Refactor into __main__ block
This commit is contained in:
parent
6f531cf073
commit
ad97fc7fa9
1 changed files with 943 additions and 943 deletions
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@ -40,10 +40,10 @@ import smbus
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#
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# <order> selects which Cluster CTRL devices matches that <order> number
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if __name__ == "__main__":
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args = len(sys.argv)
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args = len(sys.argv)
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if ( args == 1 or sys.argv[1] == 'help' or sys.argv[1] == '--help' or sys.argv[1] == '-h' or sys.argv[1] == '/?' ):
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if ( args == 1 or sys.argv[1] == 'help' or sys.argv[1] == '--help' or sys.argv[1] == '-h' or sys.argv[1] == '/?' ):
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print( "Usage :{} <cmd> ".format(sys.argv[0]) )
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print( "" )
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print( "## Commands <cmd>")
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@ -100,93 +100,93 @@ if ( args == 1 or sys.argv[1] == 'help' or sys.argv[1] == '--help' or sys.argv[1
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print( "" )
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sys.exit()
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# Read configruation file
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#
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config = {}
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if os.path.isfile("/etc/default/clusterctrl"):
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# Read configruation file
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#
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config = {}
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if os.path.isfile("/etc/default/clusterctrl"):
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with open ("/etc/default/clusterctrl") as configfile:
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for line in configfile:
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if( line[:1] != '#' ):
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k, v = line.partition("=")[::2]
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config[k.strip().lower()] = v.split('#')[0].strip(" \"'\n\t")
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# If we're not a controller of some sort exit cleanly
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if( 'type' not in config or not ( config['type'] == "c" or config['type'] == "cnat" ) ):
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# If we're not a controller of some sort exit cleanly
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if( 'type' not in config or not ( config['type'] == "c" or config['type'] == "cnat" ) ):
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sys.exit()
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# Config
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# Config
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# I2C address of ClusterCTRL device
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I2C_ADDRESS = 0x20
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# I2C address of ClusterCTRL device
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I2C_ADDRESS = 0x20
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# Number of Pi Zero in ClusterHAT (set below)
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clusterhat_size = 0
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# Number of Pi Zero in ClusterHAT (set below)
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clusterhat_size = 0
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# ClusterCTRL Registers
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REG_VERSION = 0x00 # Register layout version
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REG_MAXPI = 0x01 # Maximum number of Pi
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REG_ORDER = 0x02 # Order - used to sort multiple ClusterCTRL devices
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REG_MODE = 0x03 # N/A
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REG_TYPE = 0x04 # 0=DA, 1=pHAT
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REG_DATA7 = 0x05 #
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REG_DATA6 = 0x06 #
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REG_DATA5 = 0x07 #
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REG_DATA4 = 0x08 #
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REG_DATA3 = 0x09 #
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REG_DATA2 = 0x0a #
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REG_DATA1 = 0x0b #
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REG_DATA0 = 0x0c #
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REG_CMD = 0x0d # Command
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REG_STATUS = 0x0e # Status
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# ClusterCTRL Registers
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REG_VERSION = 0x00 # Register layout version
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REG_MAXPI = 0x01 # Maximum number of Pi
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REG_ORDER = 0x02 # Order - used to sort multiple ClusterCTRL devices
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REG_MODE = 0x03 # N/A
