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Elphel
x393
Commits
52dc825d
Commit
52dc825d
authored
Oct 24, 2016
by
Andrey Filippov
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python code to control/simulate event logger
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x393_logger.py
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52dc825d
from
__future__
import
division
from
__future__
import
print_function
'''
# Copyright (C) 2016, Elphel.inc.
# Class to control event logger module
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http:#www.gnu.org/licenses/>.
@author: Andrey Filippov
@copyright: 2015 Elphel, Inc.
@license: GPLv3.0+
@contact: andrey@elphel.coml
@deffield updated: Updated
'''
__author__
=
"Andrey Filippov"
__copyright__
=
"Copyright 2015, Elphel, Inc."
__license__
=
"GPL"
__version__
=
"3.0+"
__maintainer__
=
"Andrey Filippov"
__email__
=
"andrey@elphel.com"
__status__
=
"Development"
#import sys
#import pickle
import
struct
from
x393_mem
import
X393Mem
import
x393_axi_control_status
import
x393_gpio
import
x393_utils
#import time
import
vrlg
# parameter SYNC_BIT_LENGTH=8-1; /// 7 pixel clock pulses
# SYNC_BIT_LENGTH=8-1 # 7 pixel clock pulses
MEM_PATH
=
'/sys/devices/soc0/elphel393-mem@0/'
BUFFER_ADDRESS_LOGGER_NAME
=
'buffer_address_logger'
BUFFER_PAGES_LOGGER_NAME
=
'buffer_pages_logger'
PAGE_SIZE
=
4096
# For simulation
BUFFER_ADDRESS_LOGGER
=
0x2d000000
BUFFER_LEN_LOGGER
=
1024
*
PAGE_SIZE
class
X393Logger
(
object
):
DRY_MODE
=
True
# True
DEBUG_MODE
=
1
ADDR_REG
=
1
DATA_REG
=
0
PCA9500_PP_ADDR
=
0x40
#< PCA9500 i2c slave addr for the parallel port (read will be 0x41)
SLOW_SPI
=
26
# just for the driver, not written to FPGA (was 23 for NC353)
I2C_SA3
=
28
#Low 3 bits of the SA7 of the PCA9500 slave address
# X313_IMU_PERIOD_ADDR = 0x0 # request period for IMU (in SPI bit periods)
# X313_IMU_DIVISOR_ADDR = 0x1 # xclk (80MHz) clock divisor for half SPI bit period 393: clock is Now clock is logger_clk=100MHz (200 MHz?)
# X313_IMU_RS232DIV_ADDR = 0x2 # serial gps bit duration in xclk (80MHz) periods - 16 bits
# X313_IMU_CONFIGURE_ADDR = 0x3 # IMU logger configuration
X313_IMU_REGISTERS_ADDR
=
0x4
X313_IMU_NMEA_FORMAT_ADDR
=
0x20
X313_IMU_MESSAGE_ADDR
=
0x40
#40..4f, only first 0xe visible
#// offsets in the file (during write)
X313_IMU_PERIOD_OFFS
=
0x0
X313_IMU_DIVISOR_OFFS
=
0x4
X313_IMU_RS232DIV_OFFS
=
0x8
X313_IMU_CONFIGURE_OFFS
=
0xc
X313_IMU_SLEEP_OFFS
=
0x10
X313_IMU_REGISTERS_OFFS
=
0x14
# .. 0x2f
X313_IMU_NMEA_FORMAT_OFFS
=
0x30
X313_IMU_MESSAGE_OFFS
=
0xB0
# 0xB0..0xE7
WHICH_INIT
=
1
WHICH_RESET
=
2
WHICH_RESET_SPI
=
4
WHICH_DIVISOR
=
8
WHICH_RS232DIV
=
16
WHICH_NMEA
=
32
WHICH_CONFIG
=
64
WHICH_REGISTERS
=
128
WHICH_MESSAGE
=
256
WHICH_PERIOD
=
512
WHICH_EN_DMA
=
1024
WHICH_EN_LOGGER
=
2048
x393_mem
=
None
x393_axi_tasks
=
None
#x393X393AxiControlStatus
X393_gpio
=
None
x393_utils
=
None
verbose
=
1
def
__init__
(
self
,
debug_mode
=
1
,
dry_mode
=
True
,
saveFileName
=
None
):
global
BUFFER_ADDRESS_LOGGER
,
BUFFER_LEN_LOGGER
self
.
