#!/usr/bin/env python # Whether we're Python 2 import sys import multiprocessing.pool import os import operator IS_PY2 = sys.version_info[0] == 2 if IS_PY2: import SimpleHTTPServer import SocketServer try: from urllib.parse import parse_qs except ImportError: from cgi import parse_qs else: import http.server as SimpleHTTPServer import socketserver as SocketServer from urllib.parse import parse_qs # Disable CLI web browsers term = os.environ.pop('TERM', None) import webbrowser if term: os.environ['TERM'] = term import subprocess import re, socket, cgi, select, time, glob, random, string, binascii try: import json except ImportError: import simplejson as json FISH_BIN_PATH = False # will be set later def run_fish_cmd(text): from subprocess import PIPE p = subprocess.Popen([FISH_BIN_PATH], stdin=PIPE, stdout=PIPE, stderr=PIPE) if IS_PY2: out, err = p.communicate(text) else: out, err = p.communicate(bytes(text, 'utf-8')) out = str(out, 'utf-8') err = str(err, 'utf-8') 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 + "'" named_colors = { 'black' : '000000', 'red' : 'FF0000', 'green' : '00FF00', 'brown' : '725000', 'yellow' : 'FFFF00', 'blue' : '0000FF', 'magenta' : 'FF00FF', 'purple' : 'FF00FF', 'cyan' : '00FFFF', 'white' : 'FFFFFF' } 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 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) 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() # 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 # 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') 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 def append_html_for_ansi_escape(full_val, result, span_open): # Strip off the initial \x1b[ and terminating m val = full_val[2:-1] # Helper function to close a span if it's open def close_span(): if span_open: result.append('') # 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('') return True # span now open # 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('') 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 # We don't handle bold or underline yet # Do nothing on failure return span_open 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) 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) # Now count the longest line return max([len(x) for x in stripped_val.split('\n')]) 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) # We have to HTML escape the text and convert ANSI escapes into HTML # Collect it all into this array result = [] span_open = False # 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) # Close final escape if span_open: result.append('') # Remove empty elements result = [x for x in result if x] # Clean up empty spans, the nasty way idx = len(result) - 1 while idx >= 1: if result[idx] == '' and result[idx-1].startswith('= len(self.buffer): return '\0' 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 if c == 'O': c = self.get_char() # \[1\; is start of control sequence if c == '1': self.get_char();c = self.get_char() if c == ";": c = self.get_char() # 3 is Alt if c == '3': result += "ALT - " c = self.get_char() # 5 is Ctrl if c == '5': result += "CTRL - " c = self.get_char() # 9 is Alt if c == '9': result += "ALT - " c = self.get_char() if c == 'A': result += 'Up Arrow' elif c == 'B': result += 'Down Arrow' elif c == 'C': result += 'Right Arrow' elif c == 'D': result += "Left Arrow" elif c == 'F': result += "End" elif c == 'H': result += "Home" return result def get_readable_binding(self): """ Gets a readable representation of binding """ try: result = BindingParser.readable_keys[self.buffer] except KeyError: result = self.parse_binding() return result def parse_binding(self): readable_command = '' result = '' alt = ctrl = False while not self.end(): c = self.get_char() if c == '\\': c = self.get_char() if c == 'e': d = self.get_char() if d == 'O': self.unget_char() 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 else: alt = True self.unget_char() elif c == 'c': ctrl = True elif c == 'n': result += 'Enter' elif c == 't': result += 'Tab' elif c == 'b': result += 'Backspace' else: result += c else: result += c if ctrl: readable_command += 'CTRL - ' if alt: readable_command += 'ALT - ' 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 def verify_request(self, request, client_address): return client_address[0] in FishConfigTCPServer.WHITELIST class FishConfigHTTPRequestHandler(SimpleHTTPServer.SimpleHTTPRequestHandler): def write_to_wfile(self, txt): if IS_PY2: self.wfile.write(txt) else: # Python 3 self.wfile.write(bytes(txt, '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'): 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=str.lower)] 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 bindings = [] binding_parser = BindingParser() for line in out.split('\n'): comps = line.split(' ', 2) if len(comps) < 3: continue if comps[1] == '-k': key_name, command = comps[2].split(' ', 1) binding_parser.set_buffer(key_name) else: key_name = None command = comps[2] binding_parser.set_buffer(comps[1]) readable_binding = binding_parser.get_readable_binding() fish_binding = FishBinding(command, key_name, readable_binding) bindings.append(fish_binding) 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 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 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 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 # 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('#') def read_one_sample_prompt(self, path): try: with open(path) as fd: extras_dict = {} # Read one sample prompt from fd function_lines = [] parsing_hashes = True for line in fd: # 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 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) # 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 def do_get_abbreviations(self): out, err = run_fish_cmd('abbr -s') lines = (x for x in out.rstrip().split('\n')) # Turn the output into something we can use abbrout = (line[len('abbr -a '):].strip('\'') for line in lines) abbrs = (x.split('=') for x in abbrout) result = [{'word': x, 'phrase': y} for x, y in abbrs] return result 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) 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','text/html') 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 if IS_PY2: ctype, pdict = cgi.parse_header(self.headers.getheader('content-type')) else: # Python 3 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': try: length = int(self.headers.getheader('content-length')) except AttributeError: length = int(self.headers['content-length']) # parse_qs borks if we give it a Unicode string in Python2. url_str = self.rfile.read(length).decode('utf-8') if IS_PY2: url_str = str(url_str) postvars = cgi.parse_qs(url_str, keep_blank_values=1) else: postvars = {} 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') 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('what') if self.do_set_prompt_function(what[0]): output = ["OK"] else: output = ["Unable to set prompt"] else: return SimpleHTTPServer.SimpleHTTPRequestHandler.do_POST(self) # Return valid output self.send_response(200) self.send_header('Content-type','text/html') self.write_to_wfile('\n') # Output JSON self.write_to_wfile(json.dumps(output)) def log_request(self, code='-', size='-'): """ Disable request logging """ pass redirect_template_html = """

Start the Fish Web config

""" # 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, # and doesn't actually validate that the file is even executabl 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') 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 # 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 PORT = 8000 while PORT <= 9000: try: Handler = FishConfigHTTPRequestHandler httpd = FishConfigTCPServer(("::", 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): break PORT += 1 if PORT > 9000: # Nobody say it print("Unable to find an open port between 8000 and 9000") sys.exit(-1) # 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) # 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)