)
{
- ad9361_transaction_t request;
- request.action = AD9361_ACTION_SET_CODEC_LOOP;
- request.value.codec_loop = on? 1 : 0;
- this->do_transaction(request);
- }
-
- ad9361_transaction_t do_transaction(const ad9361_transaction_t &request)
- {
- boost::mutex::scoped_lock lock(_mutex);
-
- //declare in/out buffers
- unsigned char in_buff[AD9361_DISPATCH_PACKET_SIZE] = {};
- unsigned char out_buff[AD9361_DISPATCH_PACKET_SIZE] = {};
-
- //copy the input transaction
- std::memcpy(in_buff, &request, sizeof(request));
-
- //fill in other goodies
- ad9361_transaction_t *in = (ad9361_transaction_t *)in_buff;
- in->handle = _iface->get_device_handle();
- in->version = AD9361_TRANSACTION_VERSION;
- in->sequence = _seq++;
+ boost::lock_guard<boost::mutex> lock(_mutex);
- //initialize error message to "no error"
- std::memset(in->error_msg, 0, AD9361_TRANSACTION_MAX_ERROR_MSG);
-
- //transact
- _iface->ad9361_transact(in_buff, out_buff);
- ad9361_transaction_t *out = (ad9361_transaction_t *)out_buff;
-
- //sanity checks
- UHD_ASSERT_THROW(out->version == in->version);
- UHD_ASSERT_THROW(out->sequence == in->sequence);
-
- //handle errors
- const size_t len = my_strnlen(out->error_msg, AD9361_TRANSACTION_MAX_ERROR_MSG);
- const std::string error_msg(out->error_msg, len);
- if (not error_msg.empty()) throw uhd::runtime_error("[ad9361_ctrl::do_transaction] firmware reported: \"" + error_msg + "\"");
-
- //return result done!
- return *out;
+ _device.data_port_loopback(on);
}
private:
- //! compat strnlen for platforms that dont have it
- static size_t my_strnlen(const char *str, size_t max)
+ static ad9361_device_t::direction_t _get_direction_from_antenna(const std::string& antenna)
+ {
+ std::string sub = antenna.substr(0, 2);
+ if (sub == "RX") {
+ return ad9361_device_t::RX;
+ } else if (sub == "TX") {
+ return ad9361_device_t::RX;
+ } else {
+ throw uhd::runtime_error("ad9361_ctrl got an invalid channel string.");
+ }
+ return ad9361_device_t::RX;
+ }
+
+ static ad9361_device_t::chain_t _get_chain_from_antenna(const std::string& antenna)
{
- const char *end = (const char *)std::memchr((const void *)str, 0, max);
- if (end == NULL) return max;
- return (size_t)(end - str);
+ std::string sub = antenna.substr(2, 1);
+ if (sub == "1") {
+ return ad9361_device_t::CHAIN_1;
+ } else if (sub == "2") {
+ return ad9361_device_t::CHAIN_2;
+ } else {
+ throw uhd::runtime_error("ad9361_ctrl::set_gain got an invalid channel string.");
+ }
+ return ad9361_device_t::CHAIN_1;
}
- ad9361_ctrl_transport::sptr _iface;
- size_t _seq;
- boost::mutex _mutex;
+ ad9361_device_t _device;
+ boost::mutex _mutex;
};
//----------------------------------------------------------------------
// Make an instance of the AD9361 Control interface
//----------------------------------------------------------------------
-ad9361_ctrl::sptr ad9361_ctrl::make(ad9361_ctrl_transport::sptr iface)
+ad9361_ctrl::sptr ad9361_ctrl::make_spi(
+ ad9361_params::sptr client_settings, uhd::spi_iface::sptr spi_iface, uint32_t slave_num)
{
- return sptr(new ad9361_ctrl_impl(iface));
+ boost::shared_ptr<ad9361_io_spi> spi_io_iface = boost::make_shared<ad9361_io_spi>(spi_iface, slave_num);
+ return sptr(new ad9361_ctrl_impl(client_settings, spi_io_iface));
}
diff --git a/host/lib/usrp/common/ad9361_ctrl.hpp b/host/lib/usrp/common/ad9361_ctrl.hpp
index 4a920a73f..3b8738c51 100644
--- a/host/lib/usrp/common/ad9361_ctrl.hpp
+++ b/host/lib/usrp/common/ad9361_ctrl.hpp
@@ -12,40 +12,12 @@
#include <ad9361_device.h>
#include <string>
#include <stdint.h>
-#include "ad9361_transaction.h"
static const double AD9361_CLOCK_RATE_MAX = 61.44e6;
static const double AD9361_1_CHAN_CLOCK_RATE_MAX = AD9361_CLOCK_RATE_MAX;
static const double AD9361_2_CHAN_CLOCK_RATE_MAX = (AD9361_1_CHAN_CLOCK_RATE_MAX / 2);
-/***********************************************************************
- * AD9361 Transport Interface
- **********************************************************************/
-class ad9361_io
-{
-public:
- virtual uint8_t peek8(uint32_t reg) = 0;
- virtual void poke8(uint32_t reg, uint8_t val) = 0;
-};
-
-/***********************************************************************
- * AD9361 Transport Interface
- **********************************************************************/
-class ad9361_ctrl_transport
-{
-public:
- typedef boost::shared_ptr<ad9361_ctrl_transport> sptr;
-
- virtual uint64_t get_device_handle() = 0;
- virtual void ad9361_transact(const unsigned char in_buff[AD9361_DISPATCH_PACKET_SIZE], unsigned char out_buff[AD9361_DISPATCH_PACKET_SIZE]) = 0;
-
- static ad9361_ctrl_transport::sptr make_zero_copy(
- uhd::transport::zero_copy_if::sptr xport);
- static ad9361_ctrl_transport::sptr make_software_spi(
- ad9361_product_t product,
- uhd::spi_iface::sptr spi_iface,
- boost::uint32_t slave_num);
-};
+namespace uhd { namespace usrp {
/***********************************************************************
* AD9361 Control Interface
@@ -56,7 +28,8 @@ public:
typedef boost::shared_ptr<ad9361_ctrl> sptr;
//! make a new codec control object
- static sptr make(ad9361_ctrl_transport::sptr iface);
+ static sptr make_spi(
+ ad9361_params::sptr client_settings, uhd::spi_iface::sptr spi_iface, uint32_t slave_num);
//! Get a list of gain names for RX or TX
static std::vector<std::string> get_gain_names(const std::string &/*which*/)
@@ -115,4 +88,6 @@ public:
virtual void data_port_loopback(const bool on) = 0;
};
+}}
+
#endif /* INCLUDED_AD9361_CTRL_HPP */
diff --git a/host/lib/usrp/common/ad9361_driver/ad9361_client.h b/host/lib/usrp/common/ad9361_driver/ad9361_client.h
index 300fdb2a5..fa501b615 100644
--- a/host/lib/usrp/common/ad9361_driver/ad9361_client.h
+++ b/host/lib/usrp/common/ad9361_driver/ad9361_client.h
@@ -2,15 +2,13 @@
// Copyright 2014 Ettus Research LLC
//
-#ifndef INCLUDED_AD9361_CLIENT_SETTINGS_H
-#define INCLUDED_AD9361_CLIENT_SETTINGS_H
+#ifndef INCLUDED_AD9361_CLIENT_H
+#define INCLUDED_AD9361_CLIENT_H
#include <stdint.h>
-#include <ad9361_device.h>
+#include <boost/shared_ptr.hpp>
-#ifdef __cplusplus
-extern "C" {
-#endif
+namespace uhd { namespace usrp {
/*!
* Frequency band settings
@@ -21,8 +19,6 @@ typedef enum {
AD9361_TX_BAND0
} frequency_band_t;
-double ad9361_client_get_band_edge(ad9361_product_t product, frequency_band_t band);
-
/*!
* Clocking mode
*/
@@ -31,8 +27,6 @@ typedef enum {
AD9361_XTAL_N_CLK_PATH
} clocking_mode_t;
-clocking_mode_t ad9361_client_get_clocking_mode(ad9361_product_t product);
-
/*!
* Digital interface specific
*/
@@ -41,8 +35,9 @@ typedef enum {
AD9361_DDR_FDD_LVDS
} digital_interface_mode_t;
-digital_interface_mode_t ad9361_client_get_digital_interface_mode(ad9361_product_t product);
-
+/*!
+ * Interface timing
+ */
typedef struct {
uint8_t rx_clk_delay;
uint8_t rx_data_delay;
@@ -50,10 +45,30 @@ typedef struct {
uint8_t tx_data_delay;
} digital_interface_delays_t;
-digital_interface_delays_t ad9361_client_get_digital_interface_timing(ad9361_product_t product);
+class ad9361_params {
+public:
+ typedef boost::shared_ptr<ad9361_params> sptr;
+
+ virtual ~ad9361_params() {}
+
+ virtual digital_interface_delays_t get_digital_interface_timing() = 0;
+ virtual digital_interface_mode_t get_digital_interface_mode() = 0;
+ virtual clocking_mode_t get_clocking_mode() = 0;
+ virtual double get_band_edge(frequency_band_t band) = 0;
+};
+
+class ad9361_io
+{
+public:
+ typedef boost::shared_ptr<ad9361_io> sptr;
+
+ virtual ~ad9361_io() {}
+
+ virtual uint8_t peek8(uint32_t reg) = 0;
+ virtual void poke8(uint32_t reg, uint8_t val) = 0;
+};
+
-#ifdef __cplusplus
-}
-#endif
+}}
-#endif /* INCLUDED_AD9361_CLIENT_SETTINGS_H */
+#endif /* INCLUDED_AD9361_CLIENT_H */
diff --git a/host/lib/usrp/common/ad9361_driver/ad9361_device.h b/host/lib/usrp/common/ad9361_driver/ad9361_device.h
index 0cb4b32a4..f54e04473 100644
--- a/host/lib/usrp/common/ad9361_driver/ad9361_device.h
+++ b/host/lib/usrp/common/ad9361_driver/ad9361_device.h
@@ -2,52 +2,118 @@
// Copyright 2014 Ettus Research LLC
//
-#ifndef INCLUDED_AD9361_CHIP_H
-#define INCLUDED_AD9361_CHIP_H
+#ifndef INCLUDED_AD9361_DEVICE_H
+#define INCLUDED_AD9361_DEVICE_H
#include <stdint.h>
+#include <ad9361_client.h>
+#include <boost/noncopyable.hpp>
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-typedef enum {
- AD9361_GENERIC, AD9361_B200
-} ad9361_product_t;
-
-////////////////////////////////////////////////////////////
-// shadow registers
-typedef struct {
- uint8_t vcodivs;
- uint8_t inputsel;
- uint8_t rxfilt;
- uint8_t txfilt;
- uint8_t bbpll;
- uint8_t bbftune_config;
- uint8_t bbftune_mode;
-} ad9361_chip_regs_t;
-
-////////////////////////////////////////////////////////////
-// other private data fields for VRQ handler
-typedef struct {
- //Product
- ad9361_product_t product;
+namespace uhd { namespace usrp {
+
+class ad9361_device_t : public boost::noncopyable
+{
+public:
+ enum direction_t { RX, TX };
+ enum chain_t { CHAIN_1, CHAIN_2 };
+
+ ad9361_device_t(ad9361_params::sptr client, ad9361_io::sptr io_iface) :
+ _client_params(client), _io_iface(io_iface) {}
+
+ /* Initialize the AD9361 codec. */
+ void initialize();
+
+ /* This function sets the RX / TX rate between AD9361 and the FPGA, and
+ * thus determines the interpolation / decimation required in the FPGA to
+ * achieve the user's requested rate.
+ */
+ double set_clock_rate(const double req_rate);
+
+ /* Set which of the four TX / RX chains provided by AD9361 are active.
+ *
+ * AD9361 provides two sets of chains, Side A and Side B. Each side
+ * provides one TX antenna, and one RX antenna. The B200 maintains the USRP
+ * standard of providing one antenna connection that is both TX & RX, and
+ * one that is RX-only - for each chain. Thus, the possible antenna and
+ * chain selections are:
+ *
+ */
+ void set_active_chains(bool tx1, bool tx2, bool rx1, bool rx2);
+
+ /* Tune the RX or TX frequency.
+ *
+ * This is the publicly-accessible tune function. It makes sure the tune
+ * isn't a redundant request, and if not, passes it on to the class's
+ * internal tune function.
+ *
+ * After tuning, it runs any appropriate calibrations. */
+ double tune(direction_t direction, const double value);
+
+ /* Set the gain of RX1, RX2, TX1, or TX2.
+ *
+ * Note that the 'value' passed to this function is the actual gain value,
+ * _not_ the gain index. This is the opposite of the eval software's GUI!
+ * Also note that the RX chains are done in terms of gain, and the TX chains
+ * are done in terms of attenuation. */
+ double set_gain(direction_t direction, chain_t chain, const double value);
+
+ /* Make AD9361 output its test tone. */
+ void output_test_tone();
+
+ /* Turn on/off AD9361's TX port --> RX port loopback. */
+ void data_port_loopback(const bool loopback_enabled);
+
+private: //Methods
+ void _program_fir_filter(direction_t direction, int num_taps, uint16_t *coeffs);
+ void _setup_tx_fir(size_t num_taps);
+ void _setup_rx_fir(size_t num_taps);
+ void _calibrate_lock_bbpll();
+ void _calibrate_synth_charge_pumps();
+ double _calibrate_baseband_rx_analog_filter();
+ double _calibrate_baseband_tx_analog_filter();
+ void _calibrate_secondary_tx_filter();
+ void _calibrate_rx_TIAs();
+ void _setup_adc();
+ void _calibrate_baseband_dc_offset();
+ void _calibrate_rf_dc_offset();
+ void _calibrate_rx_quadrature();
+ void _tx_quadrature_cal_routine();
+ void _calibrate_tx_quadrature();
+ void _program_mixer_gm_subtable();
+ void _program_gain_table();
+ void _setup_gain_control();
+ void _setup_synth(direction_t direction, double vcorate);
+ double _tune_bbvco(const double rate);
+ void _reprogram_gains();
+ double _tune_helper(direction_t direction, const double value);
+ double _setup_rates(const double rate);
+
+private: //Members
+ typedef struct {
+ uint8_t vcodivs;
+ uint8_t inputsel;
+ uint8_t rxfilt;
+ uint8_t txfilt;
+ uint8_t bbpll;
+ uint8_t bbftune_config;
+ uint8_t bbftune_mode;
+ } chip_regs_t;
+
+ //Interfaces
+ ad9361_params::sptr _client_params;
+ ad9361_io::sptr _io_iface;
//Intermediate state
- double rx_freq, tx_freq, req_rx_freq, req_tx_freq;
- double baseband_bw, bbpll_freq, adcclock_freq;
- double req_clock_rate, req_coreclk;
- uint16_t rx_bbf_tunediv;
- uint8_t curr_gain_table;
- uint32_t rx1_gain, rx2_gain, tx1_gain, tx2_gain;
- int32_t tfir_factor;
+ double _rx_freq, _tx_freq, _req_rx_freq, _req_tx_freq;
+ double _baseband_bw, _bbpll_freq, _adcclock_freq;
+ double _req_clock_rate, _req_coreclk;
+ uint16_t _rx_bbf_tunediv;
+ uint8_t _curr_gain_table;
+ uint32_t _rx1_gain, _rx2_gain, _tx1_gain, _tx2_gain;
+ int32_t _tfir_factor;
//Register soft-copies
- ad9361_chip_regs_t regs;
- //IO Interface
- void* io_iface;
-} ad9361_device_t;
+ chip_regs_t _regs;
+};
-#ifdef __cplusplus
-}
-#endif
+}} //namespace
-#endif /* INCLUDED_AD9361_CHIP_H */
+#endif /* INCLUDED_AD9361_DEVICE_H */
diff --git a/host/lib/usrp/common/ad9361_driver/ad9361_dispatch.h b/host/lib/usrp/common/ad9361_driver/ad9361_dispatch.h
deleted file mode 100644
index 552405763..000000000
--- a/host/lib/usrp/common/ad9361_driver/ad9361_dispatch.h
+++ /dev/null
@@ -1,24 +0,0 @@
-//
-// Copyright 2014 Ettus Research LLC
-//
-
-#ifndef INCLUDED_AD9361_DISPATCH_H
-#define INCLUDED_AD9361_DISPATCH_H
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-#include <ad9361_transaction.h>
-
-extern void ad9361_dispatch(const char* request, char* response);
-
-typedef void (*msgfn)(const char*, ...);
-
-extern void ad9361_set_msgfn(msgfn pfn);
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif /* INCLUDED_AD9361_DISPATCH_H */
diff --git a/host/lib/usrp/common/ad9361_driver/ad9361_impl.c b/host/lib/usrp/common/ad9361_driver/ad9361_impl.c
index fab906e6f..1e1e51412 100644
--- a/host/lib/usrp/common/ad9361_driver/ad9361_impl.c
+++ b/host/lib/usrp/common/ad9361_driver/ad9361_impl.c
@@ -3,43 +3,32 @@
//
#include <stdarg.h>
+#include <stdint.h>
#include <stdio.h>
-#ifdef __cplusplus
-#include <string.h>
-static int lround(double dbl) { return static_cast<int>(dbl+0.5); }
-using namespace std;
-#else
-#include <stdbool.h>
-#include <math.h>
-#endif
+#include <cstring>
+#include <cmath>
#include <iostream>
-#include <ad9361_transaction.h>
#include "ad9361_filter_taps.h"
#include "ad9361_gain_tables.h"
#include "ad9361_synth_lut.h"
-#include "ad9361_dispatch.h"
-#include "ad9361_platform.h" //Platform specific operations
#include "ad9361_client.h" //Client (product) specific settings
#include "ad9361_device.h"
+#include <boost/date_time/posix_time/posix_time.hpp>
+#include <boost/thread/thread.hpp>
+#include <boost/scoped_array.hpp>
#define AD9361_MIN(a, b) (((a) < (b)) ? (a) : (b))
#define AD9361_MAX(a, b) (((a) > (b)) ? (a) : (b))
-////////////////////////////////////////////////////////////
+#define msg
+#define post_err_msg(x)
-static void fake_msg(const char* str, ...)
