fish-shell/share/tools/web_config/webconfig.py

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2012-06-05 14:25:11 +00:00
#!/usr/bin/env python
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from __future__ import unicode_literals
# Whether we're Python 2
import sys
import multiprocessing.pool
import os
import operator
import socket
IS_PY2 = sys.version_info[0] == 2
if IS_PY2:
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import SimpleHTTPServer
import SocketServer
from urlparse import parse_qs
else:
import http.server as SimpleHTTPServer
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import socketserver as SocketServer
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from urllib.parse import parse_qs
# Check to see if IPv6 is enabled in the kernel
HAS_IPV6 = True
try:
s = socket.socket(socket.AF_INET6, socket.SOCK_DGRAM)
s.close()
except:
HAS_IPV6 = False
# Disable CLI web browsers
term = os.environ.pop('TERM', None)
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import webbrowser
if term:
os.environ['TERM'] = term
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import subprocess
import re, socket, cgi, select, time, glob, random, string, binascii
try:
import json
except ImportError:
import simplejson as json
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FISH_BIN_PATH = False # will be set later
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def run_fish_cmd(text):
from subprocess import PIPE
# ensure that fish is using UTF-8
ctype = os.environ.get("LC_ALL", os.environ.get("LC_CTYPE", os.environ.get("LANG")))
env = None
if ctype is None or re.search(r"\.utf-?8$", ctype, flags=re.I) is None:
# override LC_CTYPE with en_US.UTF-8
# We're assuming this locale exists.
# Fish makes the same assumption in config.fish
env = os.environ.copy()
env.update(LC_CTYPE="en_US.UTF-8", LANG="en_US.UTF-8")
p = subprocess.Popen([FISH_BIN_PATH], stdin=PIPE, stdout=PIPE, stderr=PIPE, env=env)
out, err = p.communicate(text.encode('utf-8'))
out = out.decode('utf-8', 'replace')
err = err.decode('utf-8', 'replace')
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return(out, err)
def escape_fish_cmd(text):
# Replace one backslash with two, and single quotes with backslash-quote
escaped = text.replace('\\', '\\\\').replace("'", "\\'")
return "'" + escaped + "'"
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named_colors = {
'black' : '000000',
Improve compatibility with 0-16 color terminals. Fish assumed that it could use tparm to emit escapes to set colors as long as the color was under 16 or max_colors from terminfo was 256:: if (idx < 16 || term256_support_is_native()) { // Use tparm to emit color escape writembs(tparm(todo, idx); If a terminal has max_colors = 8, here is what happenened, except inside fish: > env TERM=xterm tput setaf 7 | xxd 00000000: 1b5b 3337 6d .[37m > env TERM=xterm tput setaf 9 | xxd 00000000: 1b5b 3338 6d .[39m The first escape is good, that second escape is not valid. Bright colors should start at \e[90m: > env TERM=xterm-16color tput setaf 9 | xxd 00000000: 1b5b 3931 6d .[91m This is what caused "white" not to work in #3176 in Terminal.app, and obviously isn't good for real low-color terminals either. So we replace the term256_support_is_native(), which just checked if max_colors is 256 or not, with a function that takes an argument and checks terminfo for that to see if tparm can handle it. We only use this test, because otherwise, tparm should be expected to output garbage: /// Returns true if we think tparm can handle outputting a color index static bool term_supports_color_natively(unsigned int c) { return max_colors >= c; } ... if (term_supports_color_natively(idx) { And if terminfo can't do it, the "forced" escapes no longer use the fancy format when handling colors under 16, as this is not going to be compatible with low color terminals. The code before used: else { char buff[16] = ""; snprintf(buff, sizeof buff, "\x1b[%d;5;%dm", is_fg ? 38 : 48, idx); I added an intermediate format for colors 0-15: else { // We are attempting to bypass the term here. Generate the ANSI escape sequence ourself. char buff[16] = ""; if (idx < 16) { snprintf(buff, sizeof buff, "\x1b[%dm", ((idx > 7) ? 82 : 30) + idx + !is_fg * 10); } else { snprintf(buff, sizeof buff, "\x1b[%d;5;%dm", is_fg ? 38 : 48, idx); } Restores harmony to white, brwhite, brblack, black color names. We don't want "white" to refer to color color #16, but to the standard color #8. #16 is "brwhite". Move comments from output.h to output.cpp Nuke the config.fish set_color hack for linux VTs. Sync up our various incomplete color lists and fix all color values. Colors 0-8 are assumed to be brights - e.g. red was FF0000. Perplexing! Using this table: <http://www.calmar.ws/vim/256-xterm-24bit-rgb-color-chart.html> Fixes #3176
2016-07-21 17:55:28 +00:00
'red' : '800000',
'green' : '008000',
'brown' : '725000',