DEBUG_MODE
=
debug_mode
self
.
DRY_MODE
=
dry_mode
self
.
x393_mem
=
X393Mem
(
debug_mode
,
dry_mode
)
self
.
x393_axi_tasks
=
x393_axi_control_status
.
X393AxiControlStatus
(
debug_mode
,
dry_mode
)
self
.
x393_utils
=
x393_utils
.
X393Utils
(
debug_mode
,
dry_mode
,
saveFileName
)
# should not overwrite save file path
self
.
X393_gpio
=
x393_gpio
.
X393GPIO
(
debug_mode
,
dry_mode
,
saveFileName
)
try
:
self
.
verbose
=
vrlg
.
VERBOSE
except
:
pass
if
dry_mode
:
print
(
"Running in simulated mode, using hard-coded addresses:"
)
else
:
try
:
with
open
(
MEM_PATH
+
BUFFER_ADDRESS_LOGGER_NAME
)
as
sysfile
:
BUFFER_ADDRESS_LOGGER
=
int
(
sysfile
.
read
(),
0
)
with
open
(
MEM_PATH
+
BUFFER_PAGES_LOGGER_NAME
)
as
sysfile
:
BUFFER_LEN_LOGGER
=
PAGE_SIZE
*
int
(
sysfile
.
read
(),
0
)
except
:
print
(
"Failed to get reserved physical memory range"
)
print
(
'BUFFER_ADDRESS_LOGGER='
,
BUFFER_ADDRESS_LOGGER
)
print
(
'BUFFER_LEN_LOGGER='
,
BUFFER_LEN_LOGGER
)
return
print
(
'BUFFER_ADDRESS_LOGGER=0x
%
x'
%
(
BUFFER_ADDRESS_LOGGER
))
print
(
'BUFFER_LEN_LOGGER=0x
%
x'
%
(
BUFFER_LEN_LOGGER
))
"""
/** Initialize FPGA DMA engine for the logger. Obviously requires bitstream to be loaded. */
int logger_init_fpga(int force) ///< if 0, only do if not already initialized
{
x393_status_ctrl_t logger_status_ctrl= {.d32 = 0};
x393_status_ctrl_t mult_saxi_status_ctrl= {.d32 = 0};
x393_mult_saxi_al_t mult_saxi_a= {.d32=0};
x393_mult_saxi_al_t mult_saxi_l= {.d32=0};
x393_mult_saxi_irqlen_t mult_saxi_irqlen= {.d32=0};
if (logger_fpga_configured && !force) return 0; // Already initialized
mult_saxi_a.addr32 = logger_phys >> 2; // in DWORDs
x393_mult_saxi_buf_address(mult_saxi_a, MULT_SAXI_CHN);
mult_saxi_l.addr32 = logger_size >> 2;
x393_mult_saxi_buf_len (mult_saxi_l, MULT_SAXI_CHN);
mult_saxi_irqlen.irqlen = LOGGER_IRQ_DW_BIT;
x393_mult_saxi_irqlen (mult_saxi_irqlen, MULT_SAXI_CHN);
logger_status_ctrl.mode = LOGGER_STATUS_MODE;
set_x393_logger_status_ctrl(logger_status_ctrl);
if (MULT_SAXI_STATUS_MODE) { // do not set (overwrite other channels if 0)
mult_saxi_status_ctrl.mode = MULT_SAXI_STATUS_MODE;
set_x393_mult_saxi_status_ctrl(mult_saxi_status_ctrl);
}
// resets (do once?)
logger_dma_ctrl(0); ///reset DMA
#if LOGGER_USE_IRQ
logger_irq_cmd(X393_IRQ_RESET);
logger_irq_cmd(X393_IRQ_ENABLE);
#endif /* LOGGER_USE_IRQ */
logger_fpga_configured = 1;
return 0;
}
"""
def
logger_init_fpga
(
self
,
force
=
False
,
irqlen
=
4
,
chn
=
0
):
"""
Initialize DMA channel for the event logger
@param irqlen [ 4: 0] (0) lowest DW address bit that has to change to generate interrupt
@param force if False only do if not yet done
@param chn - mult_saxi channel (0..3), currently connected is 0
"""
print
(
"logger_init_fpga"
)
if
not
force
:
if
self
.
x393_axi_tasks
.
read_control_register
(
vrlg
.
