1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
|
import sys
import os
from ctypes import *
from ctypes.util import find_library
def load_libairspyhf():
if sys.platform == "linux" and 'LD_LIBRARY_PATH' in os.environ.keys():
ld_library_paths = [local_path for local_path in os.environ['LD_LIBRARY_PATH'].split(':') if local_path.strip()]
if "AIRSPYHF_TEST_PATH" in os.environ:
ld_library_paths = [os.environ["AIRSPYHF_TEST_PATH"]]
driver_files = [local_path + '/libairspyhf.so' for local_path in ld_library_paths]
else:
driver_files = []
driver_files += ['libairspyhf.so']
driver_files += ['airspyhf.dll', 'libairspyhf.so', 'libairspyhf.dylib']
driver_files += ['..//airspyhf.dll', '..//libairspyhf.so']
driver_files += [lambda : find_library('airspyhf'), lambda : find_library('libairspyhf')]
dll = None
for driver in driver_files:
if callable(driver):
driver = driver()
if driver is None:
continue
#print("Search for driver named %s"%(driver))
try:
dll = CDLL(driver)
break
except:
pass
else:
raise ImportError('Error loading libairspyhf. Make sure libairspyhf '\
'(and all of its dependencies) are in your path')
return dll
libairspyhf = load_libairspyhf()
#typedef struct {
# uint32_t major_version;
# uint32_t minor_version;
# uint32_t revision;
#} airspyhf_lib_version_t;
airspyhf_device_t_p = c_void_p
class airspyhf_lib_version_t(Structure):
_fields_ = [("major_version", c_uint32),
("minor_version", c_uint32),
("revision", c_uint32)]
class airspyhf_complex_float_t(Structure):
_fields_ = [("re",c_float),
("im",c_float)]
airspyhf_complex_float_t_p = POINTER(airspyhf_complex_float_t)
class airspyhf_transfer_t(Structure):
_fields_ = [("device",airspyhf_device_t_p),
("ctx",c_void_p),
("samples",airspyhf_complex_float_t_p),
("sample_count",c_int),
("dropped_samples",c_uint64)]
airspyhf_transfer_t_p = POINTER(airspyhf_transfer_t)
#airspyhf_transfer_t_p = c_void_p
#typedef int (*airspyhf_sample_block_cb_fn) (airspyhf_transfer_t* transfer_fn);
#airspyhf_sample_block_cb_fn = CFUNCTYPE(c_int, POINTER(airspyhf_transfer_t))
airspyhf_sample_block_cb_fn = PYFUNCTYPE(c_int, POINTER(airspyhf_transfer_t))
#void ADDCALL airspyhf_lib_version(airspyhf_lib_version_t* lib_version);
f = libairspyhf.airspyhf_lib_version
f.restype, f.argtypes = None, [POINTER(airspyhf_lib_version_t)]
#int ADDCALL airspyhf_list_devices(uint64_t *serials, int count);
f = libairspyhf.airspyhf_list_devices
f.restype, f.argtypes = c_int, [POINTER(c_uint64), c_int]
#int ADDCALL airspyhf_open(airspyhf_device_t** device);
f = libairspyhf.airspyhf_open
f.restype, f.argtypes = c_int, [POINTER(airspyhf_device_t_p)]
#int ADDCALL airspyhf_open_sn(airspyhf_device_t** device, uint64_t serial_number);
f = libairspyhf.airspyhf_open_sn
f.restype, f.argtypes = c_int, [POINTER(airspyhf_device_t_p), c_uint64]
#int ADDCALL airspyhf_open_fd(airspyhf_device_t** device, int fd);
f = libairspyhf.airspyhf_open_fd
f.restype, f.argtypes = c_int, [POINTER(airspyhf_device_t_p), c_int]
#int ADDCALL airspyhf_close(airspyhf_device_t* device);
f = libairspyhf.airspyhf_close
f.restype, f.argtypes = c_int, [airspyhf_device_t_p]
#nt ADDCALL airspyhf_get_output_size(airspyhf_device_t* device); /* Returns the number of IQ samples to expect in the callback */
f = libairspyhf.airspyhf_get_output_size
f.restype, f.argtypes = c_int, [airspyhf_device_t_p]
#int ADDCALL airspyhf_start(airspyhf_device_t* device, airspyhf_sample_block_cb_fn callback, void* ctx);
f = libairspyhf.airspyhf_start
f.restype, f.argtypes = c_int, [airspyhf_device_t_p,airspyhf_sample_block_cb_fn,py_object]
#int ADDCALL airspyhf_stop(airspyhf_device_t* device);
f = libairspyhf.airspyhf_stop
f.restype, f.argtypes = c_int, [airspyhf_device_t_p]
#int ADDCALL airspyhf_is_streaming(airspyhf_device_t* device);
f = libairspyhf.airspyhf_is_streaming
f.restype, f.argtypes = c_int, [airspyhf_device_t_p]
#int ADDCALL airspyhf_is_low_if(airspyhf_device_t* device); /* Tells if the current sample rate is Zero-IF (0) or Low-IF (1) */
f = libairspyhf.airspyhf_is_low_if
f.restype, f.argtypes = c_int, [airspyhf_device_t_p]
#int ADDCALL airspyhf_set_freq(airspyhf_device_t* device, const uint32_t freq_hz);
