Linux lorencats.com 5.10.103-v7l+ #1529 SMP Tue Mar 8 12:24:00 GMT 2022 armv7l
Apache/2.4.59 (Raspbian)
: 10.0.0.29 | : 216.73.216.130
Cant Read [ /etc/named.conf ]
7.3.31-1~deb10u7
root
www.github.com/MadExploits
Terminal
AUTO ROOT
Adminer
Backdoor Destroyer
Linux Exploit
Lock Shell
Lock File
Create User
CREATE RDP
PHP Mailer
BACKCONNECT
UNLOCK SHELL
HASH IDENTIFIER
CPANEL RESET
CREATE WP USER
README
+ Create Folder
+ Create File
/
usr /
lib /
python2.7 /
dist-packages /
fourletterphat /
[ HOME SHELL ]
Name
Size
Permission
Action
HT16K33.py
4.46
KB
-rw-r--r--
HT16K33.pyc
3.9
KB
-rw-r--r--
__init__.py
3.89
KB
-rw-r--r--
__init__.pyc
5.97
KB
-rw-r--r--
alphanum4.py
10.85
KB
-rw-r--r--
alphanum4.pyc
8.54
KB
-rw-r--r--
i2c_bus.py
388
B
-rw-r--r--
i2c_bus.pyc
585
B
-rw-r--r--
Delete
Unzip
Zip
${this.title}
Close
Code Editor : alphanum4.py
# This file was borrowed from https://github.com/adafruit/Adafruit_Python_LED_Backpack # Original copyright included below: # <3 @ Adafruit # # Copyright (c) 2014 Adafruit Industries # Author: Tony DiCola # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. from . import HT16K33 import time # Digit value to bitmask mapping: DIGIT_VALUES = { ' ': 0b0000000000000000, '!': 0b0000000000000110, '"': 0b0000001000100000, '#': 0b0001001011001110, '$': 0b0001001011101101, '%': 0b0000110000100100, '&': 0b0010001101011101, '\'': 0b0000010000000000, '(': 0b0010010000000000, ')': 0b0000100100000000, '*': 0b0011111111000000, '+': 0b0001001011000000, ',': 0b0000100000000000, '-': 0b0000000011000000, '.': 0b0000000000000000, '/': 0b0000110000000000, '0': 0b0000110000111111, '1': 0b0000000000000110, '2': 0b0000000011011011, '3': 0b0000000010001111, '4': 0b0000000011100110, '5': 0b0010000001101001, '6': 0b0000000011111101, '7': 0b0000000000000111, '8': 0b0000000011111111, '9': 0b0000000011101111, ':': 0b0001001000000000, ';': 0b0000101000000000, '<': 0b0010010000000000, '=': 0b0000000011001000, '>': 0b0000100100000000, '?': 0b0001000010000011, '@': 0b0000001010111011, 'A': 0b0000000011110111, 'B': 0b0001001010001111, 'C': 0b0000000000111001, 'D': 0b0001001000001111, 'E': 0b0000000011111001, 'F': 0b0000000001110001, 'G': 0b0000000010111101, 'H': 0b0000000011110110, 'I': 0b0001001000000000, 'J': 0b0000000000011110, 'K': 0b0010010001110000, 'L': 0b0000000000111000, 'M': 0b0000010100110110, 'N': 0b0010000100110110, 'O': 0b0000000000111111, 'P': 0b0000000011110011, 'Q': 0b0010000000111111, 'R': 0b0010000011110011, 'S': 0b0000000011101101, 'T': 0b0001001000000001, 'U': 0b0000000000111110, 'V': 0b0000110000110000, 'W': 0b0010100000110110, 'X': 0b0010110100000000, 'Y': 0b0001010100000000, 'Z': 0b0000110000001001, '[': 0b0000000000111001, '\\': 0b0010000100000000, ']': 0b0000000000001111, '^': 0b0000110000000011, '_': 0b0000000000001000, '`': 0b0000000100000000, 'a': 0b0001000001011000, 'b': 0b0010000001111000, 'c': 0b0000000011011000, 'd': 0b0000100010001110, 'e': 0b0000100001011000, 'f': 0b0000000001110001, 'g': 0b0000010010001110, 'h': 0b0001000001110000, 'i': 0b0001000000000000, 'j': 0b0000000000001110, 'k': 0b0011011000000000, 'l': 0b0000000000110000, 'm': 0b0001000011010100, 'n': 0b0001000001010000, 'o': 0b0000000011011100, 'p': 0b0000000101110000, 'q': 0b0000010010000110, 'r': 0b0000000001010000, 's': 0b0010000010001000, 't': 0b0000000001111000, 'u': 0b0000000000011100, 'v': 0b0010000000000100, 'w': 0b0010100000010100, 'x': 0b0010100011000000, 'y': 0b0010000000001100, 'z': 0b0000100001001000, '{': 0b0000100101001001, '|': 0b0001001000000000, '}': 0b0010010010001001, '~': 0b0000010100100000 } class AlphaNum4(HT16K33.HT16K33): """Alphanumeric 14 segment LED backpack display.""" def __init__(self, **kwargs): """Initialize display. All arguments will be passed to the HT16K33 class initializer, including optional I2C address and bus number parameters. """ super(AlphaNum4, self).__init__(**kwargs) def set_digit_raw(self, pos, bitmask): """Set digit at position to raw bitmask value. Position should be a value of 0 to 3 with 0 being the left most digit on the display. """ if pos < 0 or pos > 3: # Ignore out of bounds digits. return # Set the digit bitmask value at the appropriate position. # Also set bit 7 (decimal point) if decimal is True. self.buffer[pos*2] = bitmask & 0xFF self.buffer[pos*2+1] = (bitmask >> 8) & 0xFF def set_decimal(self, pos, decimal): """Turn decimal point on or off at provided position. Position should be a value 0 to 3 with 0 being the left most digit on the display. Decimal should be True to turn on the decimal point and False to turn it off. """ if pos < 0 or pos > 3: # Ignore out of bounds digits. return # Set bit 14 (decimal point) based on provided value. if decimal: self.buffer[pos*2+1] |= (1 << 6) else: self.buffer[pos*2+1] &= ~(1 << 6) def set_digit(self, pos, digit, decimal=False): """Set digit at position to provided value. Position should be a value of 0 to 3 with 0 being the left most digit on the display. Digit should be any ASCII value 32-127 (printable ASCII). """ self.set_digit_raw(pos, DIGIT_VALUES.get(str(digit), 0x00)) if decimal: self.set_decimal(pos, True) def print_str(self, value, justify_right=True): """Print a 4 character long string of values to the display. Characters in the string should be any ASCII value 32 to 127 (printable ASCII). """ # Left or right justify string according to justify_right parameter if justify_right: value = value.rjust(4, ' ') else: value = value.ljust(4, ' ') # Go through each character and print it on the display. for i, ch in enumerate(value): self.set_digit(i, ch) def print_number_str(self, value, justify_right=True): """Print a 4 character long string of numeric values to the display. This function is similar to print_str but will interpret periods not as characters but as decimal points associated with the previous character. """ value = str(value) # Calculate length of value without decimals. length = len(value.replace(".","")) # Error if value without decimals is longer than 4 characters. if length > 4: raise ValueError("Number '{}' is too large to display".format(value)) # Left or right justify string according to justify_right parameter # Extra justification is added for any decimal places which don't take up a char slot pos = 0 justify_length = len(value) - length if justify_right: value = value.rjust(4 + justify_length, ' ') else: value = value.ljust(4 + justify_length, ' ') # Go through each character and print it on the display. for i, ch in enumerate(value): if ch == '.': # Print decimal points on the previous digit. self.set_decimal(pos-1, True) else: self.set_digit(pos, ch) pos += 1 def print_float(self, value, decimal_digits=2, justify_right=True): """Print a numeric value to the display. If value is negative it will be printed with a leading minus sign. Decimal digits is the desired number of digits after the decimal point. """ format_string = '{{0:0.{0}F}}'.format(decimal_digits) self.print_number_str(format_string.format(value), justify_right) def print_hex(self, value, justify_right=True): """Print a numeric value in hexadecimal. Value should be from 0 to FFFF. """ if value < 0 or value > 0xFFFF: # Ignore out of range values. return self.print_str('{0:X}'.format(value), justify_right) def show(self): """Display buffer on display.""" self.write_display() def glow(self, period=4, duration=4): """Cycles display brightness from low to high and back to low, at a frequency of 1/period Hz and for a duration stated in seconds. The periodicity accounts from initial brightness back to initial brightness. :param period: Period of glow effect in seconds. (default 4 for 0.25Hz) :param duration: Duration of glow effect in seconds. Function returns after duration seconds (default 4 seconds) """ period = float(period) duration = float(duration) NB_OF_BRIGHTNESSES = 16 MIN_BRIGHTNESS = 0 MAX_BRIGHTNESS = NB_OF_BRIGHTNESSES - 1 initial_brightness = self.get_brightness() current_brightness = initial_brightness nb_of_transitions = (NB_OF_BRIGHTNESSES-1)*2 wait_between_transitions = period / nb_of_transitions time_left = duration adjustment = 1 while time_left > 0: if current_brightness == MAX_BRIGHTNESS: # Once we reach max brightness, we go down adjustment = -1 elif current_brightness == MIN_BRIGHTNESS: # Once we reach min brightness, we go up adjustment = 1 current_brightness += adjustment self.set_brightness(current_brightness) time.sleep(wait_between_transitions) time_left -= wait_between_transitions self.set_brightness(initial_brightness) def scroll_print(self, s, tempo=0.3): """Scrolls a string on the display. :param tempo: Display is paused 3xtempo seconds at the start, then tempo seconds after each one character scroll, then 3xtempo seconds at the end. (default 0.3 seconds) """ length = len(s) # No need to scroll if the message is not bigger than the display if length <= 4: self.print_str(s) self.show() else: # Display the message start a bit longer self.print_str(s[0] + s[1] + s[2] + s[3]) self.show() time.sleep(tempo * 3) for i in range(3, length): self.print_str(s[i - 3] + s[i - 2] + s[i - 1] + s[i]) self.show() time.sleep(tempo) # Display the message end a bit longer time.sleep(tempo * 3)
Close