MULT_SAXI_ADDR
+
2
*
chn
):
return
print
(
"write_control_register 0x
%
x 0x
%
x"
%
(
vrlg
.
MULT_SAXI_ADDR
+
2
*
chn
,
BUFFER_ADDRESS_LOGGER
>>
2
))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
MULT_SAXI_ADDR
+
2
*
chn
,
BUFFER_ADDRESS_LOGGER
>>
2
)
print
(
"write_control_register 0x
%
x 0x
%
x"
%
(
vrlg
.
MULT_SAXI_ADDR
+
2
*
chn
+
1
,
BUFFER_LEN_LOGGER
>>
2
))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
MULT_SAXI_ADDR
+
2
*
chn
+
1
,
BUFFER_LEN_LOGGER
>>
2
)
print
(
"write_control_register 0x
%
x 0x
%
x"
%
(
vrlg
.
MULT_SAXI_IRQLEN_ADDR
+
chn
,
irqlen
))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
MULT_SAXI_IRQLEN_ADDR
+
chn
,
irqlen
)
print
(
"program_status 0x
%
x 0x
%
x 3 0"
%
(
vrlg
.
MULT_SAXI_CNTRL_ADDR
,
vrlg
.
MULT_SAXI_CNTRL_STATUS
))
self
.
x393_axi_tasks
.
program_status
(
vrlg
.
MULT_SAXI_CNTRL_ADDR
,
vrlg
.
MULT_SAXI_CNTRL_STATUS
,
3
,
0
)
# auto update
def
logger_dma_ctrl
(
self
,
mode
,
chn
=
0
):
"""
Control dma for channel (the only channel)
@param mode: 0 - reset, 1 - enable/pause, 2 - reset
@param chn - mult_saxi channel (0..3), currently connected is 0
"""
print
(
"logger_dma_ctrl"
)
if
mode
==
0
:
d
=
0
elif
mode
==
1
:
d
=
0x1
<<
chn
elif
mode
==
2
:
d
=
0x11
<<
chn
else
:
raise
Exception
(
"mode should be 0 (reset), 1 - pause or 2 - run"
)
print
(
"write_control_register 0x
%
x 0x
%
x"
%
(
vrlg
.
MULT_SAXI_CNTRL_ADDR
+
vrlg
.
MULT_SAXI_CNTRL_MODE
,
d
))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
MULT_SAXI_CNTRL_ADDR
+
vrlg
.
MULT_SAXI_CNTRL_MODE
,
d
)
def
logger_interrupt_control
(
self
,
cntrl
=
"clr"
,
chn
=
0
):
"""
Control logger interrupts
@param cntrl - "clr" - clear, "en" - enable, "dis" - disable
@param chn - compressor channel number, "a" or "all" - same for all 4 channels
"""
print
(
"logger_interrupt_control"
)
if
cntrl
.
lower
()
==
"clr"
:
data
=
1
elif
cntrl
.
lower
()
==
"dis"
:
data
=
2
elif
cntrl
.
lower
()
==
"en"
:
data
=
3
else
:
raise
Exception
(
"logger_interrupt_control(): invalid control mode:
%
s, only 'clr', 'en' and 'dis' are accepted"
%
(
str
(
cntrl
)))
print
(
"write_control_register 0x
%
x 0x
%
x"
%
(
vrlg
.
MULT_SAXI_CNTRL_ADDR
+
vrlg
.
MULT_SAXI_CNTRL_IRQ
,
data
<<
(
2
*
chn
)))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
MULT_SAXI_CNTRL_ADDR
+
vrlg
.
MULT_SAXI_CNTRL_IRQ
,
data
<<
(
2
*
chn
))
def
logger_reset
(
self
,
rst
):
"""
Reset logger module
@param rst: 1 - reset, 0 - normal operation
"""
print
(
"need to stop logger DMA if it is running"
)
print
(
"Resetting logger"
)
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
ADDR_REG
,
vrlg
.
LOGGER_CONFIG
);
data
=
(
2
,
3
)[
rst
]
<<
(
vrlg
.
LOGGER_CONF_EN
-
vrlg
.