f = libairspyhf.airspyhf_set_freq
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_uint32]
#int ADDCALL airspyhf_set_freq_double(airspyhf_device_t* device, const double freq_hz);
f = libairspyhf.airspyhf_set_freq_double
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_double]
#int ADDCALL airspyhf_set_lib_dsp(airspyhf_device_t* device, const uint8_t flag); /* Enables/Disables the IQ Correction, IF shift and Fine Tuning. */
f = libairspyhf.airspyhf_set_lib_dsp
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_uint8]
#int ADDCALL airspyhf_get_samplerates(airspyhf_device_t* device, uint32_t* buffer, const uint32_t len);
f = libairspyhf.airspyhf_get_samplerates
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, POINTER(c_uint32), c_uint32]
#int ADDCALL airspyhf_set_samplerate(airspyhf_device_t* device, uint32_t samplerate);
f = libairspyhf.airspyhf_set_samplerate
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_uint32]
#int ADDCALL airspyhf_get_calibration(airspyhf_device_t* device, int32_t* ppb);
f = libairspyhf.airspyhf_get_calibration
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, POINTER(c_int32)]
#int ADDCALL airspyhf_set_calibration(airspyhf_device_t* device, int32_t ppb);
f = libairspyhf.airspyhf_set_calibration
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_int32]
#int ADDCALL airspyhf_get_vctcxo_calibration(airspyhf_device_t* device, uint16_t* vc);
f = libairspyhf.airspyhf_get_vctcxo_calibration
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, POINTER(c_uint16)]
#int ADDCALL airspyhf_set_vctcxo_calibration(airspyhf_device_t* device, uint16_t vc);
f = libairspyhf.airspyhf_set_vctcxo_calibration
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_uint16]
#int ADDCALL airspyhf_set_optimal_iq_correction_point(airspyhf_device_t* device, float w);
f = libairspyhf.airspyhf_set_optimal_iq_correction_point
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_float]
#int ADDCALL airspyhf_iq_balancer_configure(airspyhf_device_t* device, int buffers_to_skip, int fft_integration, int fft_overlap, int correlation_integration);
f = libairspyhf.airspyhf_iq_balancer_configure
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_int, c_int, c_int, c_int]
#int ADDCALL airspyhf_flash_calibration(airspyhf_device_t* device); /* streaming needs to be stopped */
f = libairspyhf.airspyhf_flash_calibration
f.restype, f.argtypes = c_int, [airspyhf_device_t_p]
#int ADDCALL airspyhf_board_partid_serialno_read(airspyhf_device_t* device, airspyhf_read_partid_serialno_t* read_partid_serialno);
#f = libairspyhf.airspyhf_board_partid_serialno_read(
#f.restype, f.argtypes = c_int, [airspyhf_device_t_p]
#int ADDCALL airspyhf_version_string_read(airspyhf_device_t* device, char* version, uint8_t length);
f = libairspyhf.airspyhf_version_string_read
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_char_p, c_uint8]
#int ADDCALL airspyhf_set_user_output(airspyhf_device_t* device, airspyhf_user_output_t pin, airspyhf_user_output_state_t value);
#int ADDCALL airspyhf_set_hf_agc(airspyhf_device_t* device, uint8_t flag); /* 0 = off, 1 = on */
f = libairspyhf.airspyhf_set_hf_agc
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_uint8]
#int ADDCALL airspyhf_set_hf_agc_threshold(airspyhf_device_t* device, uint8_t flag); /* when agc on: 0 = low, 1 = high */
f = libairspyhf.airspyhf_set_hf_agc_threshold
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_uint8]
#int ADDCALL airspyhf_set_hf_att(airspyhf_device_t* device, uint8_t value); /* Possible values: 0..8 Range: 0..48 dB Attenuation with 6 dB steps */
f = libairspyhf.airspyhf_set_hf_att
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_uint8]
#int ADDCALL airspyhf_set_hf_lna(airspyhf_device_t* device, uint8_t flag); /* 0 or 1: 1 to activate LNA (alias PreAmp): 1 = +6 dB gain - compensated in digital */
f = libairspyhf.airspyhf_set_hf_lna
f.restype, f.argtypes = c_int, [airspyhf_device_t_p, c_uint8]
__all__ = ["libairspyhf", "airspyhf_lib_version_t", "airspyhf_device_t_p", "airspyhf_sample_block_cb_fn", "airspyhf_complex_float_t_p", "airspyhf_transfer_t_p"]
|