Improve compatibility with 0-16 color terminals. Fish assumed that it could use tparm to emit escapes to set colors as long as the color was under 16 or max_colors from terminfo was 256:: if (idx < 16 || term256_support_is_native()) { // Use tparm to emit color escape writembs(tparm(todo, idx); If a terminal has max_colors = 8, here is what happenened, except inside fish: > env TERM=xterm tput setaf 7 | xxd 00000000: 1b5b 3337 6d .[37m > env TERM=xterm tput setaf 9 | xxd 00000000: 1b5b 3338 6d .[39m The first escape is good, that second escape is not valid. Bright colors should start at \e[90m: > env TERM=xterm-16color tput setaf 9 | xxd 00000000: 1b5b 3931 6d .[91m This is what caused "white" not to work in #3176 in Terminal.app, and obviously isn't good for real low-color terminals either. So we replace the term256_support_is_native(), which just checked if max_colors is 256 or not, with a function that takes an argument and checks terminfo for that to see if tparm can handle it. We only use this test, because otherwise, tparm should be expected to output garbage: /// Returns true if we think tparm can handle outputting a color index static bool term_supports_color_natively(unsigned int c) { return max_colors >= c; } ... if (term_supports_color_natively(idx) { And if terminfo can't do it, the "forced" escapes no longer use the fancy format when handling colors under 16, as this is not going to be compatible with low color terminals. The code before used: else { char buff[16] = ""; snprintf(buff, sizeof buff, "\x1b[%d;5;%dm", is_fg ? 38 : 48, idx); I added an intermediate format for colors 0-15: else { // We are attempting to bypass the term here. Generate the ANSI escape sequence ourself. char buff[16] = ""; if (idx < 16) { snprintf(buff, sizeof buff, "\x1b[%dm", ((idx > 7) ? 82 : 30) + idx + !is_fg * 10); } else { snprintf(buff, sizeof buff, "\x1b[%d;5;%dm", is_fg ? 38 : 48, idx); } Restores harmony to white, brwhite, brblack, black color names. We don't want "white" to refer to color color #16, but to the standard color #8. #16 is "brwhite". Move comments from output.h to output.cpp Nuke the config.fish set_color hack for linux VTs. Sync up our various incomplete color lists and fix all color values. Colors 0-8 are assumed to be brights - e.g. red was FF0000. Perplexing! Using this table: <http://www.calmar.ws/vim/256-xterm-24bit-rgb-color-chart.html> Fixes #3176
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'yellow' : '808000',
'blue' : '000080',
'magenta' : '800080',
'purple' : '800080',
'cyan' : '008080',
'grey' : 'e5e5e5',
'brgrey' : '555555',
Improve compatibility with 0-16 color terminals. Fish assumed that it could use tparm to emit escapes to set colors as long as the color was under 16 or max_colors from terminfo was 256:: if (idx < 16 || term256_support_is_native()) { // Use tparm to emit color escape writembs(tparm(todo, idx); If a terminal has max_colors = 8, here is what happenened, except inside fish: > env TERM=xterm tput setaf 7 | xxd 00000000: 1b5b 3337 6d .[37m > env TERM=xterm tput setaf 9 | xxd 00000000: 1b5b 3338 6d .[39m The first escape is good, that second escape is not valid. Bright colors should start at \e[90m: > env TERM=xterm-16color tput setaf 9 | xxd 00000000: 1b5b 3931 6d .[91m This is what caused "white" not to work in #3176 in Terminal.app, and obviously isn't good for real low-color terminals either. So we replace the term256_support_is_native(), which just checked if max_colors is 256 or not, with a function that takes an argument and checks terminfo for that to see if tparm can handle it. We only use this test, because otherwise, tparm should be expected to output garbage: /// Returns true if we think tparm can handle outputting a color index static bool term_supports_color_natively(unsigned int c) { return max_colors >= c; } ... if (term_supports_color_natively(idx) { And if terminfo can't do it, the "forced" escapes no longer use the fancy format when handling colors under 16, as this is not going to be compatible with low color terminals. The code before used: else { char buff[16] = ""; snprintf(buff, sizeof buff, "\x1b[%d;5;%dm", is_fg ? 38 : 48, idx); I added an intermediate format for colors 0-15: else { // We are attempting to bypass the term here. Generate the ANSI escape sequence ourself. char buff[16] = ""; if (idx < 16) { snprintf(buff, sizeof buff, "\x1b[%dm", ((idx > 7) ? 82 : 30) + idx + !is_fg * 10); } else { snprintf(buff, sizeof buff, "\x1b[%d;5;%dm", is_fg ? 38 : 48, idx); } Restores harmony to white, brwhite, brblack, black color names. We don't want "white" to refer to color color #16, but to the standard color #8. #16 is "brwhite". Move comments from output.h to output.cpp Nuke the config.fish set_color hack for linux VTs. Sync up our various incomplete color lists and fix all color values. Colors 0-8 are assumed to be brights - e.g. red was FF0000. Perplexing! Using this table: <http://www.calmar.ws/vim/256-xterm-24bit-rgb-color-chart.html> Fixes #3176
2016-07-21 17:55:28 +00:00
'white' : 'c0c0c0',
'brblack' : '808080',
'brred' : 'ff0000',
'brgreen' : '00ff00',
'brbrown' : 'ffff00',
'bryellow' : 'ffff00',
'brblue' : '0000ff',
'brmagenta' : 'ff00ff',
'brpurple' : 'ff00ff',
'brcyan' : '00ffff',
'brwhite' : 'ffffff'
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}
bindings_blacklist = set(["self-insert", "'begin;end'"])
def parse_one_color(comp):
""" A basic function to parse a single color value like 'FFA000' """
if comp in named_colors:
# Named color
return named_colors[comp]
elif re.match(r"[0-9a-fA-F]{3}", comp) is not None or re.match(r"[0-9a-fA-F]{6}", comp) is not None:
# Hex color
return comp
else:
# Unknown
return ''
def better_color(c1, c2):
""" Indicate which color is "better", i.e. prefer term256 colors """
if not c2: return c1
if not c1: return c2
if c1 == 'normal': return c2
if c2 == 'normal': return c1
if c2 in named_colors: return c1
if c1 in named_colors: return c2
return c1
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def parse_color(color_str):
""" A basic function to parse a color string, for example, 'red' '--bold' """
comps = color_str.split(' ')
color = 'normal'
background_color = ''
bold, underline = False, False
for comp in comps:
# Remove quotes
comp = comp.strip("'\" ")
if comp == '--bold':
bold = True
elif comp == '--underline':
underline = True
elif comp.startswith('--background='):
# Background color
background_color = better_color(background_color, parse_one_color(comp[len('--background='):]))
else:
# Regular color
color = better_color(color, parse_one_color(comp))
return {"color": color, "background": background_color, "bold": bold, "underline": underline}
def parse_bool(val):
val = val.lower()
if val.startswith('f') or val.startswith('0'): return False
if val.startswith('t') or val.startswith('1'): return True
return bool(val)
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def html_color_for_ansi_color_index(val):
arr = ['black', '#AA0000', '#00AA00', '#AA5500', '#0000AA', '#AA00AA', '#00AAAA', '#AAAAAA', '#555555', '#FF5555', '#55FF55', '#FFFF55', '#5555FF', '#FF55FF', '#55FFFF', 'white', '#000000', '#00005f', '#000087', '#0000af', '#0000d7', '#0000ff', '#005f00', '#005f5f', '#005f87', '#005faf', '#005fd7', '#005fff', '#008700', '#00875f', '#008787', '#0087af', '#0087d7', '#0087ff', '#00af00', '#00af5f', '#00af87', '#00afaf', '#00afd7', '#00afff', '#00d700', '#00d75f', '#00d787', '#00d7af', '#00d7d7', '#00d7ff', '#00ff00', '#00ff5f', '#00ff87', '#00ffaf', '#00ffd7', '#00ffff', '#5f0000', '#5f005f', '#5f0087', '#5f00af', '#5f00d7', '#5f00ff', '#5f5f00', '#5f5f5f', '#5f5f87', '#5f5faf', '#5f5fd7', '#5f5fff', '#5f8700', '#5f875f', '#5f8787', '#5f87af', '#5f87d7', '#5f87ff', '#5faf00', '#5faf5f', '#5faf87', '#5fafaf', '#5fafd7', '#5fafff', '#5fd700', '#5fd75f', '#5fd787', '#5fd7af', '#5fd7d7', '#5fd7ff', '#5fff00', '#5fff5f', '#5fff87', '#5fffaf', '#5fffd7', '#5fffff', '#870000', '#87005f', '#870087', '#8700af', '#8700d7', '#8700ff', '#875f00', '#875f5f', '#875f87', '#875faf', '#875fd7', '#875fff', '#878700', '#87875f', '#878787', '#8787af', '#8787d7', '#8787ff', '#87af00', '#87af5f', '#87af87', '#87afaf', '#87afd7', '#87afff', '#87d700', '#87d75f', '#87d787', '#87d7af', '#87d7d7', '#87d7ff', '#87ff00', '#87ff5f', '#87ff87', '#87ffaf', '#87ffd7', '#87ffff', '#af0000', '#af005f', '#af0087', '#af00af', '#af00d7', '#af00ff', '#af5f00', '#af5f5f', '#af5f87', '#af5faf', '#af5fd7', '#af5fff', '#af8700', '#af875f', '#af8787', '#af87af', '#af87d7', '#af87ff', '#afaf00', '#afaf5f', '#afaf87', '#afafaf', '#afafd7', '#afafff', '#afd700', '#afd75f', '#afd787', '#afd7af', '#afd7d7', '#afd7ff', '#afff00', '#afff5f', '#afff87', '#afffaf', '#afffd7', '#afffff', '#d70000', '#d7005f', '#d70087', '#d700af', '#d700d7', '#d700ff', '#d75f00', '#d75f5f', '#d75f87', '#d75faf', '#d75fd7', '#d75fff', '#d78700', '#d7875f', '#d78787', '#d787af', '#d787d7', '#d787ff', '#d7af00', '#d7af5f', '#d7af87', '#d7afaf', '#d7afd7', '#d7afff', '#d7d700', '#d7d75f', '#d7d787', '#d7d7af', '#d7d7d7', '#d7d7ff', '#d7ff00', '#d7ff5f', '#d7ff87', '#d7ffaf', '#d7ffd7', '#d7ffff', '#ff0000', '#ff005f', '#ff0087', '#ff00af', '#ff00d7', '#ff00ff', '#ff5f00', '#ff5f5f', '#ff5f87', '#ff5faf', '#ff5fd7', '#ff5fff', '#ff8700', '#ff875f', '#ff8787', '#ff87af', '#ff87d7', '#ff87ff', '#ffaf00', '#ffaf5f', '#ffaf87', '#ffafaf', '#ffafd7', '#ffafff', '#ffd700', '#ffd75f', '#ffd787', '#ffd7af', '#ffd7d7', '#ffd7ff', '#ffff00', '#ffff5f', '#ffff87', '#ffffaf', '#ffffd7', '#ffffff', '#080808', '#121212', '#1c1c1c', '#262626', '#303030', '#3a3a3a', '#444444', '#4e4e4e', '#585858', '#626262', '#6c6c6c', '#767676', '#808080', '#8a8a8a', '#949494', '#9e9e9e', '#a8a8a8', '#b2b2b2', '#bcbcbc', '#c6c6c6', '#d0d0d0', '#dadada', '#e4e4e4', '#eeeeee']
if val < 0 or val >= len(arr):
return ''
else:
return arr[val]
# Function to return special ANSI escapes like exit_attribute_mode
g_special_escapes_dict = None
def get_special_ansi_escapes():
global g_special_escapes_dict
if g_special_escapes_dict is None:
import curses
g_special_escapes_dict = {}
curses.setupterm()
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# Helper function to get a value for a tparm
def get_tparm(key):
val = None
key = curses.tigetstr("sgr0")
if key: val = curses.tparm(key)
if val: val = val.decode('utf-8')
return val
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# Just a few for now
g_special_escapes_dict['exit_attribute_mode'] = get_tparm('sgr0')
g_special_escapes_dict['bold'] = get_tparm('bold')
g_special_escapes_dict['underline'] = get_tparm('smul')
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return g_special_escapes_dict
# Given a known ANSI escape sequence, convert it to HTML and append to the list
# Returns whether we have an open <span>
def append_html_for_ansi_escape(full_val, result, span_open):
# Strip off the initial \x1b[ and terminating m
val = full_val[2:-1]
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# Helper function to close a span if it's open
def close_span():
if span_open:
result.append('</span>')
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# term256 foreground color
match = re.match('38;5;(\d+)', val)
if match is not None:
close_span()
html_color = html_color_for_ansi_color_index(int(match.group(1)))
result.append('<span style="color: ' + html_color + '">')
return True # span now open
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# term8 foreground color
if val in [str(x) for x in range(30, 38)]:
close_span()
html_color = html_color_for_ansi_color_index(int(val) - 30)
result.append('<span style="color: ' + html_color + '">')
return True # span now open
# Try special escapes
special_escapes = get_special_ansi_escapes()
if full_val == special_escapes['exit_attribute_mode']:
close_span()
return False
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# We don't handle bold or underline yet
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# Do nothing on failure
return span_open
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def strip_ansi(val):
# Make a half-assed effort to strip ANSI control sequences
# We assume that all such sequences start with 0x1b and end with m,
# which catches most cases
return re.sub("\x1b[^m]*m", '', val)
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def ansi_prompt_line_width(val):
# Given an ANSI prompt, return the length of its longest line, as in the number of characters it takes up
# Start by stripping off ANSI
stripped_val = strip_ansi(val)
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# Now count the longest line
return max([len(x) for x in stripped_val.split('\n')])
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def ansi_to_html(val):
# Split us up by ANSI escape sequences
# We want to catch not only the standard color codes, but also things like sgr0
# Hence this lame check
# Note that Python 2.6 doesn't have a flag param to re.split, so we have to compile it first
reg = re.compile("""
( # Capture
\x1b # Escape
[^m]+ # One or more non-'m's
m # Literal m terminates the sequence
) # End capture
""", re.VERBOSE)
separated = reg.split(val)
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# We have to HTML escape the text and convert ANSI escapes into HTML
# Collect it all into this array
result = []
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span_open = False
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# Text is at even indexes, escape sequences at odd indexes
for i in range(len(separated)):
component = separated[i]
if i % 2 == 0:
# It's text, possibly empty
# Clean up other ANSI junk
result.append(cgi.escape(strip_ansi(component)))
else:
# It's an escape sequence. Close the previous escape.
span_open = append_html_for_ansi_escape(component, result, span_open)
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# Close final escape
if span_open: result.append('</span>')
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# Remove empty elements
result = [x for x in result if x]
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# Clean up empty spans, the nasty way
idx = len(result) - 1
while idx >= 1:
if result[idx] == '</span>' and result[idx-1].startswith('<span'):
# Empty span, delete these two
result[idx-1:idx+1] = []
idx = idx - 1
idx = idx - 1
return ''.join(result)
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class FishVar:
""" A class that represents a variable """
def __init__(self, name, value):
self.name = name
self.value = value
self.universal = False
self.exported = False
def get_json_obj(self):
# Return an array(3): name, value, flags
flags = []
if self.universal: flags.append('universal')
if self.exported: flags.append('exported')
return {"name": self.name, "value": self.value, "Flags": ', '.join(flags)}
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class FishBinding:
"""A class that represents keyboard binding """
def __init__(self, command, raw_binding, readable_binding, description=None):
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self.command = command
self.bindings = []
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self.description = description
self.add_binding(raw_binding, readable_binding)
def add_binding(self, raw_binding, readable_binding):
for i in self.bindings:
if i['readable_binding'] == readable_binding:
i['raw_bindings'].append(raw_binding)
break
else:
self.bindings.append({'readable_binding':readable_binding, 'raw_bindings':[raw_binding]})
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def get_json_obj(self):
return {"command" : self.command, "bindings": self.bindings, "description": self.description}
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class BindingParser:
""" Class to parse codes for bind command """
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#TODO: What does snext and sprevious mean ?
readable_keys= { "dc":"Delete", "npage": "Page Up", "ppage":"Page Down",
"sdc": "Shift Delete", "shome": "Shift Home",
"left": "Left Arrow", "right": "Right Arrow",
"up": "Up Arrow", "down": "Down Arrow",
"sleft": "Shift Left", "sright": "Shift Right",
"btab": "Shift Tab"
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}
def set_buffer(self, buffer):
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""" Sets code to parse """
self.buffer = buffer or b''
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self.index = 0
def get_char(self):
""" Gets next character from buffer """
if self.index >= len(self.buffer):
return '\0'
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c = self.buffer[self.index]
self.index += 1
return c
def unget_char(self):
""" Goes back by one character for parsing """
self.index -= 1
def end(self):
""" Returns true if reached end of buffer """
return self.index >= len(self.buffer)
def parse_control_sequence(self):
""" Parses terminal specifiec control sequences """
result = ''
c = self.get_char()
# \e0 is used to denote start of control sequence
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if c == 'O':
c = self.get_char()
# \[1\; is start of control sequence
if c == '1':
b = self.get_char(); c = self.get_char()
if b == '\\' and c == '~':
result += "Home"
elif c == ";":
c = self.get_char()
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# 3 is Alt
if c == '3':
result += "ALT - "
c = self.get_char()
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# \[4\~ is End
if c == '4':
b = self.get_char(); c = self.get_char()
if b == '\\' and c == '~':
result += "End"
# 5 is Ctrl
if c == '5':
result += "CTRL - "
c = self.get_char()
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# 9 is Alt
if c == '9':
result += "ALT - "
c = self.get_char()
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if c == 'A':
result += 'Up Arrow'
elif c == 'B':
result += 'Down Arrow'
elif c == 'C':
result += 'Right Arrow'
elif c == 'D':
result += "Left Arrow"
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elif c == 'F':
result += "End"
elif c == 'H':
result += "Home"
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return result
def get_readable_binding(self):
""" Gets a readable representation of binding """
try:
result = BindingParser.readable_keys[self.buffer.lower()]
except KeyError:
result = self.parse_binding()
return result
def parse_binding(self):
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readable_command = ''
result = ''
alt = ctrl = False
while not self.end():
c = self.get_char()
if c == '\\':
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c = self.get_char()
if c == 'e':
d = self.get_char()
if d == 'O':
self.unget_char()
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result += self.parse_control_sequence()
elif d == '\\':
if self.get_char() == '[':
result += self.parse_control_sequence()
else:
self.unget_char()
self.unget_char()
alt = True
elif d == '\0':
result += 'ESC'
else:
alt = True
self.unget_char()
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elif c == 'c':
ctrl = True
elif c == 'n':
result += 'Enter'
elif c == 't':
result += 'Tab'
elif c == 'b':
result += 'Backspace'
elif c.isalpha():
result += '\\' + c
else:
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result += c
elif c == '\x7f':
result += 'Backspace'
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else:
result += c
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if ctrl:
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readable_command += 'CTRL - '
if alt:
readable_command += 'ALT - '
if result == '':
return 'unknown-control-sequence'
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return readable_command + result
class FishConfigTCPServer(SocketServer.TCPServer):
"""TCPServer that only accepts connections from localhost (IPv4/IPv6)."""
WHITELIST = set(['::1', '::ffff:127.0.0.1', '127.0.0.1'])
address_family = socket.AF_INET6 if HAS_IPV6 else socket.AF_INET
def verify_request(self, request, client_address):
return client_address[0] in FishConfigTCPServer.WHITELIST
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class FishConfigHTTPRequestHandler(SimpleHTTPServer.SimpleHTTPRequestHandler):
def write_to_wfile(self, txt):
self.wfile.write(txt.encode('utf-8'))
def do_get_colors(self):
# Looks for fish_color_*.
# Returns an array of lists [color_name, color_description, color_value]
result = []
# Make sure we return at least these
remaining = set(['normal',
'error',
'command',
'end',
'param',
'comment',
'match',
'search_match',
'operator',
'escape',
'quote',
'redirection',
'valid_path',
'autosuggestion'
])
# Here are our color descriptions
descriptions = {
'normal': 'Default text',
'command': 'Ordinary commands',
'quote': 'Text within quotes',
'redirection': 'Like | and >',
'end': 'Like ; and &',
'error': 'Potential errors',
'param': 'Command parameters',
'comment': 'Comments start with #',
'match': 'Matching parenthesis',
'search_match': 'History searching',
'history_current': 'Directory history',
'operator': 'Like * and ~',
'escape': 'Escapes like \\n',
'cwd': 'Current directory',
'cwd_root': 'cwd for root user',
'valid_path': 'Valid paths',
'autosuggestion': 'Suggested completion'
}
out, err = run_fish_cmd('set -L')
for line in out.split('\n'):
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for match in re.finditer(r"^fish_color_(\S+) ?(.*)", line):
color_name, color_value = [x.strip() for x in match.group(1, 2)]
color_desc = descriptions.get(color_name, '')
data = { "name": color_name, "description" : color_desc }
data.update(parse_color(color_value))
result.append(data)
remaining.discard(color_name)
# Sort our result (by their keys)
result.sort(key=operator.itemgetter('name'))
# Ensure that we have all the color names we know about, so that if the
# user deletes one he can still set it again via the web interface
for color_name in remaining:
color_desc = descriptions.get(color_name, '')
result.append([color_name, color_desc, parse_color('')])
return result
def do_get_functions(self):
out, err = run_fish_cmd('functions')
out = out.strip()
# Not sure why fish sometimes returns this with newlines
if "\n" in out:
return out.split('\n')
else:
return out.strip().split(', ')
def do_get_variable_names(self, cmd):
" Given a command like 'set -U' return all the variable names "
out, err = run_fish_cmd(cmd)
return out.split('\n')
def do_get_variables(self):
out, err = run_fish_cmd('set -L')
# Put all the variables into a dictionary
vars = {}
for line in out.split('\n'):
comps = line.split(' ', 1)
if len(comps) < 2: continue
fish_var = FishVar(comps[0], comps[1])
vars[fish_var.name] = fish_var
# Mark universal variables. L means don't abbreviate.
for name in self.do_get_variable_names('set -nUL'):
if name in vars: vars[name].universal = True
# Mark exported variables. L means don't abbreviate.
for name in self.do_get_variable_names('set -nxL'):
if name in vars: vars[name].exported = True
return [vars[key].get_json_obj() for key in sorted(vars.keys(), key=lambda x: x.lower())]
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def do_get_bindings(self):
""" Get key bindings """
# Running __fish_config_interactive print fish greeting and
# loads key bindings
greeting, err = run_fish_cmd(' __fish_config_interactive')
# Load the key bindings and then list them with bind
out, err = run_fish_cmd('__fish_config_interactive; bind')
# Remove fish greeting from output
out = out[len(greeting):]
# Put all the bindings into a list
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bindings = []
command_to_binding = {}
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binding_parser = BindingParser()
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for line in out.split('\n'):
comps = line.split(' ', 2)
if len(comps) < 3:
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continue
if comps[1] == '-k':
key_name, command = comps[2].split(' ', 1)
binding_parser.set_buffer(key_name.capitalize())
else:
key_name = None
command = comps[2]
binding_parser.set_buffer(comps[1])
if command in bindings_blacklist:
continue
readable_binding = binding_parser.get_readable_binding()
if command in command_to_binding:
fish_binding = command_to_binding[command]
fish_binding.add_binding(line, readable_binding)
else:
fish_binding = FishBinding(command, line, readable_binding)
bindings.append(fish_binding)
command_to_binding[command] = fish_binding
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return [ binding.get_json_obj() for binding in bindings ]
def do_get_history(self):
# Use \x1e ("record separator") to distinguish between history items. The first
# backslash is so Python passes one backslash to fish
out, err = run_fish_cmd('for val in $history; echo -n $val \\x1e; end')
result = out.split(' \x1e')
if result: result.pop() # Trim off the trailing element
return result
def do_get_color_for_variable(self, name):
"Return the color with the given name, or the empty string if there is none"
out, err = run_fish_cmd("echo -n $" + name)
return out
def do_set_color_for_variable(self, name, color, background_color, bold, underline):
if not color: color = 'normal'
"Sets a color for a fish color name, like 'autosuggestion'"
command = 'set -U fish_color_' + name
if color: command += ' ' + color
if background_color: command += ' --background=' + background_color
if bold: command += ' --bold'
if underline: command += ' --underline'
out, err = run_fish_cmd(command)
return out
def do_get_function(self, func_name):
out, err = run_fish_cmd('functions ' + func_name)
return out
def do_delete_history_item(self, history_item_text):
# It's really lame that we always return success here
out, err = run_fish_cmd('builtin history --save --delete -- ' + escape_fish_cmd(history_item_text))
return True
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def do_set_prompt_function(self, prompt_func):
cmd = prompt_func + '\n' + 'funcsave fish_prompt'
out, err = run_fish_cmd(cmd)
return len(err) == 0
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def do_get_prompt(self, command_to_run, prompt_function_text, extras_dict):
# Return the prompt output by the given command
prompt_demo_ansi, err = run_fish_cmd(command_to_run)
prompt_demo_html = ansi_to_html(prompt_demo_ansi)
prompt_demo_font_size = self.font_size_for_ansi_prompt(prompt_demo_ansi)
result = {'function': prompt_function_text, 'demo': prompt_demo_html, 'font_size': prompt_demo_font_size }
if extras_dict:
result.update(extras_dict)
return result
def do_get_current_prompt(self):
# Return the current prompt
# We run 'false' to demonstrate how the prompt shows the command status (#1624)
prompt_func, err = run_fish_cmd('functions fish_prompt')
result = self.do_get_prompt('builtin cd "' + initial_wd + '" ; false ; fish_prompt', prompt_func.strip(), {'name': 'Current'})
return result
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def do_get_sample_prompt(self, text, extras_dict):
# Return the prompt you get from the given text
# extras_dict is a dictionary whose values get merged in
# We run 'false' to demonstrate how the prompt shows the command status (#1624)
cmd = text + "\n builtin cd \"" + initial_wd + "\" \n false \n fish_prompt\n"
return self.do_get_prompt(cmd, text.strip(), extras_dict)
def parse_one_sample_prompt_hash(self, line, result_dict):
# Allow us to skip whitespace, etc.
if not line: return True
if line.isspace(): return True
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# Parse a comment hash like '# name: Classic'
match = re.match(r"#\s*(\w+?): (.+)", line, re.IGNORECASE)
if match:
key = match.group(1).strip()
value = match.group(2).strip()
result_dict[key] = value
return True
# Skip other hash comments
return line.startswith('#')
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def read_one_sample_prompt(self, path):
try:
with open(path, 'rb') as fd:
extras_dict = {}
# Read one sample prompt from fd
function_lines = []
parsing_hashes = True
unicode_lines = (line.decode('utf-8') for line in fd)
for line in unicode_lines:
# Parse hashes until parse_one_sample_prompt_hash return False
if parsing_hashes:
parsing_hashes = self.parse_one_sample_prompt_hash(line, extras_dict)
# Maybe not we're not parsing hashes, or maybe we already were not
if not parsing_hashes:
function_lines.append(line)
func = ''.join(function_lines).strip()
result = self.do_get_sample_prompt(func, extras_dict)
return result
except IOError:
# Ignore unreadable files, etc.
return None
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def do_get_sample_prompts_list(self):
pool = multiprocessing.pool.ThreadPool(processes=8)
# Kick off the "Current" meta-sample
current_metasample_async = pool.apply_async(self.do_get_current_prompt)
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# Read all of the prompts in sample_prompts
paths = glob.iglob('sample_prompts/*.fish')
sample_results = pool.map(self.read_one_sample_prompt, paths, 1)
# Finish up
result = []
result.append(current_metasample_async.get())
result.extend([r for r in sample_results if r])
return result
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def do_get_abbreviations(self):
out, err = run_fish_cmd('echo -n -s $fish_user_abbreviations\x1e')
lines = (x for x in out.rstrip().split('\x1e'))
abbrs = (re.split('[ =]', x, maxsplit=1) for x in lines if x)
result = [{'word': x, 'phrase': y} for x, y in abbrs]
return result
def do_remove_abbreviation(self, abbreviation):
out, err = run_fish_cmd('abbr --erase %s' % abbreviation['word'])
if out or err:
return err
else:
return True
def do_save_abbreviation(self, abbreviation):
out, err = run_fish_cmd('abbr --add \'%s %s\'' % (abbreviation['word'], abbreviation['phrase']))
if err:
return err
else:
return True
def secure_startswith(self, haystack, needle):
if len(haystack) < len(needle):
return False
bits = 0
for x,y in zip(haystack, needle):
bits |= ord(x) ^ ord(y)
return bits == 0
def font_size_for_ansi_prompt(self, prompt_demo_ansi):
width = ansi_prompt_line_width(prompt_demo_ansi)
# Pick a font size
if width >= 70: font_size = '8pt'
if width >= 60: font_size = '10pt'
elif width >= 50: font_size = '11pt'
elif width >= 40: font_size = '13pt'
elif width >= 30: font_size = '15pt'
elif width >= 25: font_size = '16pt'
elif width >= 20: font_size = '17pt'
else: font_size = '18pt'
return font_size
def do_GET(self):
p = self.path
authpath = '/' + authkey
if self.secure_startswith(p, authpath):
p = p[len(authpath):]
else:
return self.send_error(403)
self.path = p
if p == '/colors/':
output = self.do_get_colors()
elif p == '/functions/':
output = self.do_get_functions()
elif p == '/variables/':
output = self.do_get_variables()
elif p == '/history/':
# start = time.time()
output = self.do_get_history()
# end = time.time()
# print "History: ", end - start
elif p == '/sample_prompts/':
output = self.do_get_sample_prompts_list()
elif re.match(r"/color/(\w+)/", p):
name = re.match(r"/color/(\w+)/", p).group(1)
output = self.do_get_color_for_variable(name)
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elif p == '/bindings/':
output = self.do_get_bindings()
elif p == '/abbreviations/':
output = self.do_get_abbreviations()
else:
return SimpleHTTPServer.SimpleHTTPRequestHandler.do_GET(self)
# Return valid output
self.send_response(200)
self.send_header('Content-type','application/json')
self.end_headers()
self.write_to_wfile('\n')
# Output JSON
self.write_to_wfile(json.dumps(output))
def do_POST(self):
p = self.path
authpath = '/' + authkey
if self.secure_startswith(p, authpath):
p = p[len(authpath):]
else:
return self.send_error(403)
self.path = p
ctype, pdict = cgi.parse_header(self.headers['content-type'])
if ctype == 'multipart/form-data':
postvars = cgi.parse_multipart(self.rfile, pdict)
elif ctype == 'application/x-www-form-urlencoded':
length = int(self.headers['content-length'])
url_str = self.rfile.read(length).decode('utf-8')
postvars = parse_qs(url_str, keep_blank_values=1)
elif ctype == 'application/json':
length = int(self.headers['content-length'])
url_str = self.rfile.read(length).decode(pdict['charset'])
postvars = json.loads(url_str)
else:
postvars = {}
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if p == '/set_color/':
what = postvars.get('what')
color = postvars.get('color')
background_color = postvars.get('background_color')
bold = postvars.get('bold')
underline = postvars.get('underline')
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if what:
# Not sure why we get lists here?
output = self.do_set_color_for_variable(what[0], color[0], background_color[0], parse_bool(bold[0]), parse_bool(underline[0]))
else:
output = 'Bad request'
elif p == '/get_function/':
what = postvars.get('what')
output = [self.do_get_function(what[0])]
elif p == '/delete_history_item/':
what = postvars.get('what')
if self.do_delete_history_item(what[0]):
output = ["OK"]
else:
output = ["Unable to delete history item"]
elif p == '/set_prompt/':
what = postvars.get('fish_prompt')
if self.do_set_prompt_function(what):
output = ["OK"]
else:
output = ["Unable to set prompt"]
elif p == '/save_abbreviation/':
r = self.do_save_abbreviation(postvars)
if r == True:
output = ["OK"]
else:
output = [r]
elif p == '/remove_abbreviation/':
r = self.do_remove_abbreviation(postvars)
if r == True:
output = ["OK"]
else:
output = [r]
else:
return self.send_error(404)
# Return valid output
self.send_response(200)
self.send_header('Content-type','application/json')
self.end_headers()
self.write_to_wfile('\n')
# Output JSON
self.write_to_wfile(json.dumps(output))
def log_request(self, code='-', size='-'):
""" Disable request logging """
pass
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2014-10-10 01:33:59 +00:00
def log_error(self, format, *args):
if format == 'code %d, message %s':
# This appears to be a send_error() message
# We want to include the path
(code, msg) = args
format = 'code %d, message %s, path %s'
args = (code, msg, self.path)
SimpleHTTPServer.SimpleHTTPRequestHandler.log_error(self, format, *args)
redirect_template_html = """
<!DOCTYPE html>
<html>
<head>
<meta http-equiv="refresh" content="0;URL='%s'" />
</head>
<body>
<p><a href="%s">Start the Fish Web config</a></p>
</body>
</html>
"""
# find fish
fish_bin_dir = os.environ.get('__fish_bin_dir')
fish_bin_path = None
if not fish_bin_dir:
print('The __fish_bin_dir environment variable is not set. Looking in $PATH...')
# distutils.spawn is terribly broken, because it looks in wd before PATH,
2016-05-11 22:07:46 +00:00
# and doesn't actually validate that the file is even executable
for p in os.environ['PATH'].split(os.pathsep):
proposed_path = os.path.join(p, 'fish')
if os.access(proposed_path, os.X_OK):
fish_bin_path = proposed_path
break
if not fish_bin_path:
print("fish could not be found. Is fish installed correctly?")
sys.exit(-1)
else:
print("fish found at '%s'" % fish_bin_path)
else:
fish_bin_path = os.path.join(fish_bin_dir, 'fish')
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if not os.access(fish_bin_path, os.X_OK):
print("fish could not be executed at path '%s'. Is fish installed correctly?" % fish_bin_path)
sys.exit(-1)
FISH_BIN_PATH = fish_bin_path
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# We want to show the demo prompts in the directory from which this was invoked,
# so get the current working directory
initial_wd = os.getcwd()
# Make sure that the working directory is the one that contains the script server file,
# because the document root is the working directory
where = os.path.dirname(sys.argv[0])
os.chdir(where)
# Generate a 16-byte random key as a hexadecimal string
authkey = binascii.b2a_hex(os.urandom(16)).decode('ascii')
# Try to find a suitable port
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PORT = 8000
HOST = "::" if HAS_IPV6 else "localhost"
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while PORT <= 9000:
try:
Handler = FishConfigHTTPRequestHandler
httpd = FishConfigTCPServer((HOST, PORT), Handler)
# Success
break
except socket.error:
err_type, err_value = sys.exc_info()[:2]
# str(err_value) handles Python3 correctly
if 'Address already in use' not in str(err_value):
print(str(err_value))
break
PORT += 1
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if PORT > 9000:
# Nobody say it
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print("Unable to find an open port between 8000 and 9000")
sys.exit(-1)
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# Get any initial tab (functions, colors, etc)
# Just look at the first letter
initial_tab = ''
if len(sys.argv) > 1:
for tab in ['functions', 'prompt', 'colors', 'variables', 'history', 'bindings', 'abbreviations']:
if tab.startswith(sys.argv[1]):
initial_tab = '#' + tab
break
url = 'http://localhost:%d/%s/%s' % (PORT, authkey, initial_tab)
# Create temporary file to hold redirect to real server
# This prevents exposing the URL containing the authentication key on the command line
# (see CVE-2014-2914 or https://github.com/fish-shell/fish-shell/issues/1438)
if 'XDG_CACHE_HOME' in os.environ:
dirname = os.path.expanduser(os.path.expandvars('$XDG_CACHE_HOME/fish/'))
else:
dirname = os.path.expanduser('~/.cache/fish/')
os.umask(0o0077)
try:
os.makedirs(dirname, 0o0700)
except OSError as e:
if e.errno == 17:
pass
else:
raise e
randtoken = ''.join(random.choice(string.ascii_uppercase + string.digits) for _ in range(6))
filename = dirname + 'web_config-%s.html' % randtoken
f = open(filename, 'w')
f.write(redirect_template_html % (url, url))
f.close()
# Open temporary file as URL
fileurl = 'file://' + filename
print("Web config started at '%s'. Hit enter to stop." % fileurl)
webbrowser.open(fileurl)
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# Select on stdin and httpd
stdin_no = sys.stdin.fileno()
try:
while True:
ready_read = select.select([sys.stdin.fileno(), httpd.fileno()], [], [])
if ready_read[0][0] < 1:
print("Shutting down.")
# Consume the newline so it doesn't get printed by the caller
sys.stdin.readline()
break
else:
httpd.handle_request()
except KeyboardInterrupt:
print("\nShutting down.")
# Clean up temporary file
os.remove(filename)