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REG_TYPE = 0x04 # 0=DA, 1=pHAT
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REG_DATA7 = 0x05 #
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REG_DATA6 = 0x06 #
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REG_DATA5 = 0x07 #
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REG_DATA4 = 0x08 #
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REG_DATA3 = 0x09 #
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REG_DATA2 = 0x0a #
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REG_DATA1 = 0x0b #
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REG_DATA0 = 0x0c #
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REG_CMD = 0x0d # Command
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REG_STATUS = 0x0e # Status
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# ClusterCTRL Commands
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CMD_ON = 0x03 # Turn on Px (data0=x)
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CMD_OFF = 0x04 # Turn off Px (data0=x)
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CMD_ALERT_ON = 0x05 # Turn on Alert LED
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CMD_ALERT_OFF = 0x06 # Turn off Alert LED
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CMD_HUB_CYCLE = 0x07 # Reset USB HUB (turn off for data0*10ms, then back on)
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CMD_LED_EN = 0x0A # Enable Px LED (data0=x)
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CMD_LED_DIS = 0x0B # Disable Px LED (data0=x)
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CMD_PWR_ON = 0x0C # Turn off PWR LED
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CMD_PWR_OFF = 0x0D # Turn off PWR LED
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CMD_RESET = 0x0E # Resets ClusterCTRL (does not keep power state)
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CMD_GET_PSTATUS = 0x0F # Get Px power status (data0=x)
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CMD_FAN = 0x10 # Turn fan on (data0=1) or off (data0=0)
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CMD_GETPATH = 0x11 # Get USB path to Px (data0=x 0=controller) returned in data7-data0
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CMD_USBBOOT_EN = 0x12 # Turn on USBBOOT
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CMD_USBBOOT_DIS = 0x13 # Turn off USBBOOT
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CMD_GET_USTATUS = 0x14 # Get Px USBBOOT status (data0=x)
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CMD_SET_ORDER = 0x15 # Set order (data0=order)
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CMD_SAVE = 0xF0 # Save current PWR/P1-LED/P2-LED/P1/P2/Order/Mode to EEPROM
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CMD_SAVEDEFAULTS = 0xF1 # Save factory defaults
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CMD_GET_DATA = 0xF2 # Get DATA (Temps/ADC/etc.)
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CMD_SAVE_ORDER = 0xF3 # Save order to EEPROM
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CMD_SAVE_USBBOOT = 0xF4 # Save usbboot status to EEPROM
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CMD_SAVE_POS = 0xF5 # Save Power On State to EEPROM
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CMD_SAVE_LED = 0xF6 # Save LED to EEPROM
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CMD_NOP = 0x90 # Do nothing
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# ClusterCTRL Commands
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CMD_ON = 0x03 # Turn on Px (data0=x)
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CMD_OFF = 0x04 # Turn off Px (data0=x)
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CMD_ALERT_ON = 0x05 # Turn on Alert LED
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CMD_ALERT_OFF = 0x06 # Turn off Alert LED
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CMD_HUB_CYCLE = 0x07 # Reset USB HUB (turn off for data0*10ms, then back on)
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CMD_LED_EN = 0x0A # Enable Px LED (data0=x)
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CMD_LED_DIS = 0x0B # Disable Px LED (data0=x)
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CMD_PWR_ON = 0x0C # Turn off PWR LED
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CMD_PWR_OFF = 0x0D # Turn off PWR LED
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CMD_RESET = 0x0E # Resets ClusterCTRL (does not keep power state)
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CMD_GET_PSTATUS = 0x0F # Get Px power status (data0=x)
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CMD_FAN = 0x10 # Turn fan on (data0=1) or off (data0=0)
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CMD_GETPATH = 0x11 # Get USB path to Px (data0=x 0=controller) returned in data7-data0
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CMD_USBBOOT_EN = 0x12 # Turn on USBBOOT
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CMD_USBBOOT_DIS = 0x13 # Turn off USBBOOT
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CMD_GET_USTATUS = 0x14 # Get Px USBBOOT status (data0=x)
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CMD_SET_ORDER = 0x15 # Set order (data0=order)
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CMD_SAVE = 0xF0 # Save current PWR/P1-LED/P2-LED/P1/P2/Order/Mode to EEPROM
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CMD_SAVEDEFAULTS = 0xF1 # Save factory defaults
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CMD_GET_DATA = 0xF2 # Get DATA (Temps/ADC/etc.)
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CMD_SAVE_ORDER = 0xF3 # Save order to EEPROM
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CMD_SAVE_USBBOOT = 0xF4 # Save usbboot status to EEPROM
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CMD_SAVE_POS = 0xF5 # Save Power On State to EEPROM
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CMD_SAVE_LED = 0xF6 # Save LED to EEPROM
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CMD_NOP = 0x90 # Do nothing
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# Get arbitrary data from ClusterCTRL
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GET_DATA_VERSION = 0x00 # Get firmware version
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GET_DATA_ADC_CNT = 0x01 # Returns number of ADC ClusterCTRL supports
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GET_DATA_ADC_READ = 0x02 # Read ADC data for ADC number 'data0'
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GET_DATA_ADC_TEMP = 0x03 # Read Temperature ADC
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GET_DATA_FANSTATUS = 0x04 # Read fan status
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# Get arbitrary data from ClusterCTRL
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GET_DATA_VERSION = 0x00 # Get firmware version
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GET_DATA_ADC_CNT = 0x01 # Returns number of ADC ClusterCTRL supports
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GET_DATA_ADC_READ = 0x02 # Read ADC data for ADC number 'data0'
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GET_DATA_ADC_TEMP = 0x03 # Read Temperature ADC
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GET_DATA_FANSTATUS = 0x04 # Read fan status
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# Files/paths
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clusterctrl_prefix = '/dev/ClusterCTRL-'
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vcgencmdpath = "/usr/bin/vcgencmd"
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hat_product = "/proc/device-tree/hat/product"
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hat_version = "/proc/device-tree/hat/product_ver"
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hat_uuid = "/proc/device-tree/hat/uuid"
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hat_vendor = "/proc/device-tree/hat/vendor"
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hat_pid = "/proc/device-tree/hat/product_id"
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nfsboot = "/var/lib/clusterctrl/boot/"
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nfsroot = "/var/lib/clusterctrl/nfs/"
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# Files/paths
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clusterctrl_prefix = '/dev/ClusterCTRL-'
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vcgencmdpath = "/usr/bin/vcgencmd"
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hat_product = "/proc/device-tree/hat/product"
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hat_version = "/proc/device-tree/hat/product_ver"
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hat_uuid = "/proc/device-tree/hat/uuid"
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hat_vendor = "/proc/device-tree/hat/vendor"
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hat_pid = "/proc/device-tree/hat/product_id"
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nfsboot = "/var/lib/clusterctrl/boot/"
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nfsroot = "/var/lib/clusterctrl/nfs/"
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# Functions
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# Send command to ClusterCTRL via I2C
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def send_cmd(c, cmd, data0=None,data1=None,data2=None,data3=None,data4=None,data5=None,data6=None,data7=None):
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# Functions
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# Send command to ClusterCTRL via I2C
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def send_cmd(c, cmd, data0=None,data1=None,data2=None,data3=None,data4=None,data5=None,data6=None,data7=None):
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#print("CMD: {} - {} {} {} {} {} {} {} {}"format(cmd, data0, data1, data2, data3,data4, data5, data6, data7))
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if(data7 is not None): c[1].write_byte_data( I2C_ADDRESS, REG_DATA7, data7 )
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if(data6 is not None): c[1].write_byte_data( I2C_ADDRESS, REG_DATA6, data6 )
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@ -201,22 +201,22 @@ def send_cmd(c, cmd, data0=None,data1=None,data2=None,data3=None,data4=None,data
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except IOError:
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return False
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# Read register from ClusterCTRL via I2C
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def read_reg(c, offset, len=1):
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# Read register from ClusterCTRL via I2C
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def read_reg(c, offset, len=1):
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if(len>1):
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tmp = c[1].read_i2c_block_data( I2C_ADDRESS, offset, len )
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else:
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tmp = c[1].read_byte_data( I2C_ADDRESS, offset )
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return tmp
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# Get throttled status
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def get_throttled():
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# Get throttled status
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def get_throttled():
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if( not os.path.isfile(vcgencmdpath) or not os.access(vcgencmdpath,os.X_OK) ):
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return 'NA'
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return ( (os.popen(vcgencmdpath + ' get_throttled').readline()).split('=', 1)[-1].strip())
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# Get USB path (eg 1-1.4.1) for I2C bus
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def usbpathfrombus(bus):
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# Get USB path (eg 1-1.4.1) for I2C bus
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def usbpathfrombus(bus):
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for device in glob.glob("/sys/bus/usb/drivers/i2c-tiny-usb/*/i2c*"):
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parts = device.split('/')
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path = parts[6].split(':')[0]
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@ -225,8 +225,8 @@ def usbpathfrombus(bus):
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return path
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return False
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# Build list of pi zero numbers to get USB path of
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def getusbpaths():
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# Build list of pi zero numbers to get USB path of
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def getusbpaths():
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paths = {}
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zeros = []
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@ -321,33 +321,33 @@ def getusbpaths():