LOGGER_CONF_EN_BITS
)
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
DATA_REG
,
data
);
def
logger_init
(
self
,
config
):
"""
Init logger module
@param config - configuration word (only non-FPGA bit fields are processed)
"""
print
(
"Enabling I/O pins for IMU"
)
data
=
3
<<
6
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
GPIO_ADDR
+
vrlg
.
GPIO_SET_PINS
,
data
<<
vrlg
.
GPIO_PORTEN
)
i2c_sa8
=
self
.
PCA9500_PP_ADDR
+
(((
config
>>
self
.
I2C_SA3
)
&
0x7
)
<<
1
)
# Here 8-bit is needed, not SA7
enable_IMU
=
(
0xff
,
0xfd
)[(
config
>>
self
.
SLOW_SPI
)
&
1
]
# bit[0] - reset IMU
i2c_err
=
0
print
(
"Supposed (not yet implemented) to send i2c command in raw mode - address=0x
%
x, data=0x
%
x, result=0x
%
x
\n
"
%
(
i2c_sa8
,
enable_IMU
,
i2c_err
))
self
.
logger_init_fpga
(
force
=
False
,
irqlen
=
4
,
chn
=
0
)
self
.
logger_interrupt_control
(
cntrl
=
"en"
,
chn
=
0
)
def
logger_reset_spi
(
self
):
"""
Reset IMU SPI
"""
print
(
"Resetting IMU SPI"
)
self
.
logger_set_period
(
0
)
def
logger_set_period
(
self
,
period
):
"""
Set SPI clock divisor
@param period: IMU update period (0xffff - automatic, when IMU is ready)
"""
print
(
"Setting IMU update period = 0x
%
x"
%
(
period
))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
ADDR_REG
,
vrlg
.
LOGGER_PERIOD
)
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
DATA_REG
,
period
)
def
logger_set_divisor
(
self
,
divisor
):
"""
Set SPI clock divisor
@param divisor: clock divisor for SPI from 100MHz (divisor -1 will be written to FPGA)
"""
print
(
"Setting SPI clock divisor (decremented) value = 0x
%
x"
%
(
divisor
-
1
))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
ADDR_REG
,
vrlg
.
LOGGER_BIT_DURATION
)
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
DATA_REG
,
divisor
-
1
)
def
logger_set_rs232div
(
self
,
divisor
):
"""
Set RS232 clock divisor
@param divisor: clock divisor for 1/2 RS232 sample period from 100MHz (divisor -1 will be written to FPGA)
"""
print
(
"Setting RS232 clock divisor (decremented) value = 0x
%
x"
%
(
divisor
-
1
))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
ADDR_REG
,
vrlg
.
LOGGER_BIT_HALF_PERIOD
)
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
DATA_REG
,
divisor
-
1
)
def
zterm
(
self
,
l
):
return
''
.
join
(
l
[:
l
.
index
(
chr
(
0
))])
def
logger_set_nmea
(
self
,
nmea_format
):
"""
Set RS232 clock divisor
@param nmea_format: encoded NMEA sentences as a string
"""
# int nmea_sel[16];
# int nmea_fpga_frmt[16];
nmea_chars
=
list
(
nmea_format
)
nmea_sel
=
[
0
]
*
16
nmea_fpga_frmt
=
[
0
]
*
16
for
n
in
range
(
4
):
nmea_chars
[
32
*
n
+
27
]
=
0
;
# just in case
print
(
"Setting NMEA sentence format for $GP
%
s"
%
(
self
.
zterm
(
nmea_chars
[
32
*
n
:])))
print
(
"(0x
%
x, 0x
%
x, 0x
%
x
\n
"
%
(
ord
(
nmea_chars
[
32
*
n
]),
ord
(
nmea_chars
[
32
*
n
+
1
]),
ord
(
nmea_chars
[
32
*
n
+
2
])));
f
=
0
;
for
i
in
range
(
2
,
-
1
,
-
1
):
b
=
ord
(
nmea_chars
[
32
*
n
+
i
])
# first 3 letters in each sentence
print
(
"n=
%
d, i=
%
d, b=0x
%
x"
%
(
n
,
i
,
b
))
for
j
in
range
(
4
,
-
1
,
-
1
):
# (j=4; j>=0; j--) {
f
<<=
1
;
if
((
b
&
(
1
<<
j
))
!=
0
):
f
+=
1
print
(
"n=
%
d, f=0x
%
x"
%
(
n
,
f
))
for
i
in
range
(
15
):
if
((
f
&
(
1
<<
i
))
!=
0
):
nmea_sel
[
i
]
|=
(
1
<<
n
);
f
=
0
nmea_fpga_frmt
[
n
*
4
]
=
0
;
#for (i=0; (i<24) && (nmea_format[32*n+3+i]!=0);i++ ) {
for
i
in
range
(
24
):
if
nmea_chars
[
32
*
n
+
3
+
i
]
==
chr
(
0
):
break
b
=
nmea_chars
[
32
*
n
+
3
+
i
]
if
(
b
==
'b'
)
or
(
b
==
'B'
):
f
|=
(
1
<<
i
);
nmea_fpga_frmt
[
n
*
4
]
+=
1
nmea_fpga_frmt
[
n
*
4
+
1
]
=
f
&
0xff
;
nmea_fpga_frmt
[
n
*
4
+
2
]
=
(
f
>>
8
)
&
0xff
;
nmea_fpga_frmt
[
n
*
4
+
3
]
=
(
f
>>
16
)
&
0xff
;
print
(
"Selection data is
%
x
%
x
%
x
%
x
%
x
%
x
%
x
%
x
%
x
%
x
%
x
%
x
%
x
%
x
%
x"
%
(
nmea_sel
[
0
],
nmea_sel
[
1
],
nmea_sel
[
2
],
nmea_sel
[
3
],
nmea_sel
[
4
],
nmea_sel
[
5
],
nmea_sel
[
6
],
nmea_sel
[
7
],
nmea_sel
[
8
],
nmea_sel
[
9
],
nmea_sel
[
10
],
nmea_sel
[
11
],
nmea_sel
[
12
],
nmea_sel
[
13
],
nmea_sel
[
14
]))
print
(
"Format data for sentence 1 is
%02
x
%02
x
%02
x
%02
x
\n
"
%
(
nmea_fpga_frmt
[
0
],
nmea_fpga_frmt
[
1
],
nmea_fpga_frmt
[
2
],
nmea_fpga_frmt
[
3
]))
print
(
"Format data for sentence 2 is
%02
x
%02
x
%02
x
%02
x
\n
"
%
(
nmea_fpga_frmt
[
4
],
nmea_fpga_frmt
[
5
],
nmea_fpga_frmt
[
6
],
nmea_fpga_frmt
[
7
]))
print
(
"Format data for sentence 3 is
%02
x
%02
x
%02
x
%02
x
\n
"
%
(
nmea_fpga_frmt
[
8
],
nmea_fpga_frmt
[
9
],
nmea_fpga_frmt
[
10
],
nmea_fpga_frmt
[
11
]))
print
(
"Format data for sentence 4 is
%02
x
%02
x
%02
x
%02
x
\n
"
%
(
nmea_fpga_frmt
[
12
],
nmea_fpga_frmt
[
13
],
nmea_fpga_frmt
[
14
],
nmea_fpga_frmt
[
15
]))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
ADDR_REG
,
self
.
X313_IMU_NMEA_FORMAT_ADDR
);
for
i
in
range
(
16
):
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
DATA_REG
,
nmea_sel
[
i
])
print
(
"Loaded imu fpga register 0x
%
x with 0x
%
x"
%
(
self
.
X313_IMU_NMEA_FORMAT_ADDR
+
i
,
nmea_sel
[
i
]
))
for
i
in
range
(
16
):
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
DATA_REG
,
nmea_fpga_frmt
[
i
])
print
(
"Loaded imu fpga register 0x
%
x with 0x
%
x"
%
(
self
.
X313_IMU_NMEA_FORMAT_ADDR
+
i
+
16
,
nmea_fpga_frmt
[
i
]))
def
logger_config
(
self
,
config
):
"""
Write configuration word to logger module
@param config - logger configuration word
"""
print
(
"Writing logger configuration word: 0x
%08
x to register 0x
%
x"
%
(
config
&
0x3ffffff
,
vrlg
.
LOGGER_CONFIG
))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
ADDR_REG
,
vrlg
.
