#!/usr/bin/env python

import sys, optparse, subprocess, urllib2, os, os.path, errno, zipfile, string, json, platform, shutil, tarfile, urlparse, tempfile, multiprocessing

# EMSDK_DEV is a developer mode flag, which, if true, the SDK is downloaded from a 'staging' online source,
# instead of the public source. New releases are first deployed to the staging source for testing, before 
# being published to the public. Don't enable this unless you develop EMSDK itself and need to access the
# staging source repository instead.
EMSDK_DEV = bool(os.getenv('EMSDK_DEV')) if os.getenv('EMSDK_DEV') != None else False

if EMSDK_DEV:
  print 'EMSDK_DEV active.'
  emsdk_master_server = 'http://clb.demon.fi/emscripten_dev/'
else:
  emsdk_master_server = 'https://s3.amazonaws.com/mozilla-games/emscripten/'

emsdk_packages_url = urlparse.urljoin(emsdk_master_server, 'packages/')

emscripten_git_repo = 'git@github.com:kripken/emscripten.git'

WINDOWS = False
if os.name == 'nt':
  WINDOWS = True
  ENVPATH_SEPARATOR = ';'

LINUX = False
if platform.system() == 'Linux':
  LINUX = True
  ENVPATH_SEPARATOR = ':'

OSX = False
if platform.mac_ver()[0] != '':
  OSX = True
  ENVPATH_SEPARATOR = ':'

EMSDK_SET_ENV = 'emsdk_set_env.bat' if WINDOWS else 'emsdk_set_env.sh'

def win_get_environment_variable(key, system=True):
  prev_path = os.environ['PATH']
  try:
    py = find_used_python()
    if py:
      py_path = to_native_path(py.expand_vars(py.activated_path))
      os.environ['PATH'] = os.environ['PATH'] + ';' + py_path
    import win32api, win32con
    if system: # Read globally from ALL USERS section.
      folder = win32api.RegOpenKey(win32con.HKEY_LOCAL_MACHINE, 'SYSTEM\\CurrentControlSet\\Control\\Session Manager\\Environment')
    else: # Register locally from CURRENT USER section.
      folder = win32api.RegOpenKey(win32con.HKEY_CURRENT_USER, 'Environment')
    value = str(win32api.RegQueryValueEx(folder, key)[0])
  except Exception, e:
    if e[0] != 2: # 'The system cannot find the file specified.'
      print >> sys.stderr, 'Failed to read environment variable ' + key + ':'
      print >> sys.stderr, str(e)
    win32api.RegCloseKey(folder)
    os.environ['PATH'] = prev_path
    return None
  win32api.RegCloseKey(folder)
  os.environ['PATH'] = prev_path
  return value

def win_environment_variable_exists(key, system=True):
  value = win_get_environment_variable(key, system)
  return value != None and len(value) > 0

def win_get_active_environment_variable(key):
  value = win_get_environment_variable(key, False)
  if value != None:
    return value
  return win_get_environment_variable(key, True)

def win_set_environment_variable(key, value, system=True):
#  print >> sys.stderr, 'set ' + str(key) + '=' + str(value) + ', in system=' + str(system)
  previous_value = win_get_environment_variable(key, system)
  if previous_value == value:
    return # No need to elevate UAC for nothing to set the same value, skip.

  if not value:
    try:
      if system:
        value = subprocess.call(['REG', 'DELETE', 'SYSTEM\\CurrentControlSet\\Control\\Session Manager\\Environment', '/V', key, '/f'], stdout=subprocess.PIPE)
      else:
        value = subprocess.call(['REG', 'DELETE', 'HKCU\\Environment', '/V', key, '/f'], stdout=subprocess.PIPE)
    except Exception, e:
      return
    return

  try:
    if system:
      cmd = ['bin/elevate.exe', 'SETX', '/M']
    else:
      cmd = ['SETX']
    retcode = subprocess.call(cmd + [key, value], stdout=subprocess.PIPE)
    if retcode is not 0:
      print >> sys.stderr, 'ERROR! Failed to set environment variable ' + key + '=' + value + '. You may need to set it manually.'
  except Exception, e:
    print >> sys.stderr, 'ERROR! Failed to set environment variable ' + key + '=' + value + ':'
    print >> sys.stderr, str(e)
    print >> sys.stderr, 'You may need to set it manually.'