-{
- (void) str;
+inline int floor_to_int(double val) {
+ return static_cast<int>(std::floor(val));
}
-static msgfn _msgfn = fake_msg;
-
-//extern void msg(const char* str, ...); External object must provide this symbol
-#define msg (_msgfn)
-
-void ad9361_set_msgfn(msgfn pfn)
-{
- _msgfn = pfn;
+inline int ceil_to_int(double val) {
+ return static_cast<int>(std::ceil(val));
}
////////////////////////////////////////////////////////////
@@ -48,9 +37,6 @@ void ad9361_set_msgfn(msgfn pfn)
#define DOUBLE_PI 3.14159265359
#define DOUBLE_LN_2 0.693147181
-#define RX_TYPE 0
-#define TX_TYPE 1
-
////////////////////////////////////////////////////////////
// the following macros evaluate to a compile time constant
// macros By Tom Torfs - donated to the public domain
@@ -73,40 +59,24 @@ void ad9361_set_msgfn(msgfn pfn)
/* *** user macros *** */
+namespace uhd { namespace usrp {
+
/* for upto 8-bit binary constants */
#define B8(d) ((unsigned char)B8__(HEX__(d)))
-double set_gain(uint64_t handle, int which, int n, const double value);
-void set_active_chains(uint64_t handle, bool tx1, bool tx2, bool rx1, bool rx2);
-/***********************************************************************
- * Placeholders, unused, or test functions
- **********************************************************************/
-static char *tmp_req_buffer;
-void post_err_msg( const char* error)
+void ad9361_device_t::output_test_tone()
{
- msg("[AD9361 error] %s", error);
- if (!tmp_req_buffer)
- return;
-
- ad9361_transaction_t *request = (ad9361_transaction_t *)tmp_req_buffer;
- strncpy(request->error_msg, error, (AD9361_TRANSACTION_MAX_ERROR_MSG + 1)); // '+ 1' as length excludes terminating NUL
- request->error_msg[AD9361_TRANSACTION_MAX_ERROR_MSG] = '\0'; // If string was too long, NUL will not be copied, so force one just in case
-}
-
-/* Make AD9361 output its test tone. */
-void output_test_tone(ad9361_device_t* device) {
/* Output a 480 kHz tone at 800 MHz */
- write_ad9361_reg(device, 0x3F4, 0x0B);
- write_ad9361_reg(device, 0x3FC, 0xFF);
- write_ad9361_reg(device, 0x3FD, 0xFF);
- write_ad9361_reg(device, 0x3FE, 0x3F);
+ _io_iface->poke8(0x3F4, 0x0B);
+ _io_iface->poke8(0x3FC, 0xFF);
+ _io_iface->poke8(0x3FD, 0xFF);
+ _io_iface->poke8(0x3FE, 0x3F);
}
-/* Turn on/off AD9361's TX port --> RX port loopback. */
-void data_port_loopback(uint64_t handle, const int on) {
- ad9361_device_t* device = get_ad9361_device(handle);
- msg("[data_port_loopback] Enabled: %d", on);
- write_ad9361_reg(device, 0x3F5, (on ? 0x01 : 0x00));
+void ad9361_device_t::data_port_loopback(const bool loopback_enabled)
+{
+ msg("[data_port_loopback] Enabled: %d", loopback_enabled);
+ _io_iface->poke8(0x3F5, (loopback_enabled ? 0x01 : 0x00));
}
/* This is a simple comparison for very large double-precision floating
@@ -146,110 +116,112 @@ int get_num_taps(int max_num_taps) {
* how many taps are in the filter, and given a vector of the taps
* themselves. */
-void program_fir_filter(ad9361_device_t* device, int which, int num_taps, uint16_t *coeffs) {
- uint16_t base;
+void ad9361_device_t::_program_fir_filter(direction_t direction, int num_taps, uint16_t *coeffs)
+{
+ uint16_t base;
- /* RX and TX filters use largely identical sets of programming registers.
+ /* RX and TX filters use largely identical sets of programming registers.
Select the appropriate bank of registers here. */
- if(which == RX_TYPE) {
- base = 0x0f0;
- } else {
- base = 0x060;
- }
-
- /* Encode number of filter taps for programming register */
- uint8_t reg_numtaps = (((num_taps / 16) - 1) & 0x07) << 5;
-
- /* Turn on the filter clock. */
- write_ad9361_reg(device, base+5, reg_numtaps | 0x1a);
- ad9361_msleep(1);
-
- /* Zero the unused taps just in case they have stale data */
- int addr;
- for(addr=num_taps; addr < 128; addr++) {
- write_ad9361_reg(device, base+0, addr);
- write_ad9361_reg(device, base+1, 0x0);
- write_ad9361_reg(device, base+2, 0x0);
- write_ad9361_reg(device, base+5, reg_numtaps | 0x1e);
- write_ad9361_reg(device, base+4, 0x00);
- write_ad9361_reg(device, base+4, 0x00);
+ if (direction == RX) {
+ base = 0x0f0;
+ } else {
+ base = 0x060;
+ }
+
+ /* Encode number of filter taps for programming register */
+ uint8_t reg_numtaps = (((num_taps / 16) - 1) & 0x07) << 5;
+
+ /* Turn on the filter clock. */
+ _io_iface->poke8(base + 5, reg_numtaps | 0x1a);
+ boost::this_thread::sleep(boost::posix_time::milliseconds(1));
+
+ /* Zero the unused taps just in case they have stale data */
+ int addr;
+ for (addr = num_taps; addr < 128; addr++) {
+ _io_iface->poke8(base + 0, addr);
+ _io_iface->poke8(base + 1, 0x0);
+ _io_iface->poke8(base + 2, 0x0);
+ _io_iface->poke8(base + 5, reg_numtaps | 0x1e);
+ _io_iface->poke8(base + 4, 0x00);
+ _io_iface->poke8(base + 4, 0x00);
}
- /* Iterate through indirect programming of filter coeffs using ADI recomended procedure */
- for(addr=0; addr < num_taps; addr++) {
- write_ad9361_reg(device, base+0, addr);
- write_ad9361_reg(device, base+1, (coeffs[addr]) & 0xff);
- write_ad9361_reg(device, base+2, (coeffs[addr] >> 8) & 0xff);
- write_ad9361_reg(device, base+5, reg_numtaps | 0x1e);
- write_ad9361_reg(device, base+4, 0x00);
- write_ad9361_reg(device, base+4, 0x00);
+ /* Iterate through indirect programming of filter coeffs using ADI recomended procedure */
+ for (addr = 0; addr < num_taps; addr++) {
+ _io_iface->poke8(base + 0, addr);
+ _io_iface->poke8(base + 1, (coeffs[addr]) & 0xff);
+ _io_iface->poke8(base + 2, (coeffs[addr] >> 8) & 0xff);
+ _io_iface->poke8(base + 5, reg_numtaps | 0x1e);
+ _io_iface->poke8(base + 4, 0x00);
+ _io_iface->poke8(base + 4, 0x00);
}
/* UG-671 states (page 25) (paraphrased and clarified):
- " After the table has been programmed, write to register BASE+5 with the write bit D2 cleared and D1 high.
- Then, write to register BASE+5 again with D1 clear, thus ensuring that the write bit resets internally
- before the clock stops. Wait 4 sample clock periods after setting D2 high while that data writes into the table"
- */
-
- write_ad9361_reg(device, base+5, reg_numtaps | 0x1A);
- if(which == RX_TYPE) {
- write_ad9361_reg(device, base+5, reg_numtaps | 0x18);
- write_ad9361_reg(device, base+6, 0x02); /* Also turn on -6dB Rx gain here, to stop filter overfow.*/
- } else {
- write_ad9361_reg(device, base+5, reg_numtaps | 0x19); /* Also turn on -6dB Tx gain here, to stop filter overfow.*/
- }
+ " After the table has been programmed, write to register BASE+5 with the write bit D2 cleared and D1 high.
+ Then, write to register BASE+5 again with D1 clear, thus ensuring that the write bit resets internally
+ before the clock stops. Wait 4 sample clock periods after setting D2 high while that data writes into the table"
+ */
+
+ _io_iface->poke8(base + 5, reg_numtaps | 0x1A);
+ if (direction == RX) {
+ _io_iface->poke8(base + 5, reg_numtaps | 0x18);
+ _io_iface->poke8(base + 6, 0x02); /* Also turn on -6dB Rx gain here, to stop filter overfow.*/
+ } else {
+ _io_iface->poke8(base + 5, reg_numtaps | 0x19); /* Also turn on -6dB Tx gain here, to stop filter overfow.*/
+ }
}
-
/* Program the RX FIR Filter. */
-void setup_rx_fir(ad9361_device_t* device, int total_num_taps) {
- int num_taps = total_num_taps;
-#ifdef __cplusplus
- uint16_t* coeffs = new uint16_t[num_taps];
-#else
- uint16_t coeffs[num_taps];
-#endif
- int i;
- for(i = 0; i < num_taps; i++) {
- switch(num_taps) {
- case 128: coeffs[i] = (uint16_t)hb127_coeffs[i]; break;
- case 96: coeffs[i] = (uint16_t)hb95_coeffs[i]; break;
- case 64: coeffs[i] = (uint16_t)hb63_coeffs[i]; break;
- case 48: coeffs[i] = (uint16_t)hb47_coeffs[i]; break;
- default: post_err_msg("Unsupported number of Rx FIR taps.");
- }
+void ad9361_device_t::_setup_rx_fir(size_t num_taps)
+{
+ boost::scoped_array<boost::uint16_t> coeffs(new boost::uint16_t[num_taps]);
+ for (size_t i = 0; i < num_taps; i++) {
+ switch (num_taps) {
+ case 128:
+ coeffs[i] = (uint16_t) hb127_coeffs[i];
+ break;
+ case 96:
+ coeffs[i] = (uint16_t) hb95_coeffs[i];
+ break;
+ case 64:
+ coeffs[i] = (uint16_t) hb63_coeffs[i];
+ break;
+ case 48:
+ coeffs[i] = (uint16_t) hb47_coeffs[i];
+ break;
+ default:
+ post_err_msg("Unsupported number of Rx FIR taps.");
+ }
}
- program_fir_filter(device, RX_TYPE, total_num_taps, coeffs);
-#ifdef __cplusplus
- delete[] coeffs;
-#endif
+ _program_fir_filter(RX, num_taps, coeffs.get());
}
/* Program the TX FIR Filter. */
-void setup_tx_fir(ad9361_device_t* device, int total_num_taps) {
- int num_taps = total_num_taps;
-#ifdef __cplusplus
- uint16_t* coeffs = new uint16_t[num_taps];
-#else
- uint16_t coeffs[num_taps];
-#endif
- int i;
- for(i = 0; i < num_taps; i++) {
- switch(num_taps) {
- case 128: coeffs[i] = (uint16_t)hb127_coeffs[i]; break;
- case 96: coeffs[i] = (uint16_t)hb95_coeffs[i]; break;
- case 64: coeffs[i] = (uint16_t)hb63_coeffs[i]; break;
- case 48: coeffs[i] = (uint16_t)hb47_coeffs[i]; break;
- default: post_err_msg("Unsupported number of Tx FIR taps.");
- }
+void ad9361_device_t::_setup_tx_fir(size_t num_taps)
+{
+ boost::scoped_array<boost::uint16_t> coeffs(new boost::uint16_t[num_taps]);
+ for (size_t i = 0; i < num_taps; i++) {
+ switch (num_taps) {
+ case 128:
+ coeffs[i] = (uint16_t) hb127_coeffs[i];
+ break;
+ case 96:
+ coeffs[i] = (uint16_t) hb95_coeffs[i];
+ break;
+ case 64:
+ coeffs[i] = (uint16_t) hb63_coeffs[i];
+ break;
+ case 48:
+ coeffs[i] = (uint16_t) hb47_coeffs[i];
+ break;
+ default:
+ post_err_msg("Unsupported number of Tx FIR taps.");
+ }
}
- program_fir_filter(device, TX_TYPE, total_num_taps, coeffs);
-#ifdef __cplusplus
- delete[] coeffs;
-#endif
+ _program_fir_filter(TX, num_taps, coeffs.get());
}
/***********************************************************************
@@ -259,25 +231,25 @@ void setup_tx_fir(ad9361_device_t* device, int total_num_taps) {
/* Calibrate and lock the BBPLL.
*
* This function should be called anytime the BBPLL is tuned. */
-void calibrate_lock_bbpll(ad9361_device_t* device) {
- write_ad9361_reg(device, 0x03F, 0x05); // Start the BBPLL calibration
- write_ad9361_reg(device, 0x03F, 0x01); // Clear the 'start' bit
+void ad9361_device_t::_calibrate_lock_bbpll()
+{
+ _io_iface->poke8(0x03F, 0x05); // Start the BBPLL calibration
+ _io_iface->poke8(0x03F, 0x01); // Clear the 'start' bit
/* Increase BBPLL KV and phase margin. */
- write_ad9361_reg(device, 0x04c, 0x86);
- write_ad9361_reg(device, 0x04d, 0x01);
- write_ad9361_reg(device, 0x04d, 0x05);
+ _io_iface->poke8(0x04c, 0x86);
+ _io_iface->poke8(0x04d, 0x01);
+ _io_iface->poke8(0x04d, 0x05);
/* Wait for BBPLL lock. */
- int count = 0;
- while(!(read_ad9361_reg(device, 0x05e) & 0x80)) {
- if(count > 1000) {
+ size_t count = 0;
+ while (!(_io_iface->peek8(0x05e) & 0x80)) {
+ if (count > 1000) {
post_err_msg("BBPLL not locked");
break;
}
-
count++;
- ad9361_msleep(2);
+ boost::this_thread::sleep(boost::posix_time::milliseconds(2));
}
}
@@ -285,40 +257,39 @@ void calibrate_lock_bbpll(ad9361_device_t* device) {
*
* Technically, this calibration only needs to be done once, at device
* initialization. */
-void calibrate_synth_charge_pumps(ad9361_device_t* device) {
+void ad9361_device_t::_calibrate_synth_charge_pumps()
+{
/* If this function ever gets called, and the ENSM isn't already in the
* ALERT state, then something has gone horribly wrong. */
- if((read_ad9361_reg(device, 0x017) & 0x0F) != 5) {
+ if ((_io_iface->peek8(0x017) & 0x0F) != 5) {
post_err_msg("AD9361 not in ALERT during cal");
}
/* Calibrate the RX synthesizer charge pump. */
- int count = 0;
- write_ad9361_reg(device, 0x23d, 0x04);
- while(!(read_ad9361_reg(device, 0x244) & 0x80)) {
- if(count > 5) {
+ size_t count = 0;
+ _io_iface->poke8(0x23d, 0x04);
+ while (!(_io_iface->peek8(0x244) & 0x80)) {
+ if (count > 5) {
post_err_msg("RX charge pump cal failure");
break;
}
-
count++;
- ad9361_msleep(1);
+ boost::this_thread::sleep(boost::posix_time::milliseconds(1));
}
- write_ad9361_reg(device, 0x23d, 0x00);
+ _io_iface->poke8(0x23d, 0x00);
/* Calibrate the TX synthesizer charge pump. */
count = 0;
- write_ad9361_reg(device, 0x27d, 0x04);
- while(!(read_ad9361_reg(device, 0x284) & 0x80)) {
- if(count > 5) {
+ _io_iface->poke8(0x27d, 0x04);
+ while (!(_io_iface->peek8(0x284) & 0x80)) {
+ if (count > 5) {
post_err_msg("TX charge pump cal failure");
break;
}
-
count++;
- ad9361_msleep(1);
+ boost::this_thread::sleep(boost::posix_time::milliseconds(1));
}
- write_ad9361_reg(device, 0x27d, 0x00);
+ _io_iface->poke8(0x27d, 0x00);
}
/* Calibrate the analog BB RX filter.
@@ -326,59 +297,55 @@ void calibrate_synth_charge_pumps(ad9361_device_t* device) {
* Note that the filter calibration depends heavily on the baseband
* bandwidth, so this must be re-done after any change to the RX sample
* rate. */
-double calibrate_baseband_rx_analog_filter(ad9361_device_t* device) {
+double ad9361_device_t::_calibrate_baseband_rx_analog_filter()
+{
/* For filter tuning, baseband BW is half the complex BW, and must be
* between 28e6 and 0.2e6. */
- double bbbw = device->baseband_bw / 2.0;
- if(bbbw > 28e6) {
+ double bbbw = _baseband_bw / 2.0;
+ if (bbbw > 28e6) {
bbbw = 28e6;
} else if (bbbw < 0.20e6) {
bbbw = 0.20e6;
}
- double rxtune_clk = ((1.4 * bbbw * 2 *
- DOUBLE_PI) / DOUBLE_LN_2);
-
- device->rx_bbf_tunediv = AD9361_MIN(511, ad9361_ceil_to_int(device->bbpll_freq / rxtune_clk));
-
- device->regs.bbftune_config = (device->regs.bbftune_config & 0xFE) \
- | ((device->rx_bbf_tunediv >> 8) & 0x0001);
+ double rxtune_clk = ((1.4 * bbbw * 2 * DOUBLE_PI) / DOUBLE_LN_2);
+ _rx_bbf_tunediv = AD9361_MIN(511, ceil_to_int(_bbpll_freq / rxtune_clk));
+ _regs.bbftune_config = (_regs.bbftune_config & 0xFE)
+ | ((_rx_bbf_tunediv >> 8) & 0x0001);
double bbbw_mhz = bbbw / 1e6;
-
- double temp = ((bbbw_mhz - ad9361_floor_to_int(bbbw_mhz)) * 1000) / 7.8125;
- uint8_t bbbw_khz = (uint8_t) AD9361_MIN(127, (ad9361_floor_to_int(temp + 0.5)));
+ double temp = ((bbbw_mhz - floor_to_int(bbbw_mhz)) * 1000) / 7.8125;
+ uint8_t bbbw_khz = (uint8_t) AD9361_MIN(127, (floor_to_int(temp + 0.5)));
/* Set corner frequencies and dividers. */
- write_ad9361_reg(device, 0x1fb, (uint8_t)(bbbw_mhz));
- write_ad9361_reg(device, 0x1fc, bbbw_khz);
- write_ad9361_reg(device, 0x1f8, (device->rx_bbf_tunediv & 0x00FF));
- write_ad9361_reg(device, 0x1f9, device->regs.bbftune_config);
+ _io_iface->poke8(0x1fb, (uint8_t) (bbbw_mhz));
+ _io_iface->poke8(0x1fc, bbbw_khz);
+ _io_iface->poke8(0x1f8, (_rx_bbf_tunediv & 0x00FF));
+ _io_iface->poke8(0x1f9, _regs.bbftune_config);
/* RX Mix Voltage settings - only change with apps engineer help. */
- write_ad9361_reg(device, 0x1d5, 0x3f);
- write_ad9361_reg(device, 0x1c0, 0x03);
+ _io_iface->poke8(0x1d5, 0x3f);
+ _io_iface->poke8(0x1c0, 0x03);
/* Enable RX1 & RX2 filter tuners. */
- write_ad9361_reg(device, 0x1e2, 0x02);
- write_ad9361_reg(device, 0x1e3, 0x02);
+ _io_iface->poke8(0x1e2, 0x02);
+ _io_iface->poke8(0x1e3, 0x02);
/* Run the calibration! */
- int count = 0;
- write_ad9361_reg(device, 0x016, 0x80);
- while(read_ad9361_reg(device, 0x016) & 0x80) {
- if(count > 100) {
+ size_t count = 0;
+ _io_iface->poke8(0x016, 0x80);
+ while (_io_iface->peek8(0x016) & 0x80) {
+ if (count > 100) {
post_err_msg("RX baseband filter cal FAILURE");
break;
}
-
count++;
- ad9361_msleep(1);
+ boost::this_thread::sleep(boost::posix_time::milliseconds(1));
}
/* Disable RX1 & RX2 filter tuners. */
- write_ad9361_reg(device, 0x1e2, 0x03);
- write_ad9361_reg(device, 0x1e3, 0x03);
+ _io_iface->poke8(0x1e2, 0x03);
+ _io_iface->poke8(0x1e3, 0x03);
return bbbw;
}
@@ -388,46 +355,44 @@ double calibrate_baseband_rx_analog_filter(ad9361_device_t* device) {
* Note that the filter calibration depends heavily on the baseband
* bandwidth, so this must be re-done after any change to the TX sample
* rate. */
-double calibrate_baseband_tx_analog_filter(ad9361_device_t* device) {
+double ad9361_device_t::_calibrate_baseband_tx_analog_filter()
+{
/* For filter tuning, baseband BW is half the complex BW, and must be
* between 28e6 and 0.2e6. */
- double bbbw = device->baseband_bw / 2.0;
- if(bbbw > 20e6) {
+ double bbbw = _baseband_bw / 2.0;
+ if (bbbw > 20e6) {
bbbw = 20e6;
} else if (bbbw < 0.625e6) {
bbbw = 0.625e6;
}
- double txtune_clk = ((1.6 * bbbw * 2 *
- DOUBLE_PI) / DOUBLE_LN_2);
-
- uint16_t txbbfdiv = AD9361_MIN(511, (ad9361_ceil_to_int(device->bbpll_freq / txtune_clk)));
-
- device->regs.bbftune_mode = (device->regs.bbftune_mode & 0xFE) \
- | ((txbbfdiv >> 8) & 0x0001);
+ double txtune_clk = ((1.6 * bbbw * 2 * DOUBLE_PI) / DOUBLE_LN_2);
+ uint16_t txbbfdiv = AD9361_MIN(511, (ceil_to_int(_bbpll_freq / txtune_clk)));
+ _regs.bbftune_mode = (_regs.bbftune_mode & 0xFE)
+ | ((txbbfdiv >> 8) & 0x0001);
/* Program the divider values. */
- write_ad9361_reg(device, 0x0d6, (txbbfdiv & 0x00FF));
- write_ad9361_reg(device, 0x0d7, device->regs.bbftune_mode);
+ _io_iface->poke8(0x0d6, (txbbfdiv & 0x00FF));
+ _io_iface->poke8(0x0d7, _regs.bbftune_mode);
/* Enable the filter tuner. */
- write_ad9361_reg(device, 0x0ca, 0x22);
+ _io_iface->poke8(0x0ca, 0x22);
/* Calibrate! */
- int count = 0;
- write_ad9361_reg(device, 0x016, 0x40);
- while(read_ad9361_reg(device, 0x016) & 0x40) {
- if(count > 100) {
+ size_t count = 0;
+ _io_iface->poke8(0x016, 0x40);
+ while (_io_iface->peek8(0x016) & 0x40) {
+ if (count > 100) {
post_err_msg("TX baseband filter cal FAILURE");
break;
}
count++;
- ad9361_msleep(1);
+ boost::this_thread::sleep(boost::posix_time::milliseconds(1));
}
/* Disable the filter tuner. */
- write_ad9361_reg(device, 0x0ca, 0x26);
+ _io_iface->poke8(0x0ca, 0x26);
return bbbw;
}
@@ -436,11 +401,12 @@ double calibrate_baseband_tx_analog_filter(ad9361_device_t* device) {
*
* This filter also depends on the TX sample rate, so if a rate change is
* made, the previous calibration will no longer be valid. */
-void calibrate_secondary_tx_filter(ad9361_device_t* device) {
+void ad9361_device_t::_calibrate_secondary_tx_filter()
+{
/* For filter tuning, baseband BW is half the complex BW, and must be
* between 20e6 and 0.53e6. */
- double bbbw = device->baseband_bw / 2.0;
- if(bbbw > 20e6) {
+ double bbbw = _baseband_bw / 2.0;
+ if (bbbw > 20e6) {
bbbw = 20e6;
} else if (bbbw < 0.53e6) {
bbbw = 0.53e6;
@@ -457,27 +423,28 @@ void calibrate_secondary_tx_filter(ad9361_device_t* device) {
/* Iterate through RC values to determine correct combination. */
int cap = 0;
int i;
- for(i = 0; i <= 3; i++) {
- cap = (ad9361_floor_to_int(0.5 + (( 1 / ((corner_freq * res) * 1e6)) * 1e12))) - 12;
+ for (i = 0; i <= 3; i++) {
+ cap = (floor_to_int(0.5 + ((1 / ((corner_freq * res) * 1e6)) * 1e12)))
+ - 12;
- if(cap <= 63) {
+ if (cap <= 63) {
break;
}
res = res * 2;
}
- if(cap > 63) {
+ if (cap > 63) {
cap = 63;
}
uint8_t reg0d0, reg0d1, reg0d2;
/* Translate baseband bandwidths to register settings. */
- if((bbbw_mhz * 2) <= 9) {
+ if ((bbbw_mhz * 2) <= 9) {
reg0d0 = 0x59;
- } else if(((bbbw_mhz * 2) > 9) && ((bbbw_mhz * 2) <= 24)) {
+ } else if (((bbbw_mhz * 2) > 9) && ((bbbw_mhz * 2) <= 24)) {
reg0d0 = 0x56;
- } else if((bbbw_mhz * 2) > 24) {
+ } else if ((bbbw_mhz * 2) > 24) {
reg0d0 = 0x57;
} else {
post_err_msg("Cal2ndTxFil: INVALID_CODE_PATH bad bbbw_mhz");
@@ -485,13 +452,13 @@ void calibrate_secondary_tx_filter(ad9361_device_t* device) {
}
/* Translate resistor values to register settings. */
- if(res == 100) {
+ if (res == 100) {
reg0d1 = 0x0c;
- } else if(res == 200) {
+ } else if (res == 200) {
reg0d1 = 0x04;
- } else if(res == 400) {
+ } else if (res == 400) {
reg0d1 = 0x03;
- } else if(res == 800) {
+ } else if (res == 800) {
reg0d1 = 0x01;
} else {
reg0d1 = 0x0c;
@@ -500,20 +467,20 @@ void calibrate_secondary_tx_filter(ad9361_device_t* device) {
reg0d2 = cap;
/* Program the above-calculated values. Sweet. */
- write_ad9361_reg(device, 0x0d2, reg0d2);
- write_ad9361_reg(device, 0x0d1, reg0d1);
- write_ad9361_reg(device, 0x0d0, reg0d0);
+ _io_iface->poke8(0x0d2, reg0d2);
+ _io_iface->poke8(0x0d1, reg0d1);
+ _io_iface->poke8(0x0d0, reg0d0);
}
/* Calibrate the RX TIAs.