LOGGER_CONFIG
);
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
DATA_REG
,
config
&
0x3ffffff
);
def
logger_registers
(
self
,
registers
):
"""
Specify IMU registers to log data for
@param registers - list of IMU register addresses to write to the logger
"""
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
ADDR_REG
,
self
.
X313_IMU_REGISTERS_ADDR
);
for
i
,
c
in
enumerate
(
registers
):
d
=
ord
(
c
)
print
(
"
%
d: logging IMU register with 0x
%
lx"
%
(
i
+
1
,
d
))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
DATA_REG
,
d
);
def
logger_message
(
self
,
message
):
"""
Set odometer message (up to 56 bytes)
@param message - odometer message as a string
"""
lmessage
=
list
(
message
)
if
len
(
lmessage
)
<
56
:
lmessage
+=
chnr
(
0
)
*
(
56
-
len
(
lmessage
))
lmessage
=
lmessage
[:
56
]
print
(
"Setting odometer message
%56
s"
%
(
self
.
zterm
(
lmessage
)))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
ADDR_REG
,
self
.
X313_IMU_REGISTERS_ADDR
)
for
i
in
range
(
0
,
56
,
4
):
d
=
ord
(
lmessage
[
i
])
+
(
ord
(
lmessage
[
i
+
1
])
<<
8
)
+
(
ord
(
lmessage
[
i
+
1
])
<<
16
)
+
(
ord
(
lmessage
[
i
+
1
])
<<
24
)
print
(
"
%
d: message 4 bytes= 0x
%08
x"
%
((
i
//
4
)
+
1
,
d
))
self
.
x393_axi_tasks
.
write_control_register
(
vrlg
.
LOGGER_ADDR
+
self
.
DATA_REG
,
d
)
def
logger_en_dma
(
self
):
"""
Turn on DMA
"""
self
.
logger_dma_ctrl
(
mode
=
2
,
chn
=
0
)
# mode = 2 - enable and run
print
(
"Turn on DMA here"
)
def
logger_en_logger
(
self
):
"""
Enable logger (turn off reset)
"""
print
(
"Turning off logger reset"
)
self
.
logger_reset
(
0
)
def
set_logger_params
(
self
,
which
,
wbuf
):
"""
Set logger parameters from the string buffer (same as in the driver)
@param which - bitmask of parameters to set:
WHICH_INIT = 1
WHICH_RESET = 2
WHICH_RESET_SPI = 4
WHICH_DIVISOR = 8
WHICH_RS232DIV = 16
WHICH_NMEA = 32
WHICH_CONFIG = 64
WHICH_REGISTERS = 128
WHICH_MESSAGE = 256
WHICH_PERIOD = 512
WHICH_EN_DMA = 1024
WHICH_EN_LOGGER = 2048
@param wbuf - string with configuration data (as generated by start_gps_compas.php
"""
period
=
struct
.
unpack_from
(
"<I"
,
wbuf
,
offset
=
self
.
X313_IMU_PERIOD_OFFS
)[
0
]
divisor
=
struct
.
unpack_from
(
"<I"
,
wbuf
,
offset
=
self
.
X313_IMU_DIVISOR_OFFS
)[
0
]
rs232_div
=
struct
.
unpack_from
(
"<I"
,
wbuf
,
offset
=
self
.
X313_IMU_RS232DIV_OFFS
)[
0
]
if
(
self
.
DRY_MODE
):
rs232_div
=
8
config
=
struct
.
unpack_from
(
"<I"
,
wbuf
,
offset
=
self
.
X313_IMU_CONFIGURE_OFFS
)[
0
]
message
=
wbuf
[
self
.
X313_IMU_MESSAGE_OFFS
:
self
.
X313_IMU_MESSAGE_OFFS
+
56
]
nmea_format
=
wbuf
[
self
.
X313_IMU_NMEA_FORMAT_OFFS
:
self
.
X313_IMU_NMEA_FORMAT_OFFS
+
128
]
registers
=
wbuf
[
self
.
X313_IMU_REGISTERS_OFFS
:
self
.
X313_IMU_NMEA_FORMAT_OFFS
]
for
i
,
d
in
enumerate
(
wbuf
):
if
(
i
&
0x1f
)
==
0
:
print
(
"
\n
%03
x"
%
(
i
),
end
=
""
)
print
(
"
%02
x"
%
(
ord
(
wbuf
[
i
])),
end
=
""
)
if
which
&
self
.