def win_delete_environment_variable(key, system=True):
  win_set_environment_variable(key, None, system)

# Returns the absolute pathname to the given path inside the Emscripten SDK.
def sdk_path(path):
  if os.path.isabs(path):
    return path
  else:
    return to_unix_path(os.path.join(os.path.dirname(os.path.realpath(__file__)), path))

def emsdk_path(): return to_unix_path(os.path.dirname(os.path.realpath(__file__)))

# Modifies the given file in-place to contain '\r\n' line endings.
def file_to_crlf(filename):
  text = open(filename, 'r').read()
  text = text.replace('\r\n', '\n').replace('\n', '\r\n')
  open(filename, 'wb').write(text)

# Modifies the given file in-place to contain '\n' line endings.
def file_to_lf(filename):
  text = open(filename, 'r').read()
  text = text.replace('\r\n', '\n')
  open(filename, 'wb').write(text)

# Removes a single file, suppressing exceptions on failure.
def rmfile(filename):
  try:
    os.remove(filename)
  except:
    pass

def fix_lineendings(filename):
  if WINDOWS:
    file_to_crlf(filename)
  else:
    file_to_lf(filename)

# http://stackoverflow.com/questions/600268/mkdir-p-functionality-in-python
def mkdir_p(path):
    if os.path.exists(path):
      return
    try:
        os.makedirs(path)
    except OSError as exc: # Python >2.5
        if exc.errno == errno.EEXIST and os.path.isdir(path):
            pass
        else: raise

def num_files_in_directory(path):
  if not os.path.isdir(path):
    return 0
  return len([name for name in os.listdir(path) if os.path.exists(os.path.join(path, name))])

def run(cmd, cwd=None):
  process = subprocess.Popen(cmd, cwd=cwd, env=os.environ.copy())
  process.communicate()
  if process.returncode != 0:
    print str(cmd) + ' failed with error code ' + str(process.returncode) + '!'
  return process.returncode

# http://pythonicprose.blogspot.fi/2009/10/python-extract-targz-archive.html
def untargz(source_filename, dest_dir, unpack_even_if_exists=False):
  if not unpack_even_if_exists and num_files_in_directory(dest_dir) > 0:
    print "File '" + source_filename + "' has already been unpacked, skipping."
    return True
  print "Unpacking '" + source_filename + "' to '" + dest_dir + "'"
  mkdir_p(dest_dir)
  run(['tar', '-xvf', sdk_path(source_filename), '--strip', '1'], cwd=dest_dir)
  #tfile = tarfile.open(source_filename, 'r:gz')
  #tfile.extractall(dest_dir)
  return True

# http://stackoverflow.com/questions/12886768/simple-way-to-unzip-file-in-python-on-all-oses
def unzip(source_filename, dest_dir, unpack_even_if_exists=False):
  if not unpack_even_if_exists and num_files_in_directory(dest_dir) > 0:
    print "File '" + source_filename + "' has already been unpacked, skipping."
    return True
  print "Unpacking '" + source_filename + "' to '" + dest_dir + "'"
  mkdir_p(dest_dir)
  common_subdir = None
  try:
    with zipfile.ZipFile(source_filename) as zf:
      # Implement '--strip 1' behavior to unzipping by testing if all the files in the zip reside in a common subdirectory, and if so,
      # we move the output tree at the end of uncompression step.
      for member in zf.infolist():
        words = member.filename.split('/')
        if len(words) > 1: # If there is a directory component?
          if common_subdir == None:
            common_subdir = words[0]
          elif common_subdir != words[0]:
            common_subdir = ''
            break

      unzip_to_dir = dest_dir
      if common_subdir:
        unzip_to_dir = os.path.join('/'.join(dest_dir.split('/')[:-1]), 'unzip_temp')