*
* Note that the values in the TIA register, after calibration, vary with
* the RX gain settings. */
-void calibrate_rx_TIAs(ad9361_device_t* device) {
-
- uint8_t reg1eb = read_ad9361_reg(device, 0x1eb) & 0x3F;
- uint8_t reg1ec = read_ad9361_reg(device, 0x1ec) & 0x7F;
- uint8_t reg1e6 = read_ad9361_reg(device, 0x1e6) & 0x07;
+void ad9361_device_t::_calibrate_rx_TIAs()
+{
+ uint8_t reg1eb = _io_iface->peek8(0x1eb) & 0x3F;
+ uint8_t reg1ec = _io_iface->peek8(0x1ec) & 0x7F;
+ uint8_t reg1e6 = _io_iface->peek8(0x1e6) & 0x07;
uint8_t reg1db = 0x00;
uint8_t reg1dc = 0x00;
uint8_t reg1dd = 0x00;
@@ -522,13 +489,13 @@ void calibrate_rx_TIAs(ad9361_device_t* device) {
/* For calibration, baseband BW is half the complex BW, and must be
* between 28e6 and 0.2e6. */
- double bbbw = device->baseband_bw / 2.0;
- if(bbbw > 20e6) {
+ double bbbw = _baseband_bw / 2.0;
+ if (bbbw > 20e6) {
bbbw = 20e6;
} else if (bbbw < 0.20e6) {
bbbw = 0.20e6;
}
- double ceil_bbbw_mhz = ad9361_ceil_to_int(bbbw / 1e6);
+ double ceil_bbbw_mhz = ceil_to_int(bbbw / 1e6);
/* Do some crazy resistor and capacitor math. */
int Cbbf = (reg1eb * 160) + (reg1ec * 10) + 140;
@@ -536,25 +503,26 @@ void calibrate_rx_TIAs(ad9361_device_t* device) {
double CTIA_fF = (Cbbf * R2346 * 0.56) / 3500;
/* Translate baseband BW to register settings. */
- if(ceil_bbbw_mhz <= 3) {
+ if (ceil_bbbw_mhz <= 3) {
reg1db = 0xe0;
- } else if((ceil_bbbw_mhz > 3) && (ceil_bbbw_mhz <= 10)) {
+ } else if ((ceil_bbbw_mhz > 3) && (ceil_bbbw_mhz <= 10)) {
reg1db = 0x60;
- } else if(ceil_bbbw_mhz > 10) {
+ } else if (ceil_bbbw_mhz > 10) {
reg1db = 0x20;
} else {
post_err_msg("CalRxTias: INVALID_CODE_PATH bad bbbw_mhz");
}
- if(CTIA_fF > 2920) {
+ if (CTIA_fF > 2920) {
reg1dc = 0x40;
reg1de = 0x40;
-
- uint8_t temp = (uint8_t) AD9361_MIN(127, (ad9361_floor_to_int(0.5 + ((CTIA_fF - 400.0) / 320.0))));
+ uint8_t temp = (uint8_t) AD9361_MIN(127,
+ (floor_to_int(0.5 + ((CTIA_fF - 400.0) / 320.0))));
reg1dd = temp;
reg1df = temp;
} else {
- uint8_t temp = (uint8_t) ad9361_floor_to_int(0.5 + ((CTIA_fF - 400.0) / 40.0)) + 0x40;
+ uint8_t temp = (uint8_t) floor_to_int(0.5 + ((CTIA_fF - 400.0) / 40.0))
+ + 0x40;
reg1dc = temp;
reg1de = temp;
reg1dd = 0;
@@ -562,11 +530,11 @@ void calibrate_rx_TIAs(ad9361_device_t* device) {
}
/* w00t. Settings calculated. Program them and roll out. */
- write_ad9361_reg(device, 0x1db, reg1db);
- write_ad9361_reg(device, 0x1dd, reg1dd);
- write_ad9361_reg(device, 0x1df, reg1df);
- write_ad9361_reg(device, 0x1dc, reg1dc);
- write_ad9361_reg(device, 0x1de, reg1de);
+ _io_iface->poke8(0x1db, reg1db);
+ _io_iface->poke8(0x1dd, reg1dd);
+ _io_iface->poke8(0x1df, reg1df);
+ _io_iface->poke8(0x1dc, reg1dc);
+ _io_iface->poke8(0x1de, reg1de);
}
/* Setup the AD9361 ADC.
@@ -575,8 +543,9 @@ void calibrate_rx_TIAs(ad9361_device_t* device) {
* values of which must be derived mathematically, dependent on the current
* setting of the BBPLL. Note that the order of calculation is critical, as
* some of the 40 registers depend on the values in others. */
-void setup_adc(ad9361_device_t* device) {
- double bbbw_mhz = (((device->bbpll_freq / 1e6) / device->rx_bbf_tunediv) * DOUBLE_LN_2) \
+void ad9361_device_t::_setup_adc()
+{
+ double bbbw_mhz = (((_bbpll_freq / 1e6) / _rx_bbf_tunediv) * DOUBLE_LN_2) \
/ (1.4 * 2 * DOUBLE_PI);
/* For calibration, baseband BW is half the complex BW, and must be
@@ -587,11 +556,11 @@ void setup_adc(ad9361_device_t* device) {
bbbw_mhz = 0.20;
}
- uint8_t rxbbf_c3_msb = read_ad9361_reg(device, 0x1eb) & 0x3F;
- uint8_t rxbbf_c3_lsb = read_ad9361_reg(device, 0x1ec) & 0x7F;
- uint8_t rxbbf_r2346 = read_ad9361_reg(device, 0x1e6) & 0x07;
+ uint8_t rxbbf_c3_msb = _io_iface->peek8(0x1eb) & 0x3F;
+ uint8_t rxbbf_c3_lsb = _io_iface->peek8(0x1ec) & 0x7F;
+ uint8_t rxbbf_r2346 = _io_iface->peek8(0x1e6) & 0x07;
- double fsadc = device->adcclock_freq / 1e6;
+ double fsadc = _adcclock_freq / 1e6;
/* Sort out the RC time constant for our baseband bandwidth... */
double rc_timeconst = 0.0;
@@ -609,10 +578,10 @@ void setup_adc(ad9361_device_t* device) {
* (bbbw_mhz * 1e6) * (1 + (0.01 * (bbbw_mhz - 18)))));
}
- double scale_res = ad9361_sqrt(1 / rc_timeconst);
- double scale_cap = ad9361_sqrt(1 / rc_timeconst);
+ double scale_res = sqrt(1 / rc_timeconst);
+ double scale_cap = sqrt(1 / rc_timeconst);
- double scale_snr = (device->adcclock_freq < 80e6) ? 1.0 : 1.584893192;
+ double scale_snr = (_adcclock_freq < 80e6) ? 1.0 : 1.584893192;
double maxsnr = 640 / 160;
/* Calculate the values for all 40 settings registers.
@@ -621,69 +590,69 @@ void setup_adc(ad9361_device_t* device) {
uint8_t data[40];
data[0] = 0; data[1] = 0; data[2] = 0; data[3] = 0x24;
data[4] = 0x24; data[5] = 0; data[6] = 0;
- data[7] = (uint8_t) AD9361_MIN(124, (ad9361_floor_to_int(-0.5
+ data[7] = (uint8_t) AD9361_MIN(124, (floor_to_int(-0.5
+ (80.0 * scale_snr * scale_res
- * AD9361_MIN(1.0, ad9361_sqrt(maxsnr * fsadc / 640.0))))));
+ * AD9361_MIN(1.0, sqrt(maxsnr * fsadc / 640.0))))));
double data007 = data[7];
- data[8] = (uint8_t) AD9361_MIN(255, (ad9361_floor_to_int(0.5
+ data[8] = (uint8_t) AD9361_MIN(255, (floor_to_int(0.5
+ ((20.0 * (640.0 / fsadc) * ((data007 / 80.0))
/ (scale_res * scale_cap))))));
- data[10] = (uint8_t) AD9361_MIN(127, (ad9361_floor_to_int(-0.5 + (77.0 * scale_res
- * AD9361_MIN(1.0, ad9361_sqrt(maxsnr * fsadc / 640.0))))));
+ data[10] = (uint8_t) AD9361_MIN(127, (floor_to_int(-0.5 + (77.0 * scale_res
+ * AD9361_MIN(1.0, sqrt(maxsnr * fsadc / 640.0))))));
double data010 = data[10];
- data[9] = (uint8_t) AD9361_MIN(127, (ad9361_floor_to_int(0.8 * data010)));
- data[11] = (uint8_t) AD9361_MIN(255, (ad9361_floor_to_int(0.5
+ data[9] = (uint8_t) AD9361_MIN(127, (floor_to_int(0.8 * data010)));
+ data[11] = (uint8_t) AD9361_MIN(255, (floor_to_int(0.5
+ (20.0 * (640.0 / fsadc) * ((data010 / 77.0)
/ (scale_res * scale_cap))))));
- data[12] = (uint8_t) AD9361_MIN(127, (ad9361_floor_to_int(-0.5
+ data[12] = (uint8_t) AD9361_MIN(127, (floor_to_int(-0.5
+ (80.0 * scale_res * AD9361_MIN(1.0,
- ad9361_sqrt(maxsnr * fsadc / 640.0))))));
+ sqrt(maxsnr * fsadc / 640.0))))));
double data012 = data[12];
- data[13] = (uint8_t) AD9361_MIN(255, (ad9361_floor_to_int(-1.5
+ data[13] = (uint8_t) AD9361_MIN(255, (floor_to_int(-1.5
+ (20.0 * (640.0 / fsadc) * ((data012 / 80.0)
/ (scale_res * scale_cap))))));
- data[14] = 21 * (uint8_t)(ad9361_floor_to_int(0.1 * 640.0 / fsadc));
+ data[14] = 21 * (uint8_t)(floor_to_int(0.1 * 640.0 / fsadc));
data[15] = (uint8_t) AD9361_MIN(127, (1.025 * data007));
double data015 = data[15];
- data[16] = (uint8_t) AD9361_MIN(127, (ad9361_floor_to_int((data015
+ data[16] = (uint8_t) AD9361_MIN(127, (floor_to_int((data015
* (0.98 + (0.02 * AD9361_MAX(1.0,
(640.0 / fsadc) / maxsnr)))))));
data[17] = data[15];
data[18] = (uint8_t) AD9361_MIN(127, (0.975 * (data010)));
double data018 = data[18];
- data[19] = (uint8_t) AD9361_MIN(127, (ad9361_floor_to_int((data018
+ data[19] = (uint8_t) AD9361_MIN(127, (floor_to_int((data018
* (0.98 + (0.02 * AD9361_MAX(1.0,
(640.0 / fsadc) / maxsnr)))))));
data[20] = data[18];
data[21] = (uint8_t) AD9361_MIN(127, (0.975 * data012));
double data021 = data[21];
- data[22] = (uint8_t) AD9361_MIN(127, (ad9361_floor_to_int((data021
+ data[22] = (uint8_t) AD9361_MIN(127, (floor_to_int((data021
* (0.98 + (0.02 * AD9361_MAX(1.0,
(640.0 / fsadc) / maxsnr)))))));
data[23] = data[21];
data[24] = 0x2e;
- data[25] = (uint8_t)(ad9361_floor_to_int(128.0 + AD9361_MIN(63.0,
+ data[25] = (uint8_t)(floor_to_int(128.0 + AD9361_MIN(63.0,
63.0 * (fsadc / 640.0))));
- data[26] = (uint8_t)(ad9361_floor_to_int(AD9361_MIN(63.0, 63.0 * (fsadc / 640.0)
+ data[26] = (uint8_t)(floor_to_int(AD9361_MIN(63.0, 63.0 * (fsadc / 640.0)
* (0.92 + (0.08 * (640.0 / fsadc))))));
- data[27] = (uint8_t)(ad9361_floor_to_int(AD9361_MIN(63.0,
- 32.0 * ad9361_sqrt(fsadc / 640.0))));
- data[28] = (uint8_t)(ad9361_floor_to_int(128.0 + AD9361_MIN(63.0,
+ data[27] = (uint8_t)(floor_to_int(AD9361_MIN(63.0,
+ 32.0 * sqrt(fsadc / 640.0))));
+ data[28] = (uint8_t)(floor_to_int(128.0 + AD9361_MIN(63.0,
63.0 * (fsadc / 640.0))));
- data[29] = (uint8_t)(ad9361_floor_to_int(AD9361_MIN(63.0,
+ data[29] = (uint8_t)(floor_to_int(AD9361_MIN(63.0,
63.0 * (fsadc / 640.0)
* (0.92 + (0.08 * (640.0 / fsadc))))));
- data[30] = (uint8_t)(ad9361_floor_to_int(AD9361_MIN(63.0,
- 32.0 * ad9361_sqrt(fsadc / 640.0))));
- data[31] = (uint8_t)(ad9361_floor_to_int(128.0 + AD9361_MIN(63.0,
+ data[30] = (uint8_t)(floor_to_int(AD9361_MIN(63.0,
+ 32.0 * sqrt(fsadc / 640.0))));
+ data[31] = (uint8_t)(floor_to_int(128.0 + AD9361_MIN(63.0,
63.0 * (fsadc / 640.0))));
- data[32] = (uint8_t)(ad9361_floor_to_int(AD9361_MIN(63.0,
+ data[32] = (uint8_t)(floor_to_int(AD9361_MIN(63.0,
63.0 * (fsadc / 640.0) * (0.92
+ (0.08 * (640.0 / fsadc))))));
- data[33] = (uint8_t)(ad9361_floor_to_int(AD9361_MIN(63.0,
- 63.0 * ad9361_sqrt(fsadc / 640.0))));
- data[34] = (uint8_t) AD9361_MIN(127, (ad9361_floor_to_int(64.0
- * ad9361_sqrt(fsadc / 640.0))));
+ data[33] = (uint8_t)(floor_to_int(AD9361_MIN(63.0,
+ 63.0 * sqrt(fsadc / 640.0))));
+ data[34] = (uint8_t) AD9361_MIN(127, (floor_to_int(64.0
+ * sqrt(fsadc / 640.0))));
data[35] = 0x40;
data[36] = 0x40;
data[37] = 0x2c;
@@ -691,34 +660,32 @@ void setup_adc(ad9361_device_t* device) {
data[39] = 0x00;
/* Program the registers! */
- int i;
- for(i=0; i<40; i++) {
- write_ad9361_reg(device, 0x200+i, data[i]);
+ for(size_t i = 0; i < 40; i++) {
+ _io_iface->poke8(0x200+i, data[i]);
}
-
}
/* Calibrate the baseband DC offset.
*
* Note that this function is called from within the TX quadrature
* calibration function! */
-void calibrate_baseband_dc_offset(ad9361_device_t* device) {
- write_ad9361_reg(device, 0x193, 0x3f); // Calibration settings
- write_ad9361_reg(device, 0x190, 0x0f); // Set tracking coefficient
+void ad9361_device_t::_calibrate_baseband_dc_offset()
+{
+ _io_iface->poke8(0x193, 0x3f); // Calibration settings
+ _io_iface->poke8(0x190, 0x0f); // Set tracking coefficient
//write_ad9361_reg(device, 0x190, /*0x0f*//*0xDF*/0x80*1 | 0x40*1 | (16+8/*+4*/)); // Set tracking coefficient: don't *4 counter, do decim /4, increased gain shift
- write_ad9361_reg(device, 0x194, 0x01); // More calibration settings
+ _io_iface->poke8(0x194, 0x01); // More calibration settings
/* Start that calibration, baby. */
- int count = 0;
- write_ad9361_reg(device, 0x016, 0x01);
- while(read_ad9361_reg(device, 0x016) & 0x01) {
- if(count > 100) {
+ size_t count = 0;
+ _io_iface->poke8(0x016, 0x01);
+ while (_io_iface->peek8(0x016) & 0x01) {
+ if (count > 100) {
post_err_msg("Baseband DC Offset Calibration Failure");
break;
}
-
count++;
- ad9361_msleep(5);
+ boost::this_thread::sleep(boost::posix_time::milliseconds(5));
}
}
@@ -726,33 +693,33 @@ void calibrate_baseband_dc_offset(ad9361_device_t* device) {
*
* Note that this function is called from within the TX quadrature
* calibration function. */
-void calibrate_rf_dc_offset(ad9361_device_t* device) {
+void ad9361_device_t::_calibrate_rf_dc_offset()
+{
/* Some settings are frequency-dependent. */
- if(device->rx_freq < 4e9) {
- write_ad9361_reg(device, 0x186, 0x32); // RF DC Offset count
- write_ad9361_reg(device, 0x187, 0x24);
- write_ad9361_reg(device, 0x188, 0x05);
+ if (_rx_freq < 4e9) {
+ _io_iface->poke8(0x186, 0x32); // RF DC Offset count
+ _io_iface->poke8(0x187, 0x24);
+ _io_iface->poke8(0x188, 0x05);
} else {
- write_ad9361_reg(device, 0x186, 0x28); // RF DC Offset count
- write_ad9361_reg(device, 0x187, 0x34);
- write_ad9361_reg(device, 0x188, 0x06);
+ _io_iface->poke8(0x186, 0x28); // RF DC Offset count
+ _io_iface->poke8(0x187, 0x34);
+ _io_iface->poke8(0x188, 0x06);
}
- write_ad9361_reg(device, 0x185, 0x20); // RF DC Offset wait count
- write_ad9361_reg(device, 0x18b, 0x83);
- write_ad9361_reg(device, 0x189, 0x30);
+ _io_iface->poke8(0x185, 0x20); // RF DC Offset wait count
+ _io_iface->poke8(0x18b, 0x83);
+ _io_iface->poke8(0x189, 0x30);
/* Run the calibration! */
- int count = 0;
- write_ad9361_reg(device, 0x016, 0x02);
- while(read_ad9361_reg(device, 0x016) & 0x02) {
- if(count > 100) {
+ size_t count = 0;
+ _io_iface->poke8(0x016, 0x02);
+ while (_io_iface->peek8(0x016) & 0x02) {
+ if (count > 100) {
post_err_msg("RF DC Offset Calibration Failure");
break;
}
-
count++;
- ad9361_msleep(50);
+ boost::this_thread::sleep(boost::posix_time::milliseconds(50));
}
}
@@ -761,14 +728,15 @@ void calibrate_rf_dc_offset(ad9361_device_t* device) {
* Note that we are using AD9361's 'tracking' feature for RX quadrature
* calibration, so once it starts it continues to free-run during operation.
* It should be re-run for large frequency changes. */
-void calibrate_rx_quadrature(ad9361_device_t* device) {
+void ad9361_device_t::_calibrate_rx_quadrature()
+{
/* Configure RX Quadrature calibration settings. */
- write_ad9361_reg(device, 0x168, 0x03); // Set tone level for cal
- write_ad9361_reg(device, 0x16e, 0x25); // RX Gain index to use for cal
- write_ad9361_reg(device, 0x16a, 0x75); // Set Kexp phase
- write_ad9361_reg(device, 0x16b, 0x15); // Set Kexp amplitude
- write_ad9361_reg(device, 0x169, 0xcf); // Continuous tracking mode
- write_ad9361_reg(device, 0x18b, 0xad);
+ _io_iface->poke8(0x168, 0x03); // Set tone level for cal
+ _io_iface->poke8(0x16e, 0x25); // RX Gain index to use for cal
+ _io_iface->poke8(0x16a, 0x75); // Set Kexp phase
+ _io_iface->poke8(0x16b, 0x15); // Set Kexp amplitude
+ _io_iface->poke8(0x169, 0xcf); // Continuous tracking mode
+ _io_iface->poke8(0x18b, 0xad);
}
/* TX quadtrature calibration routine.
@@ -776,68 +744,67 @@ void calibrate_rx_quadrature(ad9361_device_t* device) {
* The TX quadrature needs to be done twice, once for each TX chain, with
* only one register change in between. Thus, this function enacts the
* calibrations, and it is called from calibrate_tx_quadrature. */
-void tx_quadrature_cal_routine(ad9361_device_t* device) {
-
+void ad9361_device_t::_tx_quadrature_cal_routine() {
/* This is a weird process, but here is how it works:
* 1) Read the calibrated NCO frequency bits out of 0A3.
* 2) Write the two bits to the RX NCO freq part of 0A0.
* 3) Re-read 0A3 to get bits [5:0] because maybe they changed?
* 4) Update only the TX NCO freq bits in 0A3.
* 5) Profit (I hope). */
- uint8_t reg0a3 = read_ad9361_reg(device, 0x0a3);
+ uint8_t reg0a3 = _io_iface->peek8(0x0a3);
uint8_t nco_freq = (reg0a3 & 0xC0);
- write_ad9361_reg(device, 0x0a0, 0x15 | (nco_freq >> 1));
- reg0a3 = read_ad9361_reg(device, 0x0a3);
- write_ad9361_reg(device, 0x0a3, (reg0a3 & 0x3F) | nco_freq);
+ _io_iface->poke8(0x0a0, 0x15 | (nco_freq >> 1));
+ reg0a3 = _io_iface->peek8(0x0a3);
+ _io_iface->poke8(0x0a3, (reg0a3 & 0x3F) | nco_freq);
/* It is possible to reach a configuration that won't operate correctly,
* where the two test tones used for quadrature calibration are outside
* of the RX BBF, and therefore don't make it to the ADC. We will check
* for that scenario here. */
- double max_cal_freq = (((device->baseband_bw * device->tfir_factor) * ((nco_freq >> 6) + 1)) / 32) * 2;
- double bbbw = device->baseband_bw / 2.0; // bbbw represents the one-sided BW
- if(bbbw > 28e6) {
+ double max_cal_freq = (((_baseband_bw * _tfir_factor)
+ * ((nco_freq >> 6) + 1)) / 32) * 2;
+ double bbbw = _baseband_bw / 2.0; // bbbw represents the one-sided BW
+ if (bbbw > 28e6) {
bbbw = 28e6;
} else if (bbbw < 0.20e6) {
bbbw = 0.20e6;
}
- if (max_cal_freq > bbbw )
+ if (max_cal_freq > bbbw)
post_err_msg("max_cal_freq > bbbw");
- write_ad9361_reg(device, 0x0a1, 0x7B); // Set tracking coefficient
- write_ad9361_reg(device, 0x0a9, 0xff); // Cal count
- write_ad9361_reg(device, 0x0a2, 0x7f); // Cal Kexp
- write_ad9361_reg(device, 0x0a5, 0x01); // Cal magnitude threshold VVVV
- write_ad9361_reg(device, 0x0a6, 0x01);
+ _io_iface->poke8(0x0a1, 0x7B); // Set tracking coefficient
+ _io_iface->poke8(0x0a9, 0xff); // Cal count
+ _io_iface->poke8(0x0a2, 0x7f); // Cal Kexp
+ _io_iface->poke8(0x0a5, 0x01); // Cal magnitude threshold VVVV
+ _io_iface->poke8(0x0a6, 0x01);
/* The gain table index used for calibration must be adjusted for the
* mid-table to get a TIA index = 1 and LPF index = 0. */
- if((device->rx_freq >= 1300e6) && (device->rx_freq < 4000e6)) {
- write_ad9361_reg(device, 0x0aa, 0x22); // Cal gain table index
+ if ((_rx_freq >= 1300e6) && (_rx_freq < 4000e6)) {
+ _io_iface->poke8(0x0aa, 0x22); // Cal gain table index
} else {
- write_ad9361_reg(device, 0x0aa, 0x25); // Cal gain table index
+ _io_iface->poke8(0x0aa, 0x25); // Cal gain table index
}
- write_ad9361_reg(device, 0x0a4, 0xf0); // Cal setting conut
- write_ad9361_reg(device, 0x0ae, 0x00); // Cal LPF gain index (split mode)
+ _io_iface->poke8(0x0a4, 0xf0); // Cal setting conut
+ _io_iface->poke8(0x0ae, 0x00); // Cal LPF gain index (split mode)
/* First, calibrate the baseband DC offset. */
- calibrate_baseband_dc_offset(device);
+ _calibrate_baseband_dc_offset();
/* Second, calibrate the RF DC offset. */
- calibrate_rf_dc_offset(device);
+ _calibrate_rf_dc_offset();
/* Now, calibrate the TX quadrature! */
- int count = 0;
- write_ad9361_reg(device, 0x016, 0x10);
- while(read_ad9361_reg(device, 0x016) & 0x10) {
- if(count > 100) {
+ size_t count = 0;
+ _io_iface->poke8(0x016, 0x10);
+ while (_io_iface->peek8(0x016) & 0x10) {
+ if (count > 100) {
post_err_msg("TX Quadrature Calibration Failure");
break;
}
-
count++;
- ad9361_msleep(10);
+ boost::this_thread::sleep(boost::posix_time::milliseconds(10));
}
}
@@ -845,43 +812,44 @@ void tx_quadrature_cal_routine(ad9361_device_t* device) {
*
* Note that from within this function we are also triggering the baseband
* and RF DC calibrations. */
-void calibrate_tx_quadrature(ad9361_device_t* device) {
+void ad9361_device_t::_calibrate_tx_quadrature()
+{
/* Make sure we are, in fact, in the ALERT state. If not, something is
* terribly wrong in the driver execution flow. */
- if((read_ad9361_reg(device, 0x017) & 0x0F) != 5) {
+ if ((_io_iface->peek8(0x017) & 0x0F) != 5) {
post_err_msg("TX Quad Cal started, but not in ALERT");
}
/* Turn off free-running and continuous calibrations. Note that this
* will get turned back on at the end of the RX calibration routine. */
- write_ad9361_reg(device, 0x169, 0xc0);
+ _io_iface->poke8(0x169, 0xc0);
/* This calibration must be done in a certain order, and for both TX_A
* and TX_B, separately. Store the original setting so that we can
* restore it later. */
- uint8_t orig_reg_inputsel = device->regs.inputsel;
+ uint8_t orig_reg_inputsel = _regs.inputsel;
/***********************************************************************
* TX1/2-A Calibration
**********************************************************************/
- device->regs.inputsel = device->regs.inputsel & 0xBF;
- write_ad9361_reg(device, 0x004, device->regs.inputsel);
+ _regs.inputsel = _regs.inputsel & 0xBF;
+ _io_iface->poke8(0x004, _regs.inputsel);
- tx_quadrature_cal_routine(device);
+ _tx_quadrature_cal_routine();
/***********************************************************************
* TX1/2-B Calibration
**********************************************************************/
- device->regs.inputsel = device->regs.inputsel | 0x40;
- write_ad9361_reg(device, 0x004, device->regs.inputsel);
+ _regs.inputsel = _regs.inputsel | 0x40;
+ _io_iface->poke8(0x004, _regs.inputsel);
- tx_quadrature_cal_routine(device);
+ _tx_quadrature_cal_routine();
/***********************************************************************
* fin
**********************************************************************/
- device->regs.inputsel = orig_reg_inputsel;
- write_ad9361_reg(device, 0x004, orig_reg_inputsel);
+ _regs.inputsel = orig_reg_inputsel;
+ _io_iface->poke8(0x004, orig_reg_inputsel);
}
@@ -892,50 +860,50 @@ void calibrate_tx_quadrature(ad9361_device_t* device) {
/* Program the mixer gain table.
*
* Note that this table is fixed for all frequency settings. */
-void program_mixer_gm_subtable(ad9361_device_t* device) {
- uint8_t gain[] = {0x78, 0x74, 0x70, 0x6C, 0x68, 0x64, 0x60, 0x5C, 0x58,
- 0x54, 0x50, 0x4C, 0x48, 0x30, 0x18, 0x00};
- uint8_t gm[] = {0x00, 0x0D, 0x15, 0x1B, 0x21, 0x25, 0x29, 0x2C, 0x2F,
- 0x31, 0x33, 0x34, 0x35, 0x3A, 0x3D, 0x3E};
+void ad9361_device_t::_program_mixer_gm_subtable()
+{
+ uint8_t gain[] = { 0x78, 0x74, 0x70, 0x6C, 0x68, 0x64, 0x60, 0x5C, 0x58,
+ 0x54, 0x50, 0x4C, 0x48, 0x30, 0x18, 0x00 };
+ uint8_t gm[] = { 0x00, 0x0D, 0x15, 0x1B, 0x21, 0x25, 0x29, 0x2C, 0x2F, 0x31,
+ 0x33, 0x34, 0x35, 0x3A, 0x3D, 0x3E };
/* Start the clock. */
- write_ad9361_reg(device, 0x13f, 0x02);
+ _io_iface->poke8(0x13f, 0x02);
/* Program the GM Sub-table. */
int i;
- for(i = 15; i >= 0; i--) {
- write_ad9361_reg(device, 0x138, i);
- write_ad9361_reg(device, 0x139, gain[(15 - i)]);
- write_ad9361_reg(device, 0x13A, 0x00);
- write_ad9361_reg(device, 0x13B, gm[(15 - i)]);
- write_ad9361_reg(device, 0x13F, 0x06);
- write_ad9361_reg(device, 0x13C, 0x00);
- write_ad9361_reg(device, 0x13C, 0x00);
+ for (i = 15; i >= 0; i--) {
+ _io_iface->poke8(0x138, i);
+ _io_iface->poke8(0x139, gain[(15 - i)]);
+ _io_iface->poke8(0x13A, 0x00);
+ _io_iface->poke8(0x13B, gm[(15 - i)]);
+ _io_iface->poke8(0x13F, 0x06);
+ _io_iface->poke8(0x13C, 0x00);
+ _io_iface->poke8(0x13C, 0x00);
}
/* Clear write bit and stop clock. */
- write_ad9361_reg(device, 0x13f, 0x02);
- write_ad9361_reg(device, 0x13C, 0x00);
- write_ad9361_reg(device, 0x13C, 0x00);
- write_ad9361_reg(device, 0x13f, 0x00);
+ _io_iface->poke8(0x13f, 0x02);
+ _io_iface->poke8(0x13C, 0x00);
+ _io_iface->poke8(0x13C, 0x00);
+ _io_iface->poke8(0x13f, 0x00);
}
/* Program the gain table.
*
* There are three different gain tables for different frequency ranges! */
-void program_gain_table(ad9361_device_t* device) {
-
+void ad9361_device_t::_program_gain_table() {
/* Figure out which gain table we should be using for our current
* frequency band. */
uint8_t (*gain_table)[5] = NULL;
uint8_t new_gain_table;
- if(device->rx_freq < 1300e6) {
+ if (_rx_freq < 1300e6) {
gain_table = gain_table_sub_1300mhz;
new_gain_table = 1;
- } else if(device->rx_freq < 4e9) {
+ } else if (_rx_freq < 4e9) {
gain_table = gain_table_1300mhz_to_4000mhz;
new_gain_table = 2;
- } else if(device->rx_freq <= 6e9) {
+ } else if (_rx_freq <= 6e9) {
gain_table = gain_table_4000mhz_to_6000mhz;
new_gain_table = 3;
} else {
@@ -944,70 +912,70 @@ void program_gain_table(ad9361_device_t* device) {
}
/* Only re-program the gain table if there has been a band change. */
- if(device->curr_gain_table == new_gain_table) {
+ if (_curr_gain_table == new_gain_table) {
return;
} else {
- device->curr_gain_table = new_gain_table;
+ _curr_gain_table = new_gain_table;
}
/* Okay, we have to program a new gain table. Sucks, brah. Start the
* gain table clock. */
- write_ad9361_reg(device, 0x137, 0x1A);
+ _io_iface->poke8(0x137, 0x1A);
/* IT'S PROGRAMMING TIME. */
uint8_t index = 0;
- for(; index < 77; index++) {
- write_ad9361_reg(device, 0x130, index);
- write_ad9361_reg(device, 0x131, gain_table[index][1]);
- write_ad9361_reg(device, 0x132, gain_table[index][2]);
- write_ad9361_reg(device, 0x133, gain_table[index][3]);
- write_ad9361_reg(device, 0x137, 0x1E);
- write_ad9361_reg(device, 0x134, 0x00);
- write_ad9361_reg(device, 0x134, 0x00);
+ for (; index < 77; index++) {
+ _io_iface->poke8(0x130, index);
+ _io_iface->poke8(0x131, gain_table[index][1]);
+ _io_iface->poke8(0x132, gain_table[index][2]);
+ _io_iface->poke8(0x133, gain_table[index][3]);
+ _io_iface->poke8(0x137, 0x1E);
+ _io_iface->poke8(0x134, 0x00);
+ _io_iface->poke8(0x134, 0x00);
}
/* Everything above the 77th index is zero. */
- for(; index < 91; index++) {
- write_ad9361_reg(device, 0x130, index);
- write_ad9361_reg(device, 0x131, 0x00);
- write_ad9361_reg(device, 0x132, 0x00);
- write_ad9361_reg(device, 0x133, 0x00);
- write_ad9361_reg(device, 0x137, 0x1E);
- write_ad9361_reg(device, 0x134, 0x00);
- write_ad9361_reg(device, 0x134, 0x00);
+ for (; index < 91; index++) {
+ _io_iface->poke8(0x130, index);
+ _io_iface->poke8(0x131, 0x00);
+ _io_iface->poke8(0x132, 0x00);
+ _io_iface->poke8(0x133, 0x00);
+ _io_iface->poke8(0x137, 0x1E);
+ _io_iface->poke8(0x134, 0x00);
+ _io_iface->poke8(0x134, 0x00);
}
/* Clear the write bit and stop the gain clock. */
- write_ad9361_reg(device, 0x137, 0x1A);
- write_ad9361_reg(device, 0x134, 0x00);
- write_ad9361_reg(device, 0x134, 0x00);
- write_ad9361_reg(device, 0x137, 0x00);
+ _io_iface->poke8(0x137, 0x1A);
+ _io_iface->poke8(0x134, 0x00);
+ _io_iface->poke8(0x134, 0x00);
+ _io_iface->poke8(0x137, 0x00);
}
/* Setup gain control registers.
*
* This really only needs to be done once, at initialization. */
-void setup_gain_control(ad9361_device_t* device)
+void ad9361_device_t::_setup_gain_control()
{
- write_ad9361_reg(device, 0x0FA, 0xE0); // Gain Control Mode Select
- write_ad9361_reg(device, 0x0FB, 0x08); // Table, Digital Gain, Man Gain Ctrl
- write_ad9361_reg(device, 0x0FC, 0x23); // Incr Step Size, ADC Overrange Size
- write_ad9361_reg(device, 0x0FD, 0x4C); // Max Full/LMT Gain Table Index
- write_ad9361_reg(device, 0x0FE, 0x44); // Decr Step Size, Peak Overload Time
- write_ad9361_reg(device, 0x100, 0x6F); // Max Digital Gain
- write_ad9361_reg(device, 0x104, 0x2F); // ADC Small Overload Threshold
- write_ad9361_reg(device, 0x105, 0x3A); // ADC Large Overload Threshold
- write_ad9361_reg(device, 0x107, 0x31); // Large LMT Overload Threshold
- write_ad9361_reg(device, 0x108, 0x39); // Small LMT Overload Threshold
- write_ad9361_reg(device, 0x109, 0x23); // Rx1 Full/LMT Gain Index
- write_ad9361_reg(device, 0x10A, 0x58); // Rx1 LPF Gain Index
- write_ad9361_reg(device, 0x10B, 0x00); // Rx1 Digital Gain Index
- write_ad9361_reg(device, 0x10C, 0x23); // Rx2 Full/LMT Gain Index
- write_ad9361_reg(device, 0x10D, 0x18); // Rx2 LPF Gain Index
- write_ad9361_reg(device, 0x10E, 0x00); // Rx2 Digital Gain Index
- write_ad9361_reg(device, 0x114, 0x30); // Low Power Threshold
- write_ad9361_reg(device, 0x11A, 0x27); // Initial LMT Gain Limit
- write_ad9361_reg(device, 0x081, 0x00); // Tx Symbol Gain Control
+ _io_iface->poke8(0x0FA, 0xE0); // Gain Control Mode Select
+ _io_iface->poke8(0x0FB, 0x08); // Table, Digital Gain, Man Gain Ctrl
+ _io_iface->poke8(0x0FC, 0x23); // Incr Step Size, ADC Overrange Size
+ _io_iface->poke8(0x0FD, 0x4C); // Max Full/LMT Gain Table Index
+ _io_iface->poke8(0x0FE, 0x44); // Decr Step Size, Peak Overload Time
+ _io_iface->poke8(0x100, 0x6F); // Max Digital Gain
+ _io_iface->poke8(0x104, 0x2F); // ADC Small Overload Threshold
+ _io_iface->poke8(0x105, 0x3A); // ADC Large Overload Threshold
+ _io_iface->poke8(0x107, 0x31); // Large LMT Overload Threshold
+ _io_iface->poke8(0x108, 0x39); // Small LMT Overload Threshold
+ _io_iface->poke8(0x109, 0x23); // Rx1 Full/LMT Gain Index
+ _io_iface->poke8(0x10A, 0x58); // Rx1 LPF Gain Index
+ _io_iface->poke8(0x10B, 0x00); // Rx1 Digital Gain Index
+ _io_iface->poke8(0x10C, 0x23); // Rx2 Full/LMT Gain Index
+ _io_iface->poke8(0x10D, 0x18); // Rx2 LPF Gain Index
+ _io_iface->poke8(0x10E, 0x00); // Rx2 Digital Gain Index
+ _io_iface->poke8(0x114, 0x30); // Low Power Threshold
+ _io_iface->poke8(0x11A, 0x27); // Initial LMT Gain Limit
+ _io_iface->poke8(0x081, 0x00); // Tx Symbol Gain Control
}
/* Setup the RX or TX synthesizers.
@@ -1015,19 +983,18 @@ void setup_gain_control(ad9361_device_t* device)
* This setup depends on a fixed look-up table, which is stored in an
* included header file. The table is indexed based on the passed VCO rate.
*/
-void setup_synth(ad9361_device_t* device, int which, double vcorate) {
+void ad9361_device_t::_setup_synth(direction_t direction, double vcorate)
+{
/* The vcorates in the vco_index array represent lower boundaries for
* rates. Once we find a match, we use that index to look-up the rest of
* the register values in the LUT. */
int vcoindex = 0;
- int i;
- for(i = 0; i < 53; i++) {
+ for (size_t i = 0; i < 53; i++) {
vcoindex = i;
- if(vcorate > vco_index[i]) {
+ if (vcorate > vco_index[i]) {
break;
}
}
-
if (vcoindex > 53)
post_err_msg("vcoindex > 53");
@@ -1046,32 +1013,32 @@ void setup_synth(ad9361_device_t* device, int which, double vcorate) {
uint8_t loop_filter_r3 = synth_cal_lut[vcoindex][11];
/* ... annnd program! */
- if(which == RX_TYPE) {
- write_ad9361_reg(device, 0x23a, 0x40 | vco_output_level);
- write_ad9361_reg(device, 0x239, 0xC0 | vco_varactor);
- write_ad9361_reg(device, 0x242, vco_bias_ref | (vco_bias_tcf << 3));
- write_ad9361_reg(device, 0x238, (vco_cal_offset << 3));
- write_ad9361_reg(device, 0x245, 0x00);
- write_ad9361_reg(device, 0x251, vco_varactor_ref);
- write_ad9361_reg(device, 0x250, 0x70);
- write_ad9361_reg(device, 0x23b, 0x80 | charge_pump_curr);
- write_ad9361_reg(device, 0x23e, loop_filter_c1 | (loop_filter_c2 << 4));
- write_ad9361_reg(device, 0x23f, loop_filter_c3 | (loop_filter_r1 << 4));
- write_ad9361_reg(device, 0x240, loop_filter_r3);
- } else if(which == TX_TYPE) {
- write_ad9361_reg(device, 0x27a, 0x40 | vco_output_level);
- write_ad9361_reg(device, 0x279, 0xC0 | vco_varactor);
- write_ad9361_reg(device, 0x282, vco_bias_ref | (vco_bias_tcf << 3));
- write_ad9361_reg(device, 0x278, (vco_cal_offset << 3));
- write_ad9361_reg(device, 0x285, 0x00);
- write_ad9361_reg(device, 0x291, vco_varactor_ref);
- write_ad9361_reg(device, 0x290, 0x70);
- write_ad9361_reg(device, 0x27b, 0x80 | charge_pump_curr);
- write_ad9361_reg(device, 0x27e, loop_filter_c1 | (loop_filter_c2 << 4));
- write_ad9361_reg(device, 0x27f, loop_filter_c3 | (loop_filter_r1 << 4));
- write_ad9361_reg(device, 0x280, loop_filter_r3);
+ if (direction == RX) {
+ _io_iface->poke8(0x23a, 0x40 | vco_output_level);
+ _io_iface->poke8(0x239, 0xC0 | vco_varactor);
+ _io_iface->poke8(0x242, vco_bias_ref | (vco_bias_tcf << 3));
+ _io_iface->poke8(0x238, (vco_cal_offset << 3));
+ _io_iface->poke8(0x245, 0x00);
+ _io_iface->poke8(0x251, vco_varactor_ref);
+ _io_iface->poke8(0x250, 0x70);
+ _io_iface->poke8(0x23b, 0x80 | charge_pump_curr);
+ _io_iface->poke8(0x23e, loop_filter_c1 | (loop_filter_c2 << 4));
+ _io_iface->poke8(0x23f, loop_filter_c3 | (loop_filter_r1 << 4));
+ _io_iface->poke8(0x240, loop_filter_r3);
+ } else if (direction == TX) {
+ _io_iface->poke8(0x27a, 0x40 | vco_output_level);
+ _io_iface->poke8(0x279, 0xC0 | vco_varactor);
+ _io_iface->poke8(0x282, vco_bias_ref | (vco_bias_tcf << 3));
+ _io_iface->poke8(0x278, (vco_cal_offset << 3));
+ _io_iface->poke8(0x285, 0x00);
+ _io_iface->poke8(0x291, vco_varactor_ref);
+ _io_iface->poke8(0x290, 0x70);
+ _io_iface->poke8(0x27b, 0x80 | charge_pump_curr);
+ _io_iface->poke8(0x27e, loop_filter_c1 | (loop_filter_c2 << 4));
+ _io_iface->poke8(0x27f, loop_filter_c3 | (loop_filter_r1 << 4));
+ _io_iface->poke8(0x280, loop_filter_r3);
} else {
- post_err_msg("[setup_synth] INVALID_CODE_PATH");
+ post_err_msg("[_setup_synth] INVALID_CODE_PATH");
}
}
@@ -1081,15 +1048,16 @@ void setup_synth(ad9361_device_t* device, int which, double vcorate) {
* This clock signal is what gets fed to the ADCs and DACs. This function is
* not exported outside of this file, and is invoked based on the rate
* fed to the public set_clock_rate function. */
-double tune_bbvco(ad9361_device_t* device, const double rate) {
- msg("[tune_bbvco] rate=%.10f", rate);
+double ad9361_device_t::_tune_bbvco(const double rate)
+{
+ msg("[_tune_bbvco] rate=%.10f", rate);
/* Let's not re-tune to the same frequency over and over... */
- if(freq_is_nearly_equal(rate, device->req_coreclk)) {
- return device->adcclock_freq;
+ if (freq_is_nearly_equal(rate, _req_coreclk)) {
+ return _adcclock_freq;
}
- device->req_coreclk = rate;
+ _req_coreclk = rate;
const double fref = 40e6;
const int modulus = 2088960;
@@ -1100,24 +1068,27 @@ double tune_bbvco(ad9361_device_t* device, const double rate) {
/* Iterate over VCO dividers until appropriate divider is found. */
int i = 1;
- for(; i <= 6; i++) {
+ for (; i <= 6; i++) {
vcodiv = 1 << i;
vcorate = rate * vcodiv;
- if(vcorate >= vcomin && vcorate <= vcomax) break;
+ if (vcorate >= vcomin && vcorate <= vcomax)
+ break;
}
- if(i == 7)
- post_err_msg("tune_bbvco: wrong vcorate");
+ if (i == 7)
+ post_err_msg("_tune_bbvco: wrong vcorate");
- msg("[tune_bbvco] vcodiv=%d vcorate=%.10f", vcodiv, vcorate);
+ msg("[_tune_bbvco] vcodiv=%d vcorate=%.10f", vcodiv, vcorate);
/* Fo = Fref * (Nint + Nfrac / mod) */
int nint = vcorate / fref;
- msg("[tune_bbvco] (nint)=%.10f", (vcorate / fref));
- int nfrac = lround(((vcorate / fref) - (double)nint) * (double)modulus);
- msg("[tune_bbvco] (nfrac)=%.10f", (((vcorate / fref) - (double)nint) * (double)modulus));
- msg("[tune_bbvco] nint=%d nfrac=%d", nint, nfrac);
- double actual_vcorate = fref * ((double)nint + ((double)nfrac / (double)modulus));
+ msg("[_tune_bbvco] (nint)=%.10f", (vcorate / fref));
+ int nfrac = lround(((vcorate / fref) - (double) nint) * (double) modulus);
+ msg("[_tune_bbvco] (nfrac)=%.10f",
+ (((vcorate / fref) - (double) nint) * (double) modulus));
+ msg("[_tune_bbvco] nint=%d nfrac=%d", nint, nfrac);
+ double actual_vcorate = fref
+ * ((double) nint + ((double) nfrac / (double) modulus));
/* Scale CP current according to VCO rate */
const double icp_baseline = 150e-6;
@@ -1125,28 +1096,28 @@ double tune_bbvco(ad9361_device_t* device, const double rate) {
double icp = icp_baseline * (actual_vcorate / freq_baseline);
int icp_reg = (icp / 25e-6) - 1;
- write_ad9361_reg(device, 0x045, 0x00); // REFCLK / 1 to BBPLL
- write_ad9361_reg(device, 0x046, icp_reg & 0x3F); // CP current
- write_ad9361_reg(device, 0x048, 0xe8); // BBPLL loop filters
- write_ad9361_reg(device, 0x049, 0x5b); // BBPLL loop filters
- write_ad9361_reg(device, 0x04a, 0x35); // BBPLL loop filters
+ _io_iface->poke8(0x045, 0x00); // REFCLK / 1 to BBPLL
+ _io_iface->poke8(0x046, icp_reg & 0x3F); // CP current
+ _io_iface->poke8(0x048, 0xe8); // BBPLL loop filters
+ _io_iface->poke8(0x049, 0x5b); // BBPLL loop filters
+ _io_iface->poke8(0x04a, 0x35); // BBPLL loop filters
- write_ad9361_reg(device, 0x04b, 0xe0);
- write_ad9361_reg(device, 0x04e, 0x10); // Max accuracy
+ _io_iface->poke8(0x04b, 0xe0);
+ _io_iface->poke8(0x04e, 0x10); // Max accuracy
- write_ad9361_reg(device, 0x043, nfrac & 0xFF); // Nfrac[7:0]
- write_ad9361_reg(device, 0x042, (nfrac >> 8) & 0xFF); // Nfrac[15:8]
- write_ad9361_reg(device, 0x041, (nfrac >> 16) & 0xFF); // Nfrac[23:16]
- write_ad9361_reg(device, 0x044, nint); // Nint
+ _io_iface->poke8(0x043, nfrac & 0xFF); // Nfrac[7:0]
+ _io_iface->poke8(0x042, (nfrac >> 8) & 0xFF); // Nfrac[15:8]
+ _io_iface->poke8(0x041, (nfrac >> 16) & 0xFF); // Nfrac[23:16]
+ _io_iface->poke8(0x044, nint); // Nint
- calibrate_lock_bbpll(device);
+ _calibrate_lock_bbpll();
- device->regs.bbpll = (device->regs.bbpll & 0xF8) | i;
+ _regs.bbpll = (_regs.bbpll & 0xF8) | i;
- device->bbpll_freq = actual_vcorate;
- device->adcclock_freq = (actual_vcorate / vcodiv);
+ _bbpll_freq = actual_vcorate;
+ _adcclock_freq = (actual_vcorate / vcodiv);
- return device->adcclock_freq;
+ return _adcclock_freq;
}
/* This function re-programs all of the gains in the system.
@@ -1154,20 +1125,20 @@ double tune_bbvco(ad9361_device_t* device, const double rate) {
* Because the gain values match to different gain indices based on the
* current operating band, this function can be called to update all gain
* settings to the appropriate index after a re-tune. */
-void program_gains(uint64_t handle) {
- ad9361_device_t* device = get_ad9361_device(handle);
- set_gain(handle, RX_TYPE,1, device->rx1_gain);
- set_gain(handle, RX_TYPE,2, device->rx2_gain);
- set_gain(handle, TX_TYPE,1, device->tx1_gain);
- set_gain(handle, TX_TYPE,2, device->tx2_gain);
+void ad9361_device_t::_reprogram_gains()
+{
+ set_gain(RX, CHAIN_1,_rx1_gain);
+ set_gain(RX, CHAIN_2,_rx2_gain);
+ set_gain(TX, CHAIN_1,_tx1_gain);
+ set_gain(TX, CHAIN_2,_tx2_gain);
}
/* This is the internal tune function, not available for a host call.
*
* Calculate the VCO settings for the requested frquency, and then either
* tune the RX or TX VCO. */
-double tune_helper(ad9361_device_t* device, int which, const double value) {
-
+double ad9361_device_t::_tune_helper(direction_t direction, const double value)
+{
/* The RFPLL runs from 6 GHz - 12 GHz */
const double fref = 80e6;
const int modulus = 8388593;
@@ -1178,100 +1149,105 @@ double tune_helper(ad9361_device_t* device, int which, const double value) {
/* Iterate over VCO dividers until appropriate divider is found. */
int i;
- for(i = 0; i <= 6; i++) {
+ for (i = 0; i <= 6; i++) {
vcodiv = 2 << i;
vcorate = value * vcodiv;
- if(vcorate >= vcomin && vcorate <= vcomax) break;
+ if (vcorate >= vcomin && vcorate <= vcomax)
+ break;
}
- if(i == 7)
+ if (i == 7)
post_err_msg("RFVCO can't find valid VCO rate!");
int nint = vcorate / fref;
int nfrac = ((vcorate / fref) - nint) * modulus;
- double actual_vcorate = fref * (nint + (double)(nfrac)/modulus);
+ double actual_vcorate = fref * (nint + (double) (nfrac) / modulus);
double actual_lo = actual_vcorate / vcodiv;
- if(which == RX_TYPE) {
+ if (direction == RX) {
- device->req_rx_freq = value;
+ _req_rx_freq = value;
/* Set band-specific settings. */
- if(value < ad9361_client_get_band_edge(device->product, AD9361_RX_BAND0)) {
- device->regs.inputsel = (device->regs.inputsel & 0xC0) | 0x30;
- } else if((value >= ad9361_client_get_band_edge(device->product, AD9361_RX_BAND0)) &&
- (value < ad9361_client_get_band_edge(device->product, AD9361_RX_BAND1))) {
- device->regs.inputsel = (device->regs.inputsel & 0xC0) | 0x0C;
- } else if((value >= ad9361_client_get_band_edge(device->product, AD9361_RX_BAND1)) &&
- (value <= 6e9)) {
- device->regs.inputsel = (device->regs.inputsel & 0xC0) | 0x03;
+ if (value < _client_params->get_band_edge(AD9361_RX_BAND0)) {
+ _regs.inputsel = (_regs.inputsel & 0xC0) | 0x30;
+ } else if ((value
+ >= _client_params->get_band_edge(AD9361_RX_BAND0))
+ && (value
+ < _client_params->get_band_edge(AD9361_RX_BAND1))) {
+ _regs.inputsel = (_regs.inputsel & 0xC0) | 0x0C;
+ } else if ((value
+ >= _client_params->get_band_edge(AD9361_RX_BAND1))
+ && (value <= 6e9)) {
+ _regs.inputsel = (_regs.inputsel & 0xC0) | 0x03;
} else {
- post_err_msg("[tune_helper] INVALID_CODE_PATH");
+ post_err_msg("[_tune_helper] INVALID_CODE_PATH");
}
- write_ad9361_reg(device, 0x004, device->regs.inputsel);
+ _io_iface->poke8(0x004, _regs.inputsel);
/* Store vcodiv setting. */
- device->regs.vcodivs = (device->regs.vcodivs & 0xF0) | (i & 0x0F);
+ _regs.vcodivs = (_regs.vcodivs & 0xF0) | (i & 0x0F);
/* Setup the synthesizer. */
- setup_synth(device, RX_TYPE, actual_vcorate);
+ _setup_synth(RX, actual_vcorate);
/* Tune!!!! */
- write_ad9361_reg(device, 0x233, nfrac & 0xFF);
- write_ad9361_reg(device, 0x234, (nfrac >> 8) & 0xFF);
- write_ad9361_reg(device, 0x235, (nfrac >> 16) & 0xFF);
- write_ad9361_reg(device, 0x232, (nint >> 8) & 0xFF);
- write_ad9361_reg(device, 0x231, nint & 0xFF);
- write_ad9361_reg(device, 0x005, device->regs.vcodivs);
+ _io_iface->poke8(0x233, nfrac & 0xFF);
+ _io_iface->poke8(0x234, (nfrac >> 8) & 0xFF);
+ _io_iface->poke8(0x235, (nfrac >> 16) & 0xFF);
+ _io_iface->poke8(0x232, (nint >> 8) & 0xFF);
+ _io_iface->poke8(0x231, nint & 0xFF);
+ _io_iface->poke8(0x005, _regs.vcodivs);
/* Lock the PLL! */
- ad9361_msleep(2);
- if((read_ad9361_reg(device, 0x247) & 0x02) == 0) {
+ boost::this_thread::sleep(boost::posix_time::milliseconds(2));
+ if ((_io_iface->peek8(0x247) & 0x02) == 0) {
post_err_msg("RX PLL NOT LOCKED");
}
- device->rx_freq = actual_lo;
+ _rx_freq = actual_lo;
return actual_lo;
} else {
- device->req_tx_freq = value;
+ _req_tx_freq = value;
/* Set band-specific settings. */
- if(value < ad9361_client_get_band_edge(device->product, AD9361_TX_BAND0)) {
- device->regs.inputsel = device->regs.inputsel | 0x40;
- } else if((value >= ad9361_client_get_band_edge(device->product, AD9361_TX_BAND0)) &&
- (value <= 6e9)) {
- device->regs.inputsel = device->regs.inputsel & 0xBF;
+ if (value < _client_params->get_band_edge(AD9361_TX_BAND0)) {
+ _regs.inputsel = _regs.inputsel | 0x40;
+ } else if ((value
+ >= _client_params->get_band_edge(AD9361_TX_BAND0))
+ && (value <= 6e9)) {
+ _regs.inputsel = _regs.inputsel & 0xBF;
} else {
- post_err_msg("[tune_helper] INVALID_CODE_PATH");
+ post_err_msg("[_tune_helper] INVALID_CODE_PATH");
}
- write_ad9361_reg(device, 0x004, device->regs.inputsel);
+ _io_iface->poke8(0x004, _regs.inputsel);
/* Store vcodiv setting. */
- device->regs.vcodivs = (device->regs.vcodivs & 0x0F) | ((i & 0x0F) << 4);
+ _regs.vcodivs = (_regs.vcodivs & 0x0F) | ((i & 0x0F) << 4);
/* Setup the synthesizer. */
- setup_synth(device, TX_TYPE, actual_vcorate);
+ _setup_synth(TX, actual_vcorate);
/* Tune it, homey. */
- write_ad9361_reg(device, 0x273, nfrac & 0xFF);
- write_ad9361_reg(device, 0x274, (nfrac >> 8) & 0xFF);
- write_ad9361_reg(device, 0x275, (nfrac >> 16) & 0xFF);
- write_ad9361_reg(device, 0x272, (nint >> 8) & 0xFF);
- write_ad9361_reg(device, 0x271, nint & 0xFF);
- write_ad9361_reg(device, 0x005, device->regs.vcodivs);
+ _io_iface->poke8(0x273, nfrac & 0xFF);
+ _io_iface->poke8(0x274, (nfrac >> 8) & 0xFF);
+ _io_iface->poke8(0x275, (nfrac >> 16) & 0xFF);
+ _io_iface->poke8(0x272, (nint >> 8) & 0xFF);
+ _io_iface->poke8(0x271, nint & 0xFF);
+ _io_iface->poke8(0x005, _regs.vcodivs);
/* Lock the PLL! */
- ad9361_msleep(2);
- if((read_ad9361_reg(device, 0x287) & 0x02) == 0) {
+ boost::this_thread::sleep(boost::posix_time::milliseconds(2));
+ if ((_io_iface->peek8(0x287) & 0x02) == 0) {
post_err_msg("TX PLL NOT LOCKED");
}
- device->tx_freq = actual_lo;
+ _tx_freq = actual_lo;
return actual_lo;
}
@@ -1283,11 +1259,11 @@ double tune_helper(ad9361_device_t* device, int which, const double value) {
* a requested TX & RX rate, it sets the interpolation & decimation filters,
* and tunes the VCO that feeds the ADCs and DACs.
*/
-double setup_rates(ad9361_device_t* device, const double rate) {
-
+double ad9361_device_t::_setup_rates(const double rate)
+{
/* If we make it into this function, then we are tuning to a new rate.
* Store the new rate. */
- device->req_clock_rate = rate;
+ _req_clock_rate = rate;
/* Set the decimation and interpolation values in the RX and TX chains.
* This also switches filters in / out. Note that all transmitters and
@@ -1295,343 +1271,348 @@ double setup_rates(ad9361_device_t* device, const double rate) {
* bring-up, and then they will be switched out to reflect the actual
* user-requested antenna selections. */
int divfactor = 0;
- device->tfir_factor = 0;
- if(rate < 0.33e6) {
+ _tfir_factor = 0;
+ if (rate < 0.33e6) {
// RX1 + RX2 enabled, 3, 2, 2, 4
- device->regs.rxfilt = B8( 11101111 ) ;
+ _regs.rxfilt = B8(11101111);
// TX1 + TX2 enabled, 3, 2, 2, 4
- device->regs.txfilt = B8( 11101111 ) ;
+ _regs.txfilt = B8(11101111);
divfactor = 48;
- device->tfir_factor = 2;
- } else if(rate < 0.66e6) {
+ _tfir_factor = 2;
+ } else if (rate < 0.66e6) {
// RX1 + RX2 enabled, 2, 2, 2, 4
- device->regs.rxfilt = B8( 11011111 ) ;
+ _regs.rxfilt = B8(11011111);
// TX1 + TX2 enabled, 2, 2, 2, 4
- device->regs.txfilt = B8( 11011111 ) ;
+ _regs.txfilt = B8(11011111);
divfactor = 32;
- device->tfir_factor = 2;
- } else if(rate <= 20e6) {
+ _tfir_factor = 2;
+ } else if (rate <= 20e6) {
// RX1 + RX2 enabled, 2, 2, 2, 2
- device->regs.rxfilt = B8( 11011110 ) ;
+ _regs.rxfilt = B8(11011110);
// TX1 + TX2 enabled, 2, 2, 2, 2
- device->regs.txfilt = B8( 11011110 ) ;
+ _regs.txfilt = B8(11011110);
divfactor = 16;
- device->tfir_factor = 2;
- } else if((rate > 20e6) && (rate < 23e6)) {
+ _tfir_factor = 2;
+ } else if ((rate > 20e6) && (rate < 23e6)) {
// RX1 + RX2 enabled, 3, 2, 2, 2
- device->regs.rxfilt = B8( 11101110 ) ;
+ _regs.rxfilt = B8(11101110);
// TX1 + TX2 enabled, 3, 1, 2, 2
- device->regs.txfilt = B8( 11100110 ) ;
+ _regs.txfilt = B8(11100110);
divfactor = 24;
- device->tfir_factor = 2;
- } else if((rate >= 23e6) && (rate < 41e6)) {
+ _tfir_factor = 2;
+ } else if ((rate >= 23e6) && (rate < 41e6)) {
// RX1 + RX2 enabled, 2, 2, 2, 2
- device->regs.rxfilt = B8( 11011110 ) ;
+ _regs.rxfilt = B8(11011110);
// TX1 + TX2 enabled, 1, 2, 2, 2
- device->regs.txfilt = B8( 11001110 ) ;
+ _regs.txfilt = B8(11001110);
divfactor = 16;
- device->tfir_factor = 2;
- } else if((rate >= 41e6) && (rate <= 56e6)) {
+ _tfir_factor = 2;
+ } else if ((rate >= 41e6) && (rate <= 56e6)) {
// RX1 + RX2 enabled, 3, 1, 2, 2
- device->regs.rxfilt = B8( 11100110 ) ;
+ _regs.rxfilt = B8(11100110);
// TX1 + TX2 enabled, 3, 1, 1, 2
- device->regs.txfilt = B8( 11100010 ) ;
+ _regs.txfilt = B8(11100010);
divfactor = 12;
- device->tfir_factor = 2;
- } else if((rate > 56e6) && (rate <= 61.44e6)) {
+ _tfir_factor = 2;
+ } else if ((rate > 56e6) && (rate <= 61.44e6)) {
// RX1 + RX2 enabled, 3, 1, 1, 2
- device->regs.rxfilt = B8( 11100010 ) ;
+ _regs.rxfilt = B8(11100010);
// TX1 + TX2 enabled, 3, 1, 1, 1
- device->regs.txfilt = B8( 11100001 ) ;
+ _regs.txfilt = B8(11100001);
divfactor = 6;
- device->tfir_factor = 1;
+ _tfir_factor = 1;
} else {
// should never get in here
- post_err_msg("[setup_rates] INVALID_CODE_PATH");
+ post_err_msg("[_setup_rates] INVALID_CODE_PATH");
}
- msg("[setup_rates] divfactor=%d", divfactor);
+ msg("[_setup_rates] divfactor=%d", divfactor);
/* Tune the BBPLL to get the ADC and DAC clocks. */
- const double adcclk = tune_bbvco(device, rate * divfactor);
+ const double adcclk = _tune_bbvco(rate * divfactor);
double dacclk = adcclk;
/* The DAC clock must be <= 336e6, and is either the ADC clock or 1/2 the
* ADC clock.*/
- if(adcclk > 336e6) {
+ if (adcclk > 336e6) {
/* Make the DAC clock = ADC/2, and bypass the TXFIR. */
- device->regs.bbpll = device->regs.bbpll | 0x08;
+ _regs.bbpll = _regs.bbpll | 0x08;
dacclk = adcclk / 2.0;
} else {
- device->regs.bbpll = device->regs.bbpll & 0xF7;
+ _regs.bbpll = _regs.bbpll & 0xF7;
}
/* Set the dividers / interpolators in AD9361. */
- write_ad9361_reg(device, 0x002, device->regs.txfilt);
- write_ad9361_reg(device, 0x003, device->regs.rxfilt);
- write_ad9361_reg(device, 0x004, device->regs.inputsel);
- write_ad9361_reg(device, 0x00A, device->regs.bbpll);
-
- msg("[setup_rates] adcclk=%f", adcclk);
- device->baseband_bw = (adcclk / divfactor);
-
- /*
- The Tx & Rx FIR calculate 16 taps per clock cycle. This limits the number of available taps to the ratio of DAC_CLK/ADC_CLK
- to the input data rate multiplied by 16. For example, if the input data rate is 25 MHz and DAC_CLK is 100 MHz,
- then the ratio of DAC_CLK to the input data rate is 100/25 or 4. In this scenario, the total number of taps available is 64.
-
- Also, whilst the Rx FIR filter always has memory available for 128 taps, the Tx FIR Filter can only support a maximum length of 64 taps
- in 1x interpolation mode, and 128 taps in 2x & 4x modes.
- */
- const int max_tx_taps = AD9361_MIN(AD9361_MIN((16 * (int)((dacclk / rate) + 0.5)), 128),
- (device->tfir_factor==1) ? 64 : 128);
- const int max_rx_taps = AD9361_MIN((16 * (int)((adcclk / rate) + 0.5)), 128);
+ _io_iface->poke8(0x002, _regs.txfilt);
+ _io_iface->poke8(0x003, _regs.rxfilt);
+ _io_iface->poke8(0x004, _regs.inputsel);
+ _io_iface->poke8(0x00A, _regs.bbpll);
+
+ msg("[_setup_rates] adcclk=%f", adcclk);
+ _baseband_bw = (adcclk / divfactor);
+
+ /*
+ The Tx & Rx FIR calculate 16 taps per clock cycle. This limits the number of available taps to the ratio of DAC_CLK/ADC_CLK
+ to the input data rate multiplied by 16. For example, if the input data rate is 25 MHz and DAC_CLK is 100 MHz,
+ then the ratio of DAC_CLK to the input data rate is 100/25 or 4. In this scenario, the total number of taps available is 64.
+
+ Also, whilst the Rx FIR filter always has memory available for 128 taps, the Tx FIR Filter can only support a maximum length of 64 taps
+ in 1x interpolation mode, and 128 taps in 2x & 4x modes.
+ */
+ const int max_tx_taps = AD9361_MIN(
+ AD9361_MIN((16 * (int)((dacclk / rate) + 0.5)), 128),
+ (_tfir_factor == 1) ? 64 : 128);
+ const int max_rx_taps = AD9361_MIN((16 * (int )((adcclk / rate) + 0.5)),
+ 128);
const int num_tx_taps = get_num_taps(max_tx_taps);
const int num_rx_taps = get_num_taps(max_rx_taps);
- setup_tx_fir(device, num_tx_taps);
- setup_rx_fir(device, num_rx_taps);
+ _setup_tx_fir(num_tx_taps);
+ _setup_rx_fir(num_rx_taps);
- return device->baseband_bw;
+ return _baseband_bw;
}
/***********************************************************************
* Publicly exported functions to host calls
**********************************************************************/
-void init_ad9361(uint64_t handle) {
- ad9361_device_t* device = get_ad9361_device(handle);
+void ad9361_device_t::initialize()
+{
/* Initialize shadow registers. */
- device->regs.vcodivs = 0x00;
- device->regs.inputsel = 0x30;
- device->regs.rxfilt = 0x00;
- device->regs.txfilt = 0x00;
- device->regs.bbpll = 0x02;
- device->regs.bbftune_config = 0x1e;
- device->regs.bbftune_mode = 0x1e;
+ _regs.vcodivs = 0x00;
+ _regs.inputsel = 0x30;
+ _regs.rxfilt = 0x00;
+ _regs.txfilt = 0x00;
+ _regs.bbpll = 0x02;
+ _regs.bbftune_config = 0x1e;
+ _regs.bbftune_mode = 0x1e;
/* Initialize private VRQ fields. */
- device->rx_freq = 0.0;
- device->tx_freq = 0.0;
- device->req_rx_freq = 0.0;
- device->req_tx_freq = 0.0;
- device->baseband_bw = 0.0;
- device->req_clock_rate = 0.0;
- device->req_coreclk = 0.0;
- device->bbpll_freq = 0.0;
- device->adcclock_freq = 0.0;
- device->rx_bbf_tunediv = 0;
- device->curr_gain_table = 0;
- device->rx1_gain = 0;
- device->rx2_gain = 0;
- device->tx1_gain = 0;
- device->tx2_gain = 0;
+ _rx_freq = 0.0;
+ _tx_freq = 0.0;
+ _req_rx_freq = 0.0;
+ _req_tx_freq = 0.0;
+ _baseband_bw = 0.0;
+ _req_clock_rate = 0.0;
+ _req_coreclk = 0.0;
+ _bbpll_freq = 0.0;
+ _adcclock_freq = 0.0;
+ _rx_bbf_tunediv = 0;
+ _curr_gain_table = 0;
+ _rx1_gain = 0;
+ _rx2_gain = 0;
+ _tx1_gain = 0;
+ _tx2_gain = 0;
/* Reset the device. */
- write_ad9361_reg(device, 0x000,0x01);
- write_ad9361_reg(device, 0x000,0x00);
- ad9361_msleep(20);
+ _io_iface->poke8(0x000, 0x01);
+ _io_iface->poke8(0x000, 0x00);
+ boost::this_thread::sleep(boost::posix_time::milliseconds(20));
/* There is not a WAT big enough for this. */
- write_ad9361_reg(device, 0x3df, 0x01);
+ _io_iface->poke8(0x3df, 0x01);
- write_ad9361_reg(device, 0x2a6, 0x0e); // Enable master bias
- write_ad9361_reg(device, 0x2a8, 0x0e); // Set bandgap trim
+ _io_iface->poke8(0x2a6, 0x0e); // Enable master bias
+ _io_iface->poke8(0x2a8, 0x0e); // Set bandgap trim
/* Set RFPLL ref clock scale to REFCLK * 2 */
- write_ad9361_reg(device, 0x2ab, 0x07);
- write_ad9361_reg(device, 0x2ac, 0xff);
+ _io_iface->poke8(0x2ab, 0x07);
+ _io_iface->poke8(0x2ac, 0xff);
/* Enable clocks. */
- switch (ad9361_client_get_clocking_mode(device->product)) {
- case AD9361_XTAL_N_CLK_PATH: {
- write_ad9361_reg(device, 0x009, 0x17);
- } break;
-
- case AD9361_XTAL_P_CLK_PATH: {
- write_ad9361_reg(device, 0x009, 0x07);
- write_ad9361_reg(device, 0x292, 0x08);
- write_ad9361_reg(device, 0x293, 0x80);
- write_ad9361_reg(device, 0x294, 0x00);
- write_ad9361_reg(device, 0x295, 0x14);
- } break;
-
- default:
- post_err_msg("NOT IMPLEMENTED");
+ switch (_client_params->get_clocking_mode()) {
+ case AD9361_XTAL_N_CLK_PATH: {
+ _io_iface->poke8(0x009, 0x17);
+ } break;
+
+ case AD9361_XTAL_P_CLK_PATH: {
+ _io_iface->poke8(0x009, 0x07);
+ _io_iface->poke8(0x292, 0x08);
+ _io_iface->poke8(0x293, 0x80);
+ _io_iface->poke8(0x294, 0x00);
+ _io_iface->poke8(0x295, 0x14);
+ } break;
+
+ default:
+ post_err_msg("NOT IMPLEMENTED");
}
- ad9361_msleep(20);
+ boost::this_thread::sleep(boost::posix_time::milliseconds(20));
/* Tune the BBPLL, write TX and RX FIRS. */
- setup_rates(device, 50e6);
+ _setup_rates(50e6);
/* Setup data ports (FDD dual port DDR):
* FDD dual port DDR CMOS no swap.
* Force TX on one port, RX on the other. */
- switch (ad9361_client_get_digital_interface_mode(device->product)) {
- case AD9361_DDR_FDD_LVCMOS: {
- write_ad9361_reg(device, 0x010, 0xc8);
- write_ad9361_reg(device, 0x011, 0x00);
- write_ad9361_reg(device, 0x012, 0x02);
- } break;
-
- case AD9361_DDR_FDD_LVDS: {
- write_ad9361_reg(device, 0x010, 0xcc);
- write_ad9361_reg(device, 0x011, 0x00);
- write_ad9361_reg(device, 0x012, 0x10);
-
- //LVDS Specific
- write_ad9361_reg(device, 0x03C, 0x23);
- write_ad9361_reg(device, 0x03D, 0xFF);
- write_ad9361_reg(device, 0x03E, 0x0F);
- } break;
-
- default:
- post_err_msg("NOT IMPLEMENTED");
+ switch (_client_params->get_digital_interface_mode()) {
+ case AD9361_DDR_FDD_LVCMOS: {
+ _io_iface->poke8(0x010, 0xc8);
+ _io_iface->poke8(0x011, 0x00);
+ _io_iface->poke8(0x012, 0x02);
+ } break;
+
+ case AD9361_DDR_FDD_LVDS: {
+ _io_iface->poke8(0x010, 0xcc);
+ _io_iface->poke8(0x011, 0x00);
+ _io_iface->poke8(0x012, 0x10);
+
+ //LVDS Specific
+ _io_iface->poke8(0x03C, 0x23);
+ _io_iface->poke8(0x03D, 0xFF);
+ _io_iface->poke8(0x03E, 0x0F);
+ } break;
+
+ default:
+ post_err_msg("NOT IMPLEMENTED");
}
/* Data delay for TX and RX data clocks */
- digital_interface_delays_t timing = ad9361_client_get_digital_interface_timing(device->product);
- uint8_t rx_delays = ((timing.rx_clk_delay & 0xF) << 4) | (timing.rx_data_delay & 0xF);
- uint8_t tx_delays = ((timing.tx_clk_delay & 0xF) << 4) | (timing.tx_data_delay & 0xF);
- write_ad9361_reg(device, 0x006, rx_delays);
- write_ad9361_reg(device, 0x007, tx_delays);
+ digital_interface_delays_t timing =
+ _client_params->get_digital_interface_timing();
+ uint8_t rx_delays = ((timing.rx_clk_delay & 0xF) << 4)
+ | (timing.rx_data_delay & 0xF);
+ uint8_t tx_delays = ((timing.tx_clk_delay & 0xF) << 4)
+ | (timing.tx_data_delay & 0xF);
+ _io_iface->poke8(0x006, rx_delays);
+ _io_iface->poke8(0x007, tx_delays);
/* Setup AuxDAC */
- write_ad9361_reg(device, 0x018, 0x00); // AuxDAC1 Word[9:2]
- write_ad9361_reg(device, 0x019, 0x00); // AuxDAC2 Word[9:2]
- write_ad9361_reg(device, 0x01A, 0x00); // AuxDAC1 Config and Word[1:0]
- write_ad9361_reg(device, 0x01B, 0x00); // AuxDAC2 Config and Word[1:0]
- write_ad9361_reg(device, 0x022, 0x4A); // Invert Bypassed LNA
- write_ad9361_reg(device, 0x023, 0xFF); // AuxDAC Manaul/Auto Control
- write_ad9361_reg(device, 0x026, 0x00); // AuxDAC Manual Select Bit/GPO Manual Select
- write_ad9361_reg(device, 0x030, 0x00); // AuxDAC1 Rx Delay
- write_ad9361_reg(device, 0x031, 0x00); // AuxDAC1 Tx Delay
- write_ad9361_reg(device, 0x032, 0x00); // AuxDAC2 Rx Delay
- write_ad9361_reg(device, 0x033, 0x00); // AuxDAC2 Tx Delay
+ _io_iface->poke8(0x018, 0x00); // AuxDAC1 Word[9:2]
+ _io_iface->poke8(0x019, 0x00); // AuxDAC2 Word[9:2]
+ _io_iface->poke8(0x01A, 0x00); // AuxDAC1 Config and Word[1:0]
+ _io_iface->poke8(0x01B, 0x00); // AuxDAC2 Config and Word[1:0]
+ _io_iface->poke8(0x022, 0x4A); // Invert Bypassed LNA
+ _io_iface->poke8(0x023, 0xFF); // AuxDAC Manaul/Auto Control
+ _io_iface->poke8(0x026, 0x00); // AuxDAC Manual Select Bit/GPO Manual Select
+ _io_iface->poke8(0x030, 0x00); // AuxDAC1 Rx Delay
+ _io_iface->poke8(0x031, 0x00); // AuxDAC1 Tx Delay
+ _io_iface->poke8(0x032, 0x00); // AuxDAC2 Rx Delay
+ _io_iface->poke8(0x033, 0x00); // AuxDAC2 Tx Delay
/* Setup AuxADC */
- write_ad9361_reg(device, 0x00B, 0x00); // Temp Sensor Setup (Offset)
- write_ad9361_reg(device, 0x00C, 0x00); // Temp Sensor Setup (Temp Window)
- write_ad9361_reg(device, 0x00D, 0x03); // Temp Sensor Setup (Periodic Measure)
- write_ad9361_reg(device, 0x00F, 0x04); // Temp Sensor Setup (Decimation)
- write_ad9361_reg(device, 0x01C, 0x10); // AuxADC Setup (Clock Div)
- write_ad9361_reg(device, 0x01D, 0x01); // AuxADC Setup (Decimation/Enable)
+ _io_iface->poke8(0x00B, 0x00); // Temp Sensor Setup (Offset)
+ _io_iface->poke8(0x00C, 0x00); // Temp Sensor Setup (Temp Window)
+ _io_iface->poke8(0x00D, 0x03); // Temp Sensor Setup (Periodic Measure)
+ _io_iface->poke8(0x00F, 0x04); // Temp Sensor Setup (Decimation)
+ _io_iface->poke8(0x01C, 0x10); // AuxADC Setup (Clock Div)
+ _io_iface->poke8(0x01D, 0x01); // AuxADC Setup (Decimation/Enable)
/* Setup control outputs. */
- write_ad9361_reg(device, 0x035, 0x07);
- write_ad9361_reg(device, 0x036, 0xFF);
+ _io_iface->poke8(0x035, 0x07);
+ _io_iface->poke8(0x036, 0xFF);
/* Setup GPO */
- write_ad9361_reg(device, 0x03a, 0x27); //set delay register
- write_ad9361_reg(device, 0x020, 0x00); // GPO Auto Enable Setup in RX and TX
- write_ad9361_reg(device, 0x027, 0x03); // GPO Manual and GPO auto value in ALERT
- write_ad9361_reg(device, 0x028, 0x00); // GPO_0 RX Delay
- write_ad9361_reg(device, 0x029, 0x00); // GPO_1 RX Delay
- write_ad9361_reg(device, 0x02A, 0x00); // GPO_2 RX Delay
- write_ad9361_reg(device, 0x02B, 0x00); // GPO_3 RX Delay
- write_ad9361_reg(device, 0x02C, 0x00); // GPO_0 TX Delay
- write_ad9361_reg(device, 0x02D, 0x00); // GPO_1 TX Delay
- write_ad9361_reg(device, 0x02E, 0x00); // GPO_2 TX Delay
- write_ad9361_reg(device, 0x02F, 0x00); // GPO_3 TX Delay
-
- write_ad9361_reg(device, 0x261, 0x00); // RX LO power
- write_ad9361_reg(device, 0x2a1, 0x00); // TX LO power
- write_ad9361_reg(device, 0x248, 0x0b); // en RX VCO LDO
- write_ad9361_reg(device, 0x288, 0x0b); // en TX VCO LDO
- write_ad9361_reg(device, 0x246, 0x02); // pd RX cal Tcf
- write_ad9361_reg(device, 0x286, 0x02); // pd TX cal Tcf
- write_ad9361_reg(device, 0x249, 0x8e); // rx vco cal length
- write_ad9361_reg(device, 0x289, 0x8e); // rx vco cal length
- write_ad9361_reg(device, 0x23b, 0x80); // set RX MSB?, FIXME 0x89 magic cp
- write_ad9361_reg(device, 0x27b, 0x80); // "" TX //FIXME 0x88 see above
- write_ad9361_reg(device, 0x243, 0x0d); // set rx prescaler bias
- write_ad9361_reg(device, 0x283, 0x0d); // "" TX
-
- write_ad9361_reg(device, 0x23d, 0x00); // Clear half VCO cal clock setting
- write_ad9361_reg(device, 0x27d, 0x00); // Clear half VCO cal clock setting
+ _io_iface->poke8(0x03a, 0x27); //set delay register
+ _io_iface->poke8(0x020, 0x00); // GPO Auto Enable Setup in RX and TX
+ _io_iface->poke8(0x027, 0x03); // GPO Manual and GPO auto value in ALERT
+ _io_iface->poke8(0x028, 0x00); // GPO_0 RX Delay
+ _io_iface->poke8(0x029, 0x00); // GPO_1 RX Delay
+ _io_iface->poke8(0x02A, 0x00); // GPO_2 RX Delay
+ _io_iface->poke8(0x02B, 0x00); // GPO_3 RX Delay
+ _io_iface->poke8(0x02C, 0x00); // GPO_0 TX Delay
+ _io_iface->poke8(0x02D, 0x00); // GPO_1 TX Delay
+ _io_iface->poke8(0x02E, 0x00); // GPO_2 TX Delay
+ _io_iface->poke8(0x02F, 0x00); // GPO_3 TX Delay
+
+ _io_iface->poke8(0x261, 0x00); // RX LO power
+ _io_iface->poke8(0x2a1, 0x00); // TX LO power
+ _io_iface->poke8(0x248, 0x0b); // en RX VCO LDO
+ _io_iface->poke8(0x288, 0x0b); // en TX VCO LDO
+ _io_iface->poke8(0x246, 0x02); // pd RX cal Tcf
+ _io_iface->poke8(0x286, 0x02); // pd TX cal Tcf
+ _io_iface->poke8(0x249, 0x8e); // rx vco cal length
+ _io_iface->poke8(0x289, 0x8e); // rx vco cal length
+ _io_iface->poke8(0x23b, 0x80); // set RX MSB?, FIXME 0x89 magic cp
+ _io_iface->poke8(0x27b, 0x80); // "" TX //FIXME 0x88 see above
+ _io_iface->poke8(0x243, 0x0d); // set rx prescaler bias
+ _io_iface->poke8(0x283, 0x0d); // "" TX
+
+ _io_iface->poke8(0x23d, 0x00); // Clear half VCO cal clock setting
+ _io_iface->poke8(0x27d, 0x00); // Clear half VCO cal clock setting
/* The order of the following process is EXTREMELY important. If the
* below functions are modified at all, device initialization and
* calibration might be broken in the process! */
- write_ad9361_reg(device, 0x015, 0x04); // dual synth mode, synth en ctrl en
- write_ad9361_reg(device, 0x014, 0x05); // use SPI for TXNRX ctrl, to ALERT, TX on
- write_ad9361_reg(device, 0x013, 0x01); // enable ENSM
- ad9361_msleep(1);
+ _io_iface->poke8(0x015, 0x04); // dual synth mode, synth en ctrl en
+ _io_iface->poke8(0x014, 0x05); // use SPI for TXNRX ctrl, to ALERT, TX on
+ _io_iface->poke8(0x013, 0x01); // enable ENSM
+ boost::this_thread::sleep(boost::posix_time::milliseconds(1));
- calibrate_synth_charge_pumps(device);
+ _calibrate_synth_charge_pumps();
- tune_helper(device, RX_TYPE, 800e6);
- tune_helper(device, TX_TYPE, 850e6);
+ _tune_helper(RX, 800e6);
+ _tune_helper(TX, 850e6);
- program_mixer_gm_subtable(device);
- program_gain_table(device);
- setup_gain_control(device);
+ _program_mixer_gm_subtable();
+ _program_gain_table();
+ _setup_gain_control();
- calibrate_baseband_rx_analog_filter(device);
- calibrate_baseband_tx_analog_filter(device);
- calibrate_rx_TIAs(device);
- calibrate_secondary_tx_filter(device);
+ _calibrate_baseband_rx_analog_filter();
+ _calibrate_baseband_tx_analog_filter();
+ _calibrate_rx_TIAs();
+ _calibrate_secondary_tx_filter();
- setup_adc(device);
+ _setup_adc();
- calibrate_tx_quadrature(device);
- calibrate_rx_quadrature(device);
+ _calibrate_tx_quadrature();
+ _calibrate_rx_quadrature();
// cals done, set PPORT config
- switch (ad9361_client_get_digital_interface_mode(device->product)) {
- case AD9361_DDR_FDD_LVCMOS: {
- write_ad9361_reg(device, 0x012, 0x02);
- } break;
+ switch (_client_params->get_digital_interface_mode()) {
+ case AD9361_DDR_FDD_LVCMOS: {
+ _io_iface->poke8(0x012, 0x02);
+ } break;
- case AD9361_DDR_FDD_LVDS: {
- write_ad9361_reg(device, 0x012, 0x10);
- } break;
+ case AD9361_DDR_FDD_LVDS: {
+ _io_iface->poke8(0x012, 0x10);
+ } break;
- default:
- post_err_msg("NOT IMPLEMENTED");
+ default:
+ post_err_msg("NOT IMPLEMENTED");
}
- write_ad9361_reg(device, 0x013, 0x01); // Set ENSM FDD bit
- write_ad9361_reg(device, 0x015, 0x04); // dual synth mode, synth en ctrl en
+ _io_iface->poke8(0x013, 0x01); // Set ENSM FDD bit
+ _io_iface->poke8(0x015, 0x04); // dual synth mode, synth en ctrl en
/* Default TX attentuation to 10dB on both TX1 and TX2 */
- write_ad9361_reg(device, 0x073, 0x00);
- write_ad9361_reg(device, 0x074, 0x00);
- write_ad9361_reg(device, 0x075, 0x00);
- write_ad9361_reg(device, 0x076, 0x00);
+ _io_iface->poke8(0x073, 0x00);
+ _io_iface->poke8(0x074, 0x00);
+ _io_iface->poke8(0x075, 0x00);
+ _io_iface->poke8(0x076, 0x00);
/* Setup RSSI Measurements */
- write_ad9361_reg(device, 0x150, 0x0E); // RSSI Measurement Duration 0, 1
- write_ad9361_reg(device, 0x151, 0x00); // RSSI Measurement Duration 2, 3
- write_ad9361_reg(device, 0x152, 0xFF); // RSSI Weighted Multiplier 0
- write_ad9361_reg(device, 0x153, 0x00); // RSSI Weighted Multiplier 1
- write_ad9361_reg(device, 0x154, 0x00); // RSSI Weighted Multiplier 2
- write_ad9361_reg(device, 0x155, 0x00); // RSSI Weighted Multiplier 3
- write_ad9361_reg(device, 0x156, 0x00); // RSSI Delay
- write_ad9361_reg(device, 0x157, 0x00); // RSSI Wait
- write_ad9361_reg(device, 0x158, 0x0D); // RSSI Mode Select
- write_ad9361_reg(device, 0x15C, 0x67); // Power Measurement Duration
+ _io_iface->poke8(0x150, 0x0E); // RSSI Measurement Duration 0, 1
+ _io_iface->poke8(0x151, 0x00); // RSSI Measurement Duration 2, 3
+ _io_iface->poke8(0x152, 0xFF); // RSSI Weighted Multiplier 0
+ _io_iface->poke8(0x153, 0x00); // RSSI Weighted Multiplier 1
+ _io_iface->poke8(0x154, 0x00); // RSSI Weighted Multiplier 2
+ _io_iface->poke8(0x155, 0x00); // RSSI Weighted Multiplier 3
+ _io_iface->poke8(0x156, 0x00); // RSSI Delay
+ _io_iface->poke8(0x157, 0x00); // RSSI Wait
+ _io_iface->poke8(0x158, 0x0D); // RSSI Mode Select
+ _io_iface->poke8(0x15C, 0x67); // Power Measurement Duration
/* Turn on the default RX & TX chains. */
- set_active_chains(handle, true, false, false, false);
+ set_active_chains(true, false, false, false);
/* Set TXers & RXers on (only works in FDD mode) */
- write_ad9361_reg(device, 0x014, 0x21);
+ _io_iface->poke8(0x014, 0x21);
}
@@ -1640,10 +1621,9 @@ void init_ad9361(uint64_t handle) {
* achieve the user's requested rate.
*
* This is the only clock setting function that is exposed to the outside. */
-double set_clock_rate(uint64_t handle, const double req_rate) {
- ad9361_device_t* device = get_ad9361_device(handle);
-
- if(req_rate > 61.44e6) {
+double ad9361_device_t::set_clock_rate(const double req_rate)
+{
+ if (req_rate > 61.44e6) {
post_err_msg("Requested master clock rate outside range");
}
@@ -1652,105 +1632,105 @@ double set_clock_rate(uint64_t handle, const double req_rate) {
/* UHD has a habit of requesting the same rate like four times when it
* starts up. This prevents that, and any bugs in user code that request
* the same rate over and over. */
- if(freq_is_nearly_equal(req_rate, device->req_clock_rate)) {
- return device->baseband_bw;
+ if (freq_is_nearly_equal(req_rate, _req_clock_rate)) {
+ return _baseband_bw;
}
/* We must be in the SLEEP / WAIT state to do this. If we aren't already
* there, transition the ENSM to State 0. */
- uint8_t current_state = read_ad9361_reg(device, 0x017) & 0x0F;
- switch(current_state) {
- case 0x05:
- /* We are in the ALERT state. */
- write_ad9361_reg(device, 0x014, 0x21);
- ad9361_msleep(5);
- write_ad9361_reg(device, 0x014, 0x00);
- break;
-
- case 0x0A:
- /* We are in the FDD state. */
- write_ad9361_reg(device, 0x014, 0x00);
- break;
-
- default:
- post_err_msg("[set_clock_rate:1] AD9361 in unknown state");
- break;
+ uint8_t current_state = _io_iface->peek8(0x017) & 0x0F;
+ switch (current_state) {
+ case 0x05:
+ /* We are in the ALERT state. */
+ _io_iface->poke8(0x014, 0x21);
+ boost::this_thread::sleep(boost::posix_time::milliseconds(5));
+ _io_iface->poke8(0x014, 0x00);
+ break;
+
+ case 0x0A:
+ /* We are in the FDD state. */
+ _io_iface->poke8(0x014, 0x00);
+ break;
+
+ default:
+ post_err_msg("[set_clock_rate:1] AD9361 in unknown state");
+ break;
};
/* Store the current chain / antenna selections so that we can restore
* them at the end of this routine; all chains will be enabled from
* within setup_rates for calibration purposes. */
- uint8_t orig_tx_chains = device->regs.txfilt & 0xC0;
- uint8_t orig_rx_chains = device->regs.rxfilt & 0xC0;
+ uint8_t orig_tx_chains = _regs.txfilt & 0xC0;
+ uint8_t orig_rx_chains = _regs.rxfilt & 0xC0;
/* Call into the clock configuration / settings function. This is where
* all the hard work gets done. */
- double rate = setup_rates(device, req_rate);
+ double rate = _setup_rates(req_rate);
msg("[set_clock_rate] rate=%.10f", rate);
/* Transition to the ALERT state and calibrate everything. */
- write_ad9361_reg(device, 0x015, 0x04); //dual synth mode, synth en ctrl en
- write_ad9361_reg(device, 0x014, 0x05); //use SPI for TXNRX ctrl, to ALERT, TX on
- write_ad9361_reg(device, 0x013, 0x01); //enable ENSM
- ad9361_msleep(1);
+ _io_iface->poke8(0x015, 0x04); //dual synth mode, synth en ctrl en
+ _io_iface->poke8(0x014, 0x05); //use SPI for TXNRX ctrl, to ALERT, TX on
+ _io_iface->poke8(0x013, 0x01); //enable ENSM
+ boost::this_thread::sleep(boost::posix_time::milliseconds(1));
- calibrate_synth_charge_pumps(device);
+ _calibrate_synth_charge_pumps();
- tune_helper(device, RX_TYPE, device->rx_freq);
- tune_helper(device, TX_TYPE, device->tx_freq);
+ _tune_helper(RX, _rx_freq);
+ _tune_helper(TX, _tx_freq);
- program_mixer_gm_subtable(device);
- program_gain_table(device);
- setup_gain_control(device);
- program_gains(handle);
+ _program_mixer_gm_subtable();
+ _program_gain_table();
+ _setup_gain_control();
+ _reprogram_gains();
- calibrate_baseband_rx_analog_filter(device);
- calibrate_baseband_tx_analog_filter(device);
- calibrate_rx_TIAs(device);
- calibrate_secondary_tx_filter(device);
+ _calibrate_baseband_rx_analog_filter();
+ _calibrate_baseband_tx_analog_filter();
+ _calibrate_rx_TIAs();
+ _calibrate_secondary_tx_filter();
- setup_adc(device);
+ _setup_adc();
- calibrate_tx_quadrature(device);
- calibrate_rx_quadrature(device);
+ _calibrate_tx_quadrature();
+ _calibrate_rx_quadrature();
// cals done, set PPORT config
- switch (ad9361_client_get_digital_interface_mode(device->product)) {
+ switch (_client_params->get_digital_interface_mode()) {
case AD9361_DDR_FDD_LVCMOS: {
- write_ad9361_reg(device, 0x012, 0x02);
- } break;
+ _io_iface->poke8(0x012, 0x02);
+ }break;
case AD9361_DDR_FDD_LVDS: {
- write_ad9361_reg(device, 0x012, 0x10);
- } break;
+ _io_iface->poke8(0x012, 0x10);
+ }break;
default:
- post_err_msg("NOT IMPLEMENTED");
+ post_err_msg("NOT IMPLEMENTED");
}
- write_ad9361_reg(device, 0x013, 0x01); // Set ENSM FDD bit
- write_ad9361_reg(device, 0x015, 0x04); // dual synth mode, synth en ctrl en
+ _io_iface->poke8(0x013, 0x01); // Set ENSM FDD bit
+ _io_iface->poke8(0x015, 0x04); // dual synth mode, synth en ctrl en
/* End the function in the same state as the entry state. */
- switch(current_state) {
- case 0x05:
- /* We are already in ALERT. */
- break;
-
- case 0x0A:
- /* Transition back to FDD, and restore the original antenna
- * / chain selections. */
- device->regs.txfilt = (device->regs.txfilt & 0x3F) | orig_tx_chains;
- device->regs.rxfilt = (device->regs.rxfilt & 0x3F) | orig_rx_chains;
-
- write_ad9361_reg(device, 0x002, device->regs.txfilt);
- write_ad9361_reg(device, 0x003, device->regs.rxfilt);
- write_ad9361_reg(device, 0x014, 0x21);
- break;
-
- default:
- post_err_msg("[set_clock_rate:2] AD9361 in unknown state");
- break;
+ switch (current_state) {
+ case 0x05:
+ /* We are already in ALERT. */
+ break;
+
+ case 0x0A:
+ /* Transition back to FDD, and restore the original antenna
+ * / chain selections. */
+ _regs.txfilt = (_regs.txfilt & 0x3F) | orig_tx_chains;
+ _regs.rxfilt = (_regs.rxfilt & 0x3F) | orig_rx_chains;
+
+ _io_iface->poke8(0x002, _regs.txfilt);
+ _io_iface->poke8(0x003, _regs.rxfilt);
+ _io_iface->poke8(0x014, 0x21);
+ break;
+
+ default:
+ post_err_msg("[set_clock_rate:2] AD9361 in unknown state");
+ break;
};
return rate;
@@ -1775,40 +1755,47 @@ double set_clock_rate(uint64_t handle, const double req_rate) {
* TX / RX2 Side B RX2 (when switched to RX)
* RX2 Side B RX2
*/
-void set_active_chains(uint64_t handle, bool tx1, bool tx2, bool rx1, bool rx2) {
- ad9361_device_t* device = get_ad9361_device(handle);
-
+void ad9361_device_t::set_active_chains(bool tx1, bool tx2, bool rx1, bool rx2)
+{
/* Clear out the current active chain settings. */
- device->regs.txfilt = device->regs.txfilt & 0x3F;
- device->regs.rxfilt = device->regs.rxfilt & 0x3F;
+ _regs.txfilt = _regs.txfilt & 0x3F;
+ _regs.rxfilt = _regs.rxfilt & 0x3F;
/* Turn on the different chains based on the passed parameters. */
- if(tx1) { device->regs.txfilt = device->regs.txfilt | 0x40; }
- if(tx2) { device->regs.txfilt = device->regs.txfilt | 0x80; }
- if(rx1) { device->regs.rxfilt = device->regs.rxfilt | 0x40; }
- if(rx2) { device->regs.rxfilt = device->regs.rxfilt | 0x80; }
+ if (tx1) {
+ _regs.txfilt = _regs.txfilt | 0x40;
+ }
+ if (tx2) {
+ _regs.txfilt = _regs.txfilt | 0x80;
+ }
+ if (rx1) {
+ _regs.rxfilt = _regs.rxfilt | 0x40;
+ }
+ if (rx2) {
+ _regs.rxfilt = _regs.rxfilt | 0x80;
+ }
/* Check for FDD state */
uint8_t set_back_to_fdd = 0;
- uint8_t ensm_state = read_ad9361_reg(device, 0x017) & 0x0F;
+ uint8_t ensm_state = _io_iface->peek8(0x017) & 0x0F;
if (ensm_state == 0xA) // FDD
- {
+ {
/* Put into ALERT state (via the FDD flush state). */
- write_ad9361_reg(device, 0x014, 0x01);
+ _io_iface->poke8(0x014, 0x01);
set_back_to_fdd = 1;
}
/* Wait for FDD flush state to complete (if necessary) */
while (ensm_state == 0xA || ensm_state == 0xB)
- ensm_state = read_ad9361_reg(device, 0x017) & 0x0F;
+ ensm_state = _io_iface->peek8(0x017) & 0x0F;
/* Turn on / off the chains. */
- write_ad9361_reg(device, 0x002, device->regs.txfilt);
- write_ad9361_reg(device, 0x003, device->regs.rxfilt);
+ _io_iface->poke8(0x002, _regs.txfilt);
+ _io_iface->poke8(0x003, _regs.rxfilt);
/* Put back into FDD state if necessary */
if (set_back_to_fdd)
- write_ad9361_reg(device, 0x014, 0x21);
+ _io_iface->poke8(0x014, 0x21);
}
/* Tune the RX or TX frequency.
@@ -1818,17 +1805,16 @@ void set_active_chains(uint64_t handle, bool tx1, bool tx2, bool rx1, bool rx2)
* internal tune function.
*
* After tuning, it runs any appropriate calibrations. */
-double tune(uint64_t handle, int which, const double value) {
- ad9361_device_t* device = get_ad9361_device(handle);
-
- if(which == RX_TYPE) {
- if(freq_is_nearly_equal(value, device->req_rx_freq)) {
- return device->rx_freq;
+double ad9361_device_t::tune(direction_t direction, const double value)
+{
+ if (direction == RX) {
+ if (freq_is_nearly_equal(value, _req_rx_freq)) {
+ return _rx_freq;
}
- } else if(which == TX_TYPE) {
- if(freq_is_nearly_equal(value, device->req_tx_freq)) {
- return device->tx_freq;
+ } else if (direction == TX) {
+ if (freq_is_nearly_equal(value, _req_tx_freq)) {
+ return _tx_freq;
}
} else {
@@ -1838,30 +1824,30 @@ double tune(uint64_t handle, int which, const double value) {
/* If we aren't already in the ALERT state, we will need to return to
* the FDD state after tuning. */
int not_in_alert = 0;
- if((read_ad9361_reg(device, 0x017) & 0x0F) != 5) {
+ if ((_io_iface->peek8(0x017) & 0x0F) != 5) {
/* Force the device into the ALERT state. */
not_in_alert = 1;
- write_ad9361_reg(device, 0x014, 0x01);
+ _io_iface->poke8(0x014, 0x01);
}
/* Tune the RF VCO! */
- double tune_freq = tune_helper(device, which, value);
+ double tune_freq = _tune_helper(direction, value);
/* Run any necessary calibrations / setups */
- if(which == RX_TYPE) {
- program_gain_table(device);
+ if (direction == RX) {
+ _program_gain_table();
}
/* Update the gain settings. */
- program_gains(handle);
+ _reprogram_gains();
/* Run the calibration algorithms. */
- calibrate_tx_quadrature(device);
- calibrate_rx_quadrature(device);
+ _calibrate_tx_quadrature();
+ _calibrate_rx_quadrature();
/* If we were in the FDD state, return it now. */
- if(not_in_alert) {
- write_ad9361_reg(device, 0x014, 0x21);
+ if (not_in_alert) {
+ _io_iface->poke8(0x014, 0x21);
}
return tune_freq;
@@ -1873,10 +1859,9 @@ double tune(uint64_t handle, int which, const double value) {
* _not_ the gain index. This is the opposite of the eval software's GUI!
* Also note that the RX chains are done in terms of gain, and the TX chains
* are done in terms of attenuation. */
-double set_gain(uint64_t handle, int which, int n, const double value) {
- ad9361_device_t* device = get_ad9361_device(handle);
-
- if(which == RX_TYPE) {
+double ad9361_device_t::set_gain(direction_t direction, chain_t chain, const double value)
+{
+ if (direction == RX) {
/* Indexing the gain tables requires an offset from the requested
* amount of total gain in dB:
* < 1300MHz: dB + 5
@@ -1884,9 +1869,9 @@ double set_gain(uint64_t handle, int which, int n, const double value) {
* >= 4000MHz and <= 6000MHz: dB + 14
*/
int gain_offset = 0;
- if(device->rx_freq < 1300e6) {
+ if (_rx_freq < 1300e6) {
gain_offset = 5;
- } else if(device->rx_freq < 4000e6) {
+ } else if (_rx_freq < 4000e6) {
gain_offset = 3;
} else {
gain_offset = 14;
@@ -1895,105 +1880,42 @@ double set_gain(uint64_t handle, int which, int n, const double value) {
int gain_index = value + gain_offset;
/* Clip the gain values to the proper min/max gain values. */
- if(gain_index > 76) gain_index = 76;
- if(gain_index < 0) gain_index = 0;
-
- if(n == 1) {
- device->rx1_gain = value;
- write_ad9361_reg(device, 0x109, gain_index);
+ if (gain_index > 76)
+ gain_index = 76;
+ if (gain_index < 0)
+ gain_index = 0;
+
+ if (chain == CHAIN_1) {
+ _rx1_gain = value;
+ _io_iface->poke8(0x109, gain_index);
} else {
- device->rx2_gain = value;
- write_ad9361_reg(device, 0x10c, gain_index);
+ _rx2_gain = value;
+ _io_iface->poke8(0x10c, gain_index);
}
return gain_index - gain_offset;
} else {
/* Setting the below bits causes a change in the TX attenuation word
* to immediately take effect. */
- write_ad9361_reg(device, 0x077, 0x40);
- write_ad9361_reg(device, 0x07c, 0x40);
+ _io_iface->poke8(0x077, 0x40);
+ _io_iface->poke8(0x07c, 0x40);
/* Each gain step is -0.25dB. Calculate the attenuation necessary
* for the requested gain, convert it into gain steps, then write
* the attenuation word. Max gain (so zero attenuation) is 89.75. */
double atten = AD9361_MAX_GAIN - value;
int attenreg = atten * 4;
- if(n == 1) {
- device->tx1_gain = value;
- write_ad9361_reg(device, 0x073, attenreg & 0xFF);
- write_ad9361_reg(device, 0x074, (attenreg >> 8) & 0x01);
+ if (chain == CHAIN_1) {
+ _tx1_gain = value;
+ _io_iface->poke8(0x073, attenreg & 0xFF);
+ _io_iface->poke8(0x074, (attenreg >> 8) & 0x01);
} else {
- device->tx2_gain = value;
- write_ad9361_reg(device, 0x075, attenreg & 0xFF);
- write_ad9361_reg(device, 0x076, (attenreg >> 8) & 0x01);
+ _tx2_gain = value;
+ _io_iface->poke8(0x075, attenreg & 0xFF);
+ _io_iface->poke8(0x076, (attenreg >> 8) & 0x01);
}
- return AD9361_MAX_GAIN - ((double)(attenreg)/ 4);
+ return AD9361_MAX_GAIN - ((double) (attenreg) / 4);
}
}
-/* This function is responsible to dispatch the vendor request call
- * to the proper handler
- */
-
-void ad9361_dispatch(const char* vrb, char* vrb_out)
-{
- memcpy(vrb_out, vrb, AD9361_DISPATCH_PACKET_SIZE); //copy request to response memory
- tmp_req_buffer = vrb_out;
-
- //////////////////////////////////////////////
-
- double ret_val = 0.0;
- int mask = 0;
-
- const ad9361_transaction_t *request = (const ad9361_transaction_t *)vrb;
- ad9361_transaction_t *response = (ad9361_transaction_t *)vrb_out;
-
- //msg("[dispatch_vrq] action=%d", request->action);
- //msg("[dispatch_vrq] action=%f", (double)request->action);
-
- switch (request->action) {
- case AD9361_ACTION_ECHO:
- break; // nothing to do
- case AD9361_ACTION_INIT:
- init_ad9361(request->handle);
- break;
- case AD9361_ACTION_SET_RX1_GAIN:
- ret_val = set_gain(request->handle,RX_TYPE,1,ad9361_double_unpack(request->value.gain));
- ad9361_double_pack(ret_val, response->value.gain);
- break;
- case AD9361_ACTION_SET_TX1_GAIN:
- ret_val = set_gain(request->handle,TX_TYPE,1,ad9361_double_unpack(request->value.gain));
- ad9361_double_pack(ret_val, response->value.gain);
- break;
- case AD9361_ACTION_SET_RX2_GAIN:
- ret_val = set_gain(request->handle,RX_TYPE,2,ad9361_double_unpack(request->value.gain));
- ad9361_double_pack(ret_val, response->value.gain);
- break;
- case AD9361_ACTION_SET_TX2_GAIN:
- ret_val = set_gain(request->handle,TX_TYPE,2,ad9361_double_unpack(request->value.gain));
- ad9361_double_pack(ret_val, response->value.gain);
- break;
- case AD9361_ACTION_SET_RX_FREQ:
- ret_val = tune(request->handle,RX_TYPE, ad9361_double_unpack(request->value.freq));
- ad9361_double_pack(ret_val, response->value.freq);
- break;
- case AD9361_ACTION_SET_TX_FREQ:
- ret_val = tune(request->handle,TX_TYPE, ad9361_double_unpack(request->value.freq));
- ad9361_double_pack(ret_val, response->value.freq);
- break;
- case AD9361_ACTION_SET_CODEC_LOOP:
- data_port_loopback(request->handle,request->value.codec_loop != 0);
- break;
- case AD9361_ACTION_SET_CLOCK_RATE:
- ret_val = set_clock_rate(request->handle,ad9361_double_unpack(request->value.rate));
- ad9361_double_pack(ret_val, response->value.rate);
- break;
- case AD9361_ACTION_SET_ACTIVE_CHAINS:
- mask = request->value.enable_mask;
- set_active_chains(request->handle,mask & 1, mask & 2, mask & 4, mask & 8);
- break;
- default:
- post_err_msg("[ad9361_dispatch] NOT IMPLEMENTED");
- break;
- }
-}
+}}
diff --git a/host/lib/usrp/common/ad9361_driver/ad9361_platform.h b/host/lib/usrp/common/ad9361_driver/ad9361_platform.h
deleted file mode 100644
index 0444f3159..000000000
--- a/host/lib/usrp/common/ad9361_driver/ad9361_platform.h
+++ /dev/null
@@ -1,64 +0,0 @@
-//
-// Copyright 2014 Ettus Research LLC
-//
-
-#ifndef INCLUDED_AD9361_PLATFORM_H
-#define INCLUDED_AD9361_PLATFORM_H
-
-#include <stdint.h>
-#include "ad9361_device.h"
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-/*!
- * Get chip class from handle
- */
-ad9361_device_t* get_ad9361_device(uint64_t handle);
-
-/*!
- * Write a register in the AD9361 space
- */
-void write_ad9361_reg(ad9361_device_t* device, uint32_t reg, uint8_t val);
-
-/*!
- * Read a register from the AD9361 space
- */
-uint8_t read_ad9361_reg(ad9361_device_t* device, uint32_t reg);
-
-/*!
- * Millisecond sleep
- */
-void ad9361_msleep(const uint32_t millis);
-
-/*!
- * Pack a double into 2 uint32s
- */
-void ad9361_double_pack(const double input, uint32_t output[2]);
-
-/*!
- * Unpack 2 uint32s into a double
- */
-double ad9361_double_unpack(const uint32_t input[2]);
-
-/*!
- * Compute the square root of val
- */
-double ad9361_sqrt(double val);
-
-/*!
- * Compute the floor of val
- */
-int ad9361_floor_to_int(double val);
-
-/*!
- * Compute the ceil of val
- */
-int ad9361_ceil_to_int(double val);
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif /* INCLUDED_AD9361_PLATFORM_H */
diff --git a/host/lib/usrp/common/ad9361_driver/ad9361_transaction.h b/host/lib/usrp/common/ad9361_driver/ad9361_transaction.h
deleted file mode 100644
index 06541d2ee..000000000
--- a/host/lib/usrp/common/ad9361_driver/ad9361_transaction.h
+++ /dev/null
@@ -1,77 +0,0 @@
-//
-// Copyright 2014 Ettus Research LLC
-//
-
-#ifndef INCLUDED_AD9361_TRANSACTION_H
-#define INCLUDED_AD9361_TRANSACTION_H
-
-#include <stdint.h>
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-//various constants
-#define AD9361_TRANSACTION_VERSION 0x5
-#define AD9361_DISPATCH_PACKET_SIZE 64
-
-//action types
-#define AD9361_ACTION_ECHO 0
-#define AD9361_ACTION_INIT 1
-#define AD9361_ACTION_SET_RX1_GAIN 2
-#define AD9361_ACTION_SET_TX1_GAIN 3
-#define AD9361_ACTION_SET_RX2_GAIN 4
-#define AD9361_ACTION_SET_TX2_GAIN 5
-#define AD9361_ACTION_SET_RX_FREQ 6
-#define AD9361_ACTION_SET_TX_FREQ 7
-#define AD9361_ACTION_SET_CODEC_LOOP 8
-#define AD9361_ACTION_SET_CLOCK_RATE 9
-#define AD9361_ACTION_SET_ACTIVE_CHAINS 10
-
-typedef struct
-{
- //version is expected to be AD9361_TRANSACTION_VERSION
- //check otherwise for compatibility
- uint32_t version;
-
- //sequence number - increment every call for sanity
- uint32_t sequence;
-
- //location info for the ad9361 chip class
- uint64_t handle;
-
- //action tells us what to do, see AD9361_ACTION_*
- uint32_t action;
-
- union
- {
- //enable mask for chains
- uint32_t enable_mask;
-
- //true to enable codec internal loopback
- uint32_t codec_loop;
-
- //freq holds request LO freq and result from tune
- uint32_t freq[2];
-
- //gain holds request gain and result from action
- uint32_t gain[2];
-
- //rate holds request clock rate and result from action
- uint32_t rate[2];
-
- } value;
-
- //error message comes back as a reply -
- //set to null string for no error \0
- char error_msg[];
-
-} ad9361_transaction_t;
-
-#define AD9361_TRANSACTION_MAX_ERROR_MSG (AD9361_DISPATCH_PACKET_SIZE - (sizeof(ad9361_transaction_t)-4)-1) // -4 for 'error_msg' alignment padding, -1 for terminating \0
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif /* INCLUDED_AD9361_TRANSACTION_H */
diff --git a/host/lib/usrp/common/ad9361_platform_uhd.cpp b/host/lib/usrp/common/ad9361_platform_uhd.cpp
deleted file mode 100644
index 10ea67345..000000000
--- a/host/lib/usrp/common/ad9361_platform_uhd.cpp
+++ /dev/null
@@ -1,86 +0,0 @@
-//
-// Copyright 2014 Ettus Research LLC
-//
-
-#include <uhd/utils/msg.hpp>
-#include <cmath>
-#include <cstdlib>
-#include <cstring>
-#include <stdint.h>
-#include <ad9361_platform.h>
-#include "ad9361_ctrl.hpp"
-#include <stdio.h>
-#include <boost/date_time/posix_time/posix_time.hpp>
-#include <boost/thread/thread.hpp>
-
-//If the platform for the AD9361 driver is UHD (host) then the handle is simply
-//a pointer to a device class instance
-ad9361_device_t* get_ad9361_device(uint64_t handle)
-{
- return reinterpret_cast<ad9361_device_t*>(reinterpret_cast<void*>(handle));
-}
-
-uint8_t read_ad9361_reg(ad9361_device_t* device, uint32_t reg)
-{
- if (device && device->io_iface) {
- //If the platform for the AD9361 driver is UHD (host) then the io_iface is
- //a pointer to a ad9361_io implementation
- ad9361_io* io_iface = reinterpret_cast<ad9361_io*>(device->io_iface);
- return io_iface->peek8(reg);
- } else {
- return 0;
- }
-}
-
-void write_ad9361_reg(ad9361_device_t* device, uint32_t reg, uint8_t val)
-{
- if (device && device->io_iface) {
- //If the platform for the AD9361 driver is UHD (host) then the io_iface is
- //a pointer to a ad9361_io implementation
- ad9361_io* io_iface = reinterpret_cast<ad9361_io*>(device->io_iface);
- io_iface->poke8(reg, val);
- }
-}
-
-typedef union
-{
- double d;
- uint32_t x[2];
-} ad9361_double_union_t;
-
-void ad9361_double_pack(const double input, uint32_t output[2])
-{
- ad9361_double_union_t p = {};
- p.d = input;
- output[0] = p.x[0];
- output[1] = p.x[1];
-}
-
-double ad9361_double_unpack(const uint32_t input[2])
-{
- ad9361_double_union_t p = {};
- p.x[0] = input[0];
- p.x[1] = input[1];
- return p.d;
-}
-
-double ad9361_sqrt(double val)
-{
- return std::sqrt(val);
-}
-
-void ad9361_msleep(const uint32_t millis)
-{
- boost::this_thread::sleep(boost::posix_time::milliseconds(millis));
-}
-
-int ad9361_floor_to_int(double val)
-{
- return static_cast<int>(std::floor(val));
-}
-
-int ad9361_ceil_to_int(double val)
-{
- return static_cast<int>(std::ceil(val));
-}
-