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paths[str(zero)] = cache_clusterctrl[c[0]]+pathdata
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return paths
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def is_float(n):
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def is_float(n):
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try:
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float(n)
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return True
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except ValueError:
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return False
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##########
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# Init #
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##########
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##########
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# Init #
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##########
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# Get Pi power on delay from config
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delay = 1 if 'clusterctrl_delay' not in config or not is_float(config['clusterctrl_delay']) or float(config['clusterctrl_delay'])<0 else config['clusterctrl_delay']
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# Get Pi power on delay from config
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delay = 1 if 'clusterctrl_delay' not in config or not is_float(config['clusterctrl_delay']) or float(config['clusterctrl_delay'])<0 else config['clusterctrl_delay']
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maxpi=0
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clusterctrl = False
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maxpi=0
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clusterctrl = False
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# Do we have a ClusterHAT ?
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# Do we have a ClusterHAT ?
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# Check for override
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clusterhat = 1 if 'clusterhat_force' not in config else config['clusterhat_force']
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# Check for override
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clusterhat = 1 if 'clusterhat_force' not in config else config['clusterhat_force']
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if(clusterhat != 1):
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if(clusterhat != 1):
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parts = clusterhat.split('.')
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version = int(parts[0])
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version_minor = int(parts[1])
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elif ( not os.path.isfile(hat_product)
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elif ( not os.path.isfile(hat_product)
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or not os.access(hat_product, os.R_OK)
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or not os.path.isfile(hat_uuid)
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or not os.access(hat_uuid, os.R_OK)
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@ -358,7 +358,7 @@ elif ( not os.path.isfile(hat_product)
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or not os.path.isfile(hat_version)
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or not os.access(hat_version, os.R_OK) ):
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clusterhat = False # No HAT found
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else:
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else:
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# HAT has been found validate it
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f = open(hat_product, 'r')
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if ( f.read().strip('\x00') != 'ZC4:ClusterHAT' ):
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@ -376,13 +376,13 @@ else:
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version_minor = tmp - 32
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else:
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clusterhat = False # No ClusterHAT found
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if ( clusterhat ):
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if ( clusterhat ):
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clusterhat_size = 4 if 'clusterhat_size' not in config else int(config['clusterhat_size'])
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if clusterhat_size > 4: clusterhat_size = 4
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fangpio = False if 'fangpio' not in config else int(config['fangpio'])
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# Init ClusterHAT if we have one
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if(clusterhat):
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# Init ClusterHAT if we have one
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if(clusterhat):
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maxpi+=clusterhat_size
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if ( version == 1 ):
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import RPi.GPIO as GPIO
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@ -454,19 +454,19 @@ if(clusterhat):
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wp_link = -1
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# Get list of ClusterCTRL I2C devices
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busses = [] # Get list of devices
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for fn in glob.glob(clusterctrl_prefix+'*'):
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# Get list of ClusterCTRL I2C devices
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busses = [] # Get list of devices
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for fn in glob.glob(clusterctrl_prefix+'*'):
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clusterctrl+=1
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length = len(clusterctrl_prefix)
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busses.append( ( smbus.SMBus(int(fn[length:])), int(fn[length:]) ) )
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# Ensure we have at least one ClusterCTRL or a ClusterHAT
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if( len(busses)<1 and not clusterhat ):
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# Ensure we have at least one ClusterCTRL or a ClusterHAT
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if( len(busses)<1 and not clusterhat ):
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print("ERROR: No ClusterHAT/CTRL devices found\n")
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sys.exit(1)
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if(clusterctrl):
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if(clusterctrl):
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# Make sure we haven't got a conflict on the ClusterCTRL "order"
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# When using multiple ClusterCTRL devices they each have an "order" which must be unique
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orders = []
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@ -490,8 +490,8 @@ if(clusterctrl):
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# Sort devices based on order
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ctrl.sort(key=lambda tup: tup[0])
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# Are we running init and should we create the symlinks for usbboot?