      # Now do the actual decompress.
      for member in zf.infolist():
        # Path traversal defense copied from
        # http://hg.python.org/cpython/file/tip/Lib/http/server.py#l789
        words = member.filename.split('/')
        path = unzip_to_dir
        for word in words[:-1]:
          drive, word = os.path.splitdrive(word)
          head, word = os.path.split(word)
          if word in (os.curdir, os.pardir, ''): continue
          path = os.path.join(path, word)
        zf.extract(member, unzip_to_dir)

      if common_subdir:
        try:
          if os.path.exists(dest_dir):
            shutil.rmtree(dest_dir)
        except:
          pass
        shutil.copytree(os.path.join(unzip_to_dir, common_subdir), dest_dir)
        try:
          shutil.rmtree(unzip_to_dir)
        except:
          pass
  except zipfile.BadZipfile, e:
    print "Unzipping file '" + source_filename + "' failed due to reason: " + str(e) + "! Removing the corrupted zip file."
    rmfile(source_filename)
    return False
  except Exception, e:
    print "Unzipping file '" + source_filename + "' failed due to reason: " + str(e)
    return False

  return True

# This function interprets whether the given string looks like a path to a directory instead of a file, without looking at the actual filesystem.
# 'a/b/c' points to directory, so does 'a/b/c/', but 'a/b/c.x' is parsed as a filename
def path_points_to_directory(path):
  if path == '.':
     return True
  last_slash = max(path.rfind('/'), path.rfind('\\'))
  last_dot = path.rfind('.')
  no_suffix = last_dot < last_slash or last_dot == -1
  if no_suffix:
    return True
  suffix = path[last_dot:]
  if suffix == '.exe' or suffix == '.zip': # Very simple logic for the only file suffixes used by emsdk downloader. Other suffixes, like 'clang-3.2' are treated as dirs.
    return False
  else:
    return True

# On success, returns the filename on the disk pointing to the destination file that was produced
# On failure, returns None.
def download_file(url, dstpath, download_even_if_exists=False):
  file_name = url.split('/')[-1]
  if path_points_to_directory(dstpath):
    file_name = os.path.join(dstpath, file_name)
  else:
    file_name = dstpath

  # Treat all relative destination paths as relative to the SDK root directory, not the current working directory.
  file_name = sdk_path(file_name)

  if os.path.exists(file_name) and not download_even_if_exists:
    print "File '" + file_name + "' already downloaded, skipping."
    return file_name
  try:
    u = urllib2.urlopen(url)
    mkdir_p(os.path.dirname(file_name))
    with open(file_name, 'wb') as f: 
      meta = u.info()
      file_size = int(meta.getheaders("Content-Length")[0])
      print "Downloading: %s from %s Bytes: %s" % (file_name, url, file_size)

      file_size_dl = 0
      block_sz = 8192
      while True:
          buffer = u.read(block_sz)
          if not buffer:
              break

          file_size_dl += len(buffer)
          f.write(buffer)
          status = r"%10d  [%3.2f%%]" % (file_size_dl, file_size_dl * 100. / file_size)
          status = status + chr(8)*(len(status)+1)
          print status,
  except urllib2.HTTPError, e:
    print "HTTP error with URL '" + url + "': " + str(e)
    rmfile(file_name)
    return None
  except:
    print "Error downloading URL '" + url + "'!"
    rmfile(file_name)
    return None
  return file_name

def download_text_file(url, dstpath, download_even_if_exists=False):
  filename = download_file(url, dstpath, download_even_if_exists)
  fix_lineendings(os.path.join(emsdk_path(), filename))

def run_get_output(cmd, cwd=None):
  process = subprocess.Popen(cmd, cwd=cwd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, stdin=subprocess.PIPE, env=os.environ.copy())
  (stdout, stderr) = process.communicate()
  return (process.returncode, stdout, stderr)

# Finds the given executable 'program' in PATH. Operates like the Unix tool 'which'.
def which(program):
  def is_exe(fpath):
    return os.path.isfile(fpath) and os.access(fpath, os.X_OK)

  fpath, fname = os.path.split(program)
  if fpath:
    if is_exe(program):
      return program
  else:
    for path in os.environ["PATH"].split(os.pathsep):
      path = path.strip('"')
      exe_file = os.path.join(path, program)
      if is_exe(exe_file):
        return exe_file

      if WINDOWS and not '.' in fname:
        if is_exe(exe_file + '.exe'):
          return exe_file + '.exe'
        if is_exe(exe_file + '.cmd'):
          return exe_file + '.cmd'
        if is_exe(exe_file + '.bat'):
          return exe_file + '.bat'

  return None

# must_succeed: If false, the search is performed silently without printing out errors if not found. Empty string is returned if git is not found.
#               If true, the search is required to succeed, and the execution will terminate with sys.exit(1) if not found.
def GIT(must_succeed=True):
  # The order in the following is important, and specifies the preferred order of using the git tools.
  # Primarily use git from emsdk if installed. If not, use system git.
  gits = ['git/1.9.4/bin/git.exe', which('git')]
  for git in gits:
    try:
      (ret, stdout, stderr) = run_get_output([git, '--version'])
      if ret == 0:
        return git
    except:
      pass
  if must_succeed:
    if WINDOWS:
      print "ERROR: git executable was not found. Please install it by typing 'emsdk install git-1.9.4', or alternatively by installing it manually from http://git-scm.com/downloads . If you install git manually, remember to add it to PATH"
    elif OSX:
      print "ERROR: git executable was not found. Please install git for this operation! This can be done from http://git-scm.com/ , or by installing XCode and then the XCode Command Line Tools (see http://stackoverflow.com/questions/9329243/xcode-4-4-command-line-tools )"
    elif LINUX:
      print "ERROR: git executable was not found. Please install git for this operation! This can be probably be done using your package manager, see http://git-scm.com/book/en/Getting-Started-Installing-Git"
    else:
      print "ERROR: git executable was not found. Please install git for this operation!"
    sys.exit(1)
  return '' # Not found

def git_repo_version(repo_path):
  (returncode, stdout, stderr) = run_get_output([GIT(), 'log', '-n', '1', '--pretty="%aD %H"'], cwd=repo_path)
  if returncode == 0:
    return stdout.strip()
  else:
    return ""

def git_clone(url, dstpath):
  if os.path.isdir(os.path.join(dstpath, '.git')):
    print "Repository '" + url + "' already cloned to directory '" + dstpath + "', skipping."
    return True
  mkdir_p(dstpath)
  return run([GIT(), 'clone', url, dstpath]) == 0

def git_checkout_and_pull(repo_path, branch):
  run([GIT(), 'fetch', 'origin'], repo_path)
  try:
    print "Fetching latest changes to the branch '" + branch + "' for '" + repo_path + "'..."
    run([GIT(), 'fetch', 'origin'], repo_path)
#  run([GIT, 'checkout', '-b', branch, '--track', 'origin/'+branch], repo_path)
    run([GIT(), 'checkout', '--quiet', branch], repo_path) # this line assumes that the user has not gone and manually messed with the repo and added new remotes to ambiguate the checkout.
    run([GIT(), 'merge', '--ff-only', 'origin/'+branch], repo_path) # this line assumes that the user has not gone and made local changes to the repo
  except:
    print 'git operation failed!'
    return False
  print "Successfully updated and checked out branch '" + branch + "' on repository '" + repo_path + "'"
  print "Current repository version: " + git_repo_version(repo_path)
  return True

def git_clone_checkout_and_pull(url, dstpath, branch):
  success = git_clone(url, dstpath)
  if not success:
    return False
  success = git_checkout_and_pull(dstpath, branch)
  return success

# The root directory of the build.
def fastcomp_build_dir(tool):
  build_dir = 'build_' + tool.git_branch
  build_with_vs2010 = True
  if WINDOWS:
    if build_with_vs2010:
      build_dir += '_vs2010'
    else:
      build_dir += '_mingw'

  if tool.bitness == 32:
    build_dir += '_32'
  else:
    build_dir += '_64'
  return build_dir

# The directory where the binaries are produced.
def fastcomp_build_bin_dir(tool):
  build_dir = fastcomp_build_dir(tool)
  build_with_vs2010 = True
  if WINDOWS and build_with_vs2010:
    return os.path.join(build_dir, 'bin\\RelWithDebInfo')
  else:
    return os.path.join(build_dir, 'bin')

def build_fastcomp_tool(tool):
  fastcomp_root = tool.installation_path()
  fastcomp_src_root = os.path.join(fastcomp_root, 'src')
  git_clone_checkout_and_pull(tool.url, fastcomp_src_root, tool.git_branch)
  clang_root = os.path.join(fastcomp_src_root, 'tools/clang')
  git_clone_checkout_and_pull(tool.clang_url, clang_root, tool.git_branch)
  build_dir = fastcomp_build_dir(tool)
  build_with_vs2010 = True
  cpu_cores = max(multiprocessing.cpu_count()-1, 1) # Don't saturate all cores to not steal the whole system, but be aggressive.
  if cpu_cores > 1:
    print 'Performing a parallel build with ' + str(cpu_cores) + ' cores.'
  else:
    print 'Performing a singlethreaded build.'
  if WINDOWS:
    if build_with_vs2010:
      if tool.bitness == 64:
        generator = 'Visual Studio 10 Win64'
      else:
        generator = 'Visual Studio 10'
      make = ['C:\\Windows\\Microsoft.NET\\Framework\\v4.0.30319\\MSBuild.exe', '/maxcpucount:' + str(cpu_cores), '/t:Build', '/p:Configuration=RelWithDebInfo', '/nologo', '/verbosity:minimal', 'LLVM.sln']
    else:
      generator = 'MinGW Makefiles'
      make = ['mingw32-make', '-j' + str(cpu_cores)]
  else:
    generator = 'Unix Makefiles'
    make = ['make', '-j' + str(cpu_cores)]

  build_root = os.path.join(fastcomp_root, build_dir)

  # Configure
  if not os.path.isdir(build_root): os.mkdir(build_root) # Create build output directory if it doesn't yet exist.
  try:
    cmdline = ['cmake', '-G', generator, '-DCMAKE_BUILD_TYPE=RelWithDebInfo', '-DLLVM_TARGETS_TO_BUILD=X86;JSBackend', 
        '-DLLVM_INCLUDE_EXAMPLES=OFF', '-DLLVM_INCLUDE_TESTS=OFF', '-DCLANG_INCLUDE_EXAMPLES=OFF', '-DCLANG_INCLUDE_TESTS=OFF', fastcomp_src_root]
    print 'Running CMake: ' + str(cmdline)
    ret = subprocess.check_call(cmdline, cwd=build_root)
    if ret != 0:
      print >> sys.stderr, 'CMake invocation failed with exit code ' + ret + '!'
      print >> sys.stderr, 'Working directory: ' + build_root
      return False
  except Exception, e:
    print >> sys.stderr, 'CMake invocation failed due to exception!'
    print >> sys.stderr, 'Working directory: ' + build_root
    print >> sys.stderr, str(e)
    return False

  # Build
  try:
    print 'Running build: ' + str(make)
    ret = subprocess.check_call(make, cwd=build_root)
    if ret != 0:
      print >> sys.stderr, 'Build failed with exit code ' + ret + '!'
      print >> sys.stderr, 'Working directory: ' + build_root
      return False
  except Exception, e:
    print >> sys.stderr, 'Build failed due to exception!'
    print >> sys.stderr, 'Working directory: ' + build_root
    print >> sys.stderr, str(e)
    return False
  return True


def download_and_unzip(zipfile, dest_dir, download_even_if_exists=False):
  if not download_even_if_exists and num_files_in_directory(dest_dir) > 0:
    print "The contents of file '" + zipfile + "' already exist in destination '" + dest_dir + "', skipping."
    return True
  dst_file = download_file(urlparse.urljoin(emsdk_packages_url, zipfile), 'zips/', download_even_if_exists)
  if not dst_file:
    return False
  if zipfile.endswith('.zip'):
    return unzip(dst_file, dest_dir, unpack_even_if_exists=download_even_if_exists)
  else:
    return untargz(dst_file, dest_dir, unpack_even_if_exists=download_even_if_exists)

def to_unix_path(p):
  return p.replace('\\', '/')

def to_native_path(p):
  if WINDOWS:
    return to_unix_path(p).replace('/', '\\')
  else:
    return to_unix_path(p)

# Finds and returns a list of the directories that need to be added to PATH for the given set of tools.
def get_required_path(active_tools):
  path_add = [to_native_path(emsdk_path())]
  for tool in active_tools:
    if hasattr(tool, 'activated_path'):
      path_add += [to_native_path(tool.expand_vars(tool.activated_path))]
  return path_add

# Returns the absolute path to the file '.emscripten' for the current user on this system.
def dot_emscripten_path():
  return os.path.expanduser("~/.emscripten")

dot_emscripten = {}

def parse_key_value(line):
  if not line:
    return ('', '')
  eq = line.find('=')
  if eq != -1:
    key = line[0:eq].strip()
    value = line[eq+1:].strip()
    return (key, value)
  else:
    return (key, '')

def load_dot_emscripten():
  global dot_emscripten
  dot_emscripten = {}
  lines = []
  try:
    lines = open(dot_emscripten_path(), