[lilass.git] / dsl.py

#!/usr/bin/python3
# DSL - easy Display Setup for Laptops
# Copyright (C) 2012-2014 Ralf Jung <post@ralfj.de>
#
# 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 2 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, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.

import argparse, sys, os, re, subprocess
from gui import getFrontend
frontend = getFrontend("cli") # the fallback, until we got a proper frontend. This is guaranteed to be available.

# for auto-config: common names of internal connectors
commonInternalConnectorNames = ['LVDS', 'LVDS0', 'LVDS1', 'LVDS-0', 'LVDS-1']

# this is as close as one can get to an enum in Python
class RelativeScreenPosition:
    LEFT          = 0
    RIGHT         = 1
    EXTERNAL_ONLY = 2

# storing what's necessary for screen setup
class ScreenSetup:
    def __init__(self, relPosition, intResolution, extResolution, extIsPrimary = False):
        '''relPosition must be one of the RelativeScreenPosition members, the resolutions must be (width, height) pairs'''
        self.relPosition = relPosition
        self.intResolution = intResolution # value doesn't matter if the internal screen is disabled
        self.extResolution = extResolution
        self.extIsPrimary = extIsPrimary or self.relPosition == RelativeScreenPosition.EXTERNAL_ONLY # external is always primary if it is the only one
    
    def getInternalArgs(self):
        if self.relPosition == RelativeScreenPosition.EXTERNAL_ONLY:
            return ["--off"]
        args = ["--mode", res2xrandr(self.intResolution)] # set internal screen to desired resolution
        if not self.extIsPrimary:
            args.append('--primary')
        return args
    
    def getExternalArgs(self, intName):
        args = ["--mode", res2xrandr(self.extResolution)] # set external screen to desired resolution
        if self.extIsPrimary:
            args.append('--primary')
        if self.relPosition == RelativeScreenPosition.LEFT:
            args += ['--left-of', intName]
        elif self.relPosition == RelativeScreenPosition.RIGHT:
            args += ['--right-of', intName]
        return args

# Load a section-less config file: maps parameter names to space-separated lists of strings (with shell quotation)
def loadConfigFile(filename):
    import shlex
    result = {}
    if not os.path.exists(filename):
        return result # no config file
    # read config file
    linenr = 0
    with open(filename) as f:
        for line in f:
            linenr += 1
            line = line.strip()
            if not len(line) or line.startswith("#"): continue # skip empty and comment lines
            try:
                # parse line
                pos = line.index("=") # will raise exception when substring is not found
                curKey = line[:pos].strip()
                result[curKey] = shlex.split(line[pos+1:]) # shlex.split also strips
            except Exception:
                raise Exception("Invalid config, line %d: Error parsing line (may be a quoting issue)." % linenr)
    # add some convencience get functions
    return result

# helper function: execute a process, return output as iterator, throw exception if there was an error
# you *must* iterate to the end if you use this!
def processOutputGen(*args):
    with subprocess.Popen(args, stdout=subprocess.PIPE) as p:
        for line in p.stdout:
            yield line.decode("utf-8")
    if p.returncode != 0:
        raise Exception("Error executing "+str(args))
def processOutputIt(*args):
    return list(processOutputGen(*args)) # list() iterates over the generator

# Run xrandr and return a dict of output names mapped to lists of available resolutions, each being a (width, height) pair.
# An empty list indicates that the connector is disabled.
def getXrandrInformation():
    connectors = {} # map of connector names to a list of resolutions
    connector = None # current connector
    for line in processOutputGen("xrandr", "-q"):
        # screen?
        m = re.search(r'^Screen [0-9]+: ', line)
        if m is not None: # ignore this line
            connector = None
            continue
        # new connector?
        m = re.search(r'^([\w\-]+) (dis)?connected ', line)
        if m is not None:
            connector = m.groups()[0]
            assert connector not in connectors
            connectors[connector] = []
            continue
        # new resolution?
        m = re.search(r'^   ([\d]+)x([\d]+) +', line)
        if m is not None:
            assert connector is not None
            connectors[connector].append((int(m.groups()[0]), int(m.groups()[1])))
            continue
        # unknown line
        # not fatal as my xrandr shows strange stuff when a display is enabled, but not connected
        #raise Exception("Unknown line in xrandr output:\n"+line)
        print("Warning: Unknown xrandr line %s" % line)
    return connectors

# convert a (width, height) pair into a string accepted by xrandr as argument for --mode
def res2xrandr(res):
    (w, h) = res
    return str(w)+'x'+str(h)

# convert a (width, height) pair into a string to be displayed to the user
def res2user(res):
    (w, h) = res
    # get ratio
    ratio = int(round(16.0*h/w))
    if ratio == 12: # 16:12 = 4:3
        strRatio = '4:3'
    elif ratio == 13: # 16:12.8 = 5:4
        strRatio = '5:4'
    else: # let's just hope this will never be 14 or more...
        strRatio = '16:%d' % ratio
    return '%dx%d (%s)' %(w, h, strRatio)