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if( args == 2 and sys.argv[1] == 'init'):
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# Are we running init and should we create the symlinks for usbboot?
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if( args == 2 and sys.argv[1] == 'init'):
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if 'link' in config and config['link'] == "1":
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# Only root should fiddle with the links
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if os.geteuid() == 0 and os.path.isdir(nfsboot) and os.path.isdir(nfsroot):
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os.unlink(nfsboot+path)
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os.symlink(nfsroot+'p'+p+"/boot/", nfsboot+path)
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##############
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## End Init ##
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##############
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##############
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## End Init ##
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##############
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# Parse arguments and do actions
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# Parse arguments and do actions
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if (args == 2 and ( sys.argv[1] == "on" or sys.argv[1] == "off" ) ):
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if (args == 2 and ( sys.argv[1] == "on" or sys.argv[1] == "off" ) ):
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# Turn on/off ALL devices
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if(clusterhat):
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# Turn all ClusterHAT ports on
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@ -580,7 +580,7 @@ if (args == 2 and ( sys.argv[1] == "on" or sys.argv[1] == "off" ) ):
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else:
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send_cmd(c, CMD_OFF, pi)
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send_cmd(c, CMD_ALERT_OFF)
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elif ( args > 2 and ( sys.argv[1] == "on" or sys.argv[1] == "off" ) ):
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elif ( args > 2 and ( sys.argv[1] == "on" or sys.argv[1] == "off" ) ):
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# Turn on/off pX
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actioned = 0
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# Build list of pi zero numbers to turn alert LED on for
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@ -644,7 +644,7 @@ elif ( args > 2 and ( sys.argv[1] == "on" or sys.argv[1] == "off" ) ):
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else:
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send_cmd(c, CMD_OFF, zero-lastpi+c[3])
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break
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elif ( args > 2 and sys.argv[1] == 'usbboot' and ( sys.argv[2] == 'on' or sys.argv[2] == 'off' ) ):
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elif ( args > 2 and sys.argv[1] == 'usbboot' and ( sys.argv[2] == 'on' or sys.argv[2] == 'off' ) ):
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# Enable of Disable USBBOOT (supported on Compute Modules) for Px
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actioned = 0
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# Build list of pi zero numbers to turn USBBOOT on for
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@ -670,7 +670,7 @@ elif ( args > 2 and sys.argv[1] == 'usbboot' and ( sys.argv[2] == 'on' or sys.ar
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actioned+=1
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else:
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send_cmd(c, CMD_USBBOOT_DIS, zero-lastpi+c[3])
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elif ( args == 2 and sys.argv[1] == "status" ):
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elif ( args == 2 and sys.argv[1] == "status" ):
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# Show status of all Cluster HAT / ClusterCTRL devices
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print ( "clusterhat:{}".format( clusterhat ) )
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print ( "clusterctrl:{}".format( clusterctrl ) )
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@ -762,7 +762,7 @@ elif ( args == 2 and sys.argv[1] == "status" ):
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if ( read_reg( c, REG_DATA0 ) != 0xFF ):
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print( "u{}:{}".format(cnt, read_reg( c, REG_DATA0 ) ) )
|
||||
|
||||
elif ( args == 3 and sys.argv[1] == 'hub' and ( sys.argv[2] == 'on' or sys.argv[2] == 'off' ) ):
|
||||
elif ( args == 3 and sys.argv[1] == 'hub' and ( sys.argv[2] == 'on' or sys.argv[2] == 'off' ) ):
|
||||
if(clusterhat):
|
||||
if( version==1 ):
|
||||
print ( "ERROR: hub control not supported on Cluster HAT v1.x\n")
|
||||
|
@ -777,8 +777,8 @@ elif ( args == 3 and sys.argv[1] == 'hub' and ( sys.argv[2] == 'on' or sys.argv[
|
|||
hub.off()
|
||||
else:
|
||||
hub.on()
|
||||
# if(clusterctrl): # TODO
|
||||
elif ( args == 3 and sys.argv[1] == 'hub' and ( sys.argv[2] == 'reset' ) ):
|
||||
# if(clusterctrl): # TODO
|
||||
elif ( args == 3 and sys.argv[1] == 'hub' and ( sys.argv[2] == 'reset' ) ):
|
||||
if(clusterhat and version!=1 ):
|
||||
if ( version_minor == 0 ):
|
||||
hub.off()
|
||||
|
@ -792,7 +792,7 @@ elif ( args == 3 and sys.argv[1] == 'hub' and ( sys.argv[2] == 'reset' ) ):
|
|||
for c in ctrl:
|
||||
send_cmd( c, CMD_HUB_CYCLE )
|
||||
|
||||
elif ( args == 3 and sys.argv[1] == 'alert' and ( sys.argv[2] == 'on' or sys.argv[2] == 'off' ) ):
|
||||
elif ( args == 3 and sys.argv[1] == 'alert' and ( sys.argv[2] == 'on' or sys.argv[2] == 'off' ) ):
|
||||
# Turn ALL ALERT LED on/off
|
||||
if(clusterhat):
|
||||
if(version==1):
|
||||
|
@ -812,7 +812,7 @@ elif ( args == 3 and sys.argv[1] == 'alert' and ( sys.argv[2] == 'on' or sys.arg
|
|||
send_cmd(c, CMD_ALERT_ON)
|
||||
else:
|
||||
send_cmd(c, CMD_ALERT_OFF)
|
||||
elif ( args > 3 and sys.argv[1] == 'alert' and ( sys.argv[2] == 'on' or sys.argv[2] == 'off') ):
|
||||
elif ( args > 3 and sys.argv[1] == 'alert' and ( sys.argv[2] == 'on' or sys.argv[2] == 'off') ):
|
||||
# Turn on/off ALERT LED for pX
|
||||
|
||||
# Build list of pi zero numbers to turn alert LED on for
|
||||
|
@ -848,7 +848,7 @@ elif ( args > 3 and sys.argv[1] == 'alert' and ( sys.argv[2] == 'on' or sys.argv
|
|||
else:
|
||||
send_cmd(c, CMD_ALERT_OFF)
|
||||
break
|
||||
elif ( args == 3 and sys.argv[1] == 'led' and ( sys.argv[2] == 'on' or sys.argv[2] == 'off' ) ):
|
||||
elif ( args == 3 and sys.argv[1] == 'led' and ( sys.argv[2] == 'on' or sys.argv[2] == 'off' ) ):
|
||||
# Enable or Disable LED (not supported on ClusterHAT v1.x)
|
||||
if(clusterhat and version == 2):
|
||||
if(sys.argv[2] == 'on'):
|
||||
|
@ -861,7 +861,7 @@ elif ( args == 3 and sys.argv[1] == 'led' and ( sys.argv[2] == 'on' or sys.argv[
|
|||
send_cmd(c, CMD_LED_EN, 0)
|
||||
else:
|
||||
send_cmd(c, CMD_LED_DIS, 0)
|
||||
elif ( args == 3 and sys.argv[1] == 'wp' and ( sys.argv[2] == 'on' or sys.argv[2] == 'off' ) ):
|
||||
elif ( args == 3 and sys.argv[1] == 'wp' and ( sys.argv[2] == 'on' or sys.argv[2] == 'off' ) ):
|
||||
# Not supported on ClusterCTRL or ClusterHAT v1.x
|
||||
if(clusterhat and version == 2):
|
||||
if ( sys.argv[2] == 'on' ):
|
||||
|
@ -871,11 +871,11 @@ elif ( args == 3 and sys.argv[1] == 'wp' and ( sys.argv[2] == 'on' or sys.argv[2
|
|||
print("Unable to disable EEPROM WP (Solder link set)")
|
||||
else:
|
||||
wp.off()
|
||||
elif ( args > 1 and sys.argv[1] == 'getpath' ):
|
||||
elif ( args > 1 and sys.argv[1] == 'getpath' ):
|
||||
paths = getusbpaths()
|
||||
for p, path in sorted(paths.iteritems()):
|
||||
print( "p{}:{}".format(p, path) )
|
||||
elif ( args == 3 and sys.argv[1] == 'savedefaults' ):
|
||||
elif ( args == 3 and sys.argv[1] == 'savedefaults' ):
|
||||
# Set default EEPROM for device with "order"
|
||||
if (int(sys.argv[2])<1 or int(sys.argv[2])>255):
|
||||
print("Invalid order")
|
||||
|
@ -887,7 +887,7 @@ elif ( args == 3 and sys.argv[1] == 'savedefaults' ):
|
|||
print("saved")
|
||||
sys.exit()
|
||||
print("Error: Unable to find Cluster CTRL device with that order")
|
||||
elif ( args == 4 and sys.argv[1] == 'setorder'):
|
||||
elif ( args == 4 and sys.argv[1] == 'setorder'):
|
||||
if (int(sys.argv[2])<1 or int(sys.argv[2])>255):
|
||||
print("Invalid order old")
|
||||
sys.exit(1)
|
||||
|
@ -898,7 +898,7 @@ elif ( args == 4 and sys.argv[1] == 'setorder'):
|
|||
for c in ctrl:
|
||||
if(int(sys.argv[2]) == int(c[0])):
|
||||
send_cmd(c, CMD_SET_ORDER, int(sys.argv[3]))
|
||||
elif ( args == 3 and sys.argv[1] == 'save' ):
|
||||
elif ( args == 3 and sys.argv[1] == 'save' ):
|
||||
# Set Power on state/USBBOOT/order to EEPROM for device with "order"
|
||||
if (int(sys.argv[2])<1 or int(sys.argv[2])>255):
|
||||
print("Invalid order")
|
||||
|
@ -911,7 +911,7 @@ elif ( args == 3 and sys.argv[1] == 'save' ):
|
|||
sys.exit()
|
||||
print("Error: Unable to find Cluster CTRL device with that order")
|
||||
|
||||
elif ( args == 3 and sys.argv[1] == 'saveorder' ):
|
||||
elif ( args == 3 and sys.argv[1] == 'saveorder' ):
|
||||
# Set order to EEPROM for device with "order"
|
||||
if (int(sys.argv[2])<1 or int(sys.argv[2])>255):
|
||||
print("Invalid order")
|
||||
|
@ -923,7 +923,7 @@ elif ( args == 3 and sys.argv[1] == 'saveorder' ):
|
|||
sys.exit()
|
||||
print("Error: Unable to find Cluster CTRL device with that order")
|
||||
|
||||
elif ( args == 3 and sys.argv[1] == 'saveusbboot' ):
|
||||
elif ( args == 3 and sys.argv[1] == 'saveusbboot' ):
|
||||
# Set usbboot to EEPROM for device with "order"
|
||||
if (int(sys.argv[2])<1 or int(sys.argv[2])>255):
|
||||
print("Invalid order")
|
||||
|
@ -935,7 +935,7 @@ elif ( args == 3 and sys.argv[1] == 'saveusbboot' ):
|
|||
sys.exit()
|
||||
print("Error: Unable to find Cluster CTRL device with that order")
|
||||
|
||||
elif ( args == 3 and sys.argv[1] == 'savepos' ):
|
||||
elif ( args == 3 and sys.argv[1] == 'savepos' ):
|
||||
# Set Power On State to EEPROM for device with "order"
|
||||
if (int(sys.argv[2])<1 or int(sys.argv[2])>255):
|
||||
print("Invalid order")
|
||||
|
@ -947,7 +947,7 @@ elif ( args == 3 and sys.argv[1] == 'savepos' ):
|
|||
sys.exit()
|
||||
print("Error: Unable to find Cluster CTRL device with that order")
|
||||
|
||||
elif ( args == 3 and sys.argv[1] == 'reset' ):
|
||||
elif ( args == 3 and sys.argv[1] == 'reset' ):
|
||||
# Reset Cluster CTRL device with "order"
|
||||
if (int(sys.argv[2])<1 or int(sys.argv[2])>255):
|
||||
print("Invalid order")
|
||||
|
@ -959,7 +959,7 @@ elif ( args == 3 and sys.argv[1] == 'reset' ):
|
|||
print("reset")
|
||||
sys.exit()
|
||||
print("Error: Unable to find Cluster CTRL device with that order")
|
||||
elif ( args == 3 and sys.argv[1] == 'fan' and (sys.argv[2] == 'on' or sys.argv[2] == 'off')):
|
||||
elif ( args == 3 and sys.argv[1] == 'fan' and (sys.argv[2] == 'on' or sys.argv[2] == 'off')):
|
||||
# Turn all fan on/off
|
||||
|
||||
# "ClusterHAT" using GPIO
|
||||
|
@ -980,7 +980,7 @@ elif ( args == 3 and sys.argv[1] == 'fan' and (sys.argv[2] == 'on' or sys.argv[2
|
|||
send_cmd(c, CMD_FAN, 1)
|
||||
else:
|
||||
send_cmd(c, CMD_FAN, 0)
|
||||
elif ( args == 4 and sys.argv[1] == 'fan' and (sys.argv[2] == 'on' or sys.argv[2] == 'off')):
|
||||
elif ( args == 4 and sys.argv[1] == 'fan' and (sys.argv[2] == 'on' or sys.argv[2] == 'off')):
|
||||
# Turn fan on/off for CTRL device with "order" or Controller if arg is "c"
|
||||
if ( sys.argv[3] != 'c' and (int(sys.argv[3])<1 or int(sys.argv[3])>255)):
|
||||
print("Invalid order")
|
||||
|
@ -1003,10 +1003,10 @@ elif ( args == 4 and sys.argv[1] == 'fan' and (sys.argv[2] == 'on' or sys.argv[2
|
|||
send_cmd(c, CMD_FAN, 0)
|
||||
sys.exit()
|
||||
|
||||
elif ( args == 2 and sys.argv[1] == 'maxpi' ):
|
||||
elif ( args == 2 and sys.argv[1] == 'maxpi' ):
|
||||
print ( maxpi )
|
||||
elif ( args == 2 and sys.argv[1] == 'init' ):
|
||||
elif ( args == 2 and sys.argv[1] == 'init' ):
|
||||
# First run init is handled above this is just here to allow the command to succeed
|
||||
pass
|
||||
else:
|
||||
else:
|
||||
print ("Error: Missing arguments")
|
||||
|
|
Loading…
Reference in a new issue