WHICH_RESET
:
self
.
logger_reset
(
1
)
if
which
&
self
.
WHICH_INIT
:
self
.
logger_init
(
config
)
if
which
&
self
.
WHICH_RESET_SPI
:
self
.
logger_reset_spi
()
if
which
&
self
.
WHICH_DIVISOR
:
self
.
logger_set_divisor
(
divisor
)
if
which
&
self
.
WHICH_RS232DIV
:
self
.
logger_set_rs232div
(
rs232_div
)
if
which
&
self
.
WHICH_NMEA
:
self
.
logger_set_nmea
(
nmea_format
)
if
which
&
self
.
WHICH_CONFIG
:
self
.
logger_config
(
config
)
if
which
&
self
.
WHICH_REGISTERS
:
self
.
logger_registers
(
registers
)
if
which
&
self
.
WHICH_MESSAGE
:
self
.
logger_message
(
message
)
if
which
&
self
.
WHICH_PERIOD
:
self
.
logger_set_period
(
period
)
if
which
&
self
.
WHICH_EN_DMA
:
self
.
logger_en_dma
()
if
which
&
self
.
WHICH_EN_LOGGER
:
self
.
logger_en_logger
()
def
set_logger_params_file
(
self
,
file_path
=
"/home/eyesis/git/x393-neon/attic/imu_config.bin"
,
which
=
0x7fb
):
# 0x3f9):
"""
Set logger parameters from the string buffer (same as in the driver)
@param which - bitmask of parameters to set:
WHICH_INIT = 1
WHICH_RESET = 2
WHICH_RESET_SPI = 4
WHICH_DIVISOR = 8
WHICH_RS232DIV = 16
WHICH_NMEA = 32
WHICH_CONFIG = 64
WHICH_REGISTERS = 128
WHICH_MESSAGE = 256
WHICH_PERIOD = 512
WHICH_EN_DMA = 1024
WHICH_EN_LOGGER = 2048
@param wbuf - string with configuration data (as generated by start_gps_compas.php
"""
with
open
(
file_path
,
"r"
)
as
f
:
wbuf
=
f
.
read
()
self
.
set_logger_params
(
which
=
which
,
wbuf
=
wbuf
)
"""
def logger_reset(self, rst):
def logger_init(self,config):
def logger_reset_spi(self):
def logger_set_divisor(self,divisor):
def logger_set_rs232div(self,divisor):
def zterm(self,l):
def logger_set_nmea(self, nmea_format):
def logger_config(self,config):
def logger_registers(self,registers):
def logger_message(self,message):
def logger_en_dma(self):
def logger_en_logger(self):
unsigned long * period= (unsigned long *) &wbuf[X313_IMU_PERIOD_OFFS];
unsigned long * divisor= (unsigned long *) &wbuf[X313_IMU_DIVISOR_OFFS];
unsigned long * rs232_div= (unsigned long *) &wbuf[X313_IMU_RS232DIV_OFFS];
unsigned long * config= (unsigned long *) &wbuf[X313_IMU_CONFIGURE_OFFS];
unsigned long * message= (unsigned long *) &wbuf[X313_IMU_MESSAGE_OFFS];
char * nmea_format= (char *) &wbuf[X313_IMU_NMEA_FORMAT_OFFS];
period = struct.unpack_from("<I", wbuf, offset=X313_IMU_PERIOD_OFFS)[0]
divisor = struct.unpack_from("<I", wbuf, offset=X313_IMU_DIVISOR_OFFS)[0]
rs232_div = struct.unpack_from("<I", wbuf, offset=X313_IMU_RS232DIV_OFFS)[0]
config = struct.unpack_from("<I", wbuf, offset=X313_IMU_CONFIGURE_OFFS)[0]
hex(period) '0xffffffff'
hex(divisor) '0x140a'
hex(rs232_div) '0x364'
hex(config) '0x350eab5'
>>> with open ("/home/eyesis/git/x393-neon/attic/aaa","r") as f:
... aaa=f.read()
which= 0x3f9
WHICH_INIT = 1
WHICH_RESET = 2
WHICH_RESET_SPI = 4
WHICH_DIVISOR = 8
WHICH_RS232DIV = 16
WHICH_NMEA = 32
WHICH_CONFIG = 64
WHICH_REGISTERS = 128
WHICH_MESSAGE = 256
WHICH_PERIOD = 512
WHICH_EN_DMA = 1024
WHICH_EN_LOGGER = 2048
#define X313_IMU_REGISTERS_ADDR 0x4
#define X313_IMU_NMEA_FORMAT_ADDR 0x20
#define X313_IMU_MESSAGE_ADDR 0x40 ///< 40..4f, only first 0xe visible
// offsets in the file (during write)
#define X313_IMU_PERIOD_OFFS 0x0
#define X313_IMU_DIVISOR_OFFS 0x4
#define X313_IMU_RS232DIV_OFFS 0x8
#define X313_IMU_CONFIGURE_OFFS 0xc
#define X313_IMU_SLEEP_OFFS 0x10
#define X313_IMU_REGISTERS_OFFS 0x14 // .. 0x2f
#define X313_IMU_NMEA_FORMAT_OFFS 0x30
#define X313_IMU_MESSAGE_OFFS 0xB0 // 0xB0..0xE7
def set_gpio_ports(self,
port_soft = None,
port_a = None,
port_b = None,
port_c = None):
Set status GPIO ports (None - no change, False - disable, True - enable)
@param port_soft - software-controlled port
@param port_a - port A : camsync
@param port_b - port B : motors on 10353, unused on 10393
@param port_c - port C : logger (IMU/GPS, external)
data = 0
if not port_soft is None:
data |= (2,3)[port_soft]
if not port_a is None:
data |= (2,3)[port_a] << 2
if not port_b is None:
data |= (2,3)[port_a] << 4
if not port_c is None:
data |= (2,3)[port_a] << 6
self.x393_axi_tasks.write_control_register(vrlg.GPIO_ADDR + vrlg.GPIO_SET_PINS, data << vrlg.GPIO_PORTEN)
parameter LOGGER_ADDR = 'h720, //..'h721
parameter LOGGER_STATUS = 'h722, // .. 'h722
parameter LOGGER_STATUS_REG_ADDR = 'h39, // just 1 location)
parameter LOGGER_MASK = 'h7fe,
parameter LOGGER_STATUS_MASK = 'h7ff,
//First 4 registers are not used (it is when time stamps are sent)
parameter LOGGER_PAGE_IMU = 0, // 'h04..'h1f - overlaps with period/duration/halfperiod/config? (was so in x353)
parameter LOGGER_PAGE_GPS = 1, // 'h20..'h3f
parameter LOGGER_PAGE_MSG = 2, // 'h40..'h5f
parameter LOGGER_PERIOD = 0,
parameter LOGGER_BIT_DURATION = 1,
parameter LOGGER_BIT_HALF_PERIOD = 2, //rs232 half bit period
parameter LOGGER_CONFIG = 3,
parameter LOGGER_CONF_IMU = 2,
parameter LOGGER_CONF_IMU_BITS = 2,
parameter LOGGER_CONF_GPS = 7,
parameter LOGGER_CONF_GPS_BITS = 4,
parameter LOGGER_CONF_MSG = 13,
parameter LOGGER_CONF_MSG_BITS = 5,
parameter LOGGER_CONF_SYN = 18, // 15,
parameter LOGGER_CONF_SYN_BITS = 4, // 1,
parameter LOGGER_CONF_EN = 20, // 17,
parameter LOGGER_CONF_EN_BITS = 1,
parameter LOGGER_CONF_DBG = 25, // 22,
parameter LOGGER_CONF_DBG_BITS = 4,
parameter GPIO_N = 10 // number of GPIO bits to control
X313_IMU_PERIOD_OFFS = 0x0
X313_IMU_DIVISOR_OFFS = 0x4
X313_IMU_RS232DIV_OFFS = 0x8
X313_IMU_CONFIGURE_OFFS = 0xc
X313_IMU_SLEEP_OFFS = 0x10
X313_IMU_REGISTERS_OFFS = 0x14 # .. 0x2f
X313_IMU_NMEA_FORMAT_OFFS = 0x30
X313_IMU_MESSAGE_OFFS = 0xB0 # 0xB0..0xE7
"""
\ No newline at end of file
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