# return the first available connector from those listed in tryConnectors, skipping disabled connectors
def findAvailableConnector(tryConnectors, allConnectors):
    for connector in tryConnectors:
        if connector in allConnectors and allConnectors[connector]: # if the connector exists and is active (i.e. there is a resolution)
            return connector
    return None

# Return a (internalConnector, externalConnectors) pair: The name of the internal connector, and a list of external connectors.
# Use the config file at ~/.dsl.conf and fall back to auto-detection
def classifyConnectors(allConnectors):
    config = loadConfigFile(os.getenv('HOME') + '/.dsl.conf')
    # find internal connector
    if 'internalConnector' in config:
        if len(config['internalConnector']) != 1:
            raise Exception("You must specify exactly one internal connector.")
        internalConnector = config['internalConnector'][0]
        if not internalConnector in allConnectors:
            raise Exception("Connector %s does not exist, there is an error in your config file." % internalConnector)
    else:
        # auto-config
        internalConnector = findAvailableConnector(commonInternalConnectorNames, allConnectors)
        if internalConnector is None:
            raise Exception("Could not automatically find internal connector, please use ~/.dsl.conf to specify it manually.")
    # all the rest is external then, obviously - unless the user wants to do that manually
    if 'externalConnectors' in config:
        externalConnectors = config['externalConnectors']
        for connector in externalConnectors:
            if not connector in allConnectors:
                raise Exception("Connector %s does not exist, there is an error in your config file." % connector)
            if connector == internalConnector:
                raise Exception("%s is both internal and external, that doesn't make sense." % connector)
    else:
        externalConnectors = list(allConnectors.keys())
        externalConnectors.remove(internalConnector)
    if not externalConnectors:
        raise Exception("No external connector found - either your config is wrong, or your machine has only one connector.")
    # done!
    return (internalConnector, externalConnectors)

# if we run top-level
if __name__ == "__main__":
    try:
        # parse command-line arguments
        parser = argparse.ArgumentParser(description='easy Display Setup for Laptops')
        parser.add_argument("-f", "--frontend",
                            dest="frontend",
                            help="The frontend to be used for user interaction")
        parser.add_argument("-r", "--relative-position",
                            dest="rel_position", choices=('left', 'right', 'external-only'),
                            help="Position of external screen relative to internal one")
        parser.add_argument("-i", "--internal-only",
                            dest="internal_only", action='store_true',
                            help="Enable internal screen, disable all the others (as if no external screen was connected")
        cmdArgs = parser.parse_args()
        
        # load frontend
        frontend = getFrontend(cmdArgs.frontend)
        
        # load connectors and classify them
        connectors = getXrandrInformation()
        (internalConnector, externalConnectors) = classifyConnectors(connectors)
        
        # default: screen off
        connectorArgs = {} # maps connector names to xrand arguments
        for c in externalConnectors+[internalConnector]:
            connectorArgs[c] = ["--off"]
        
        # check whether we got an external screen or not
        # Check what to do
        usedExternalConnector = findAvailableConnector(externalConnectors, connectors) # *the* external connector which is actually used
        hasExternal = not cmdArgs.internal_only and usedExternalConnector is not None
        if hasExternal:
            # there's an external screen connected, we need to get a setup
            if cmdArgs.rel_position is not None:
                # use command-line arguments (can we do this relPosition stuff more elegant?)
                if cmdArgs.rel_position == 'left':
                    relPosition = RelativeScreenPosition.LEFT
                elif cmdArgs.rel_position == 'right':
                    relPosition = RelativeScreenPosition.RIGHT
                else:
                    relPosition = RelativeScreenPosition.EXTERNAL_ONLY
                setup = ScreenSetup(relPosition, connectors[internalConnector][0], connectors[usedExternalConnector][0]) # use default resolutions
            else:
                # use GUI
                setup = frontend.setup(connectors[internalConnector], connectors[usedExternalConnector])
            if setup is None: sys.exit(1) # the user canceled
            # apply it
            connectorArgs[internalConnector] = setup.getInternalArgs()
            connectorArgs[usedExternalConnector] = setup.getExternalArgs(internalConnector)
        else:
            # use first resolution of internal connector
            connectorArgs[internalConnector] = ["--mode", res2xrandr(connectors[internalConnector][0]), "--primary"]
        
        # and do it
        call = ["xrandr"]
        for name in connectorArgs:
            call += ["--output", name] + connectorArgs[name]
        print("Call that will be made:",call)
        subprocess.check_call(call)
        
        # make sure the internal screen is really, *really* turned on if there is no external screen
        if not hasExternal:
            backlight = float(subprocess.check_output(["xbacklight", "-get"]).strip())
            if backlight == 0: # it's completely turned off, we better enable it
                subprocess.check_call(["xbacklight", "-set", "100"])
    except Exception as e:
        frontend.error(str(e))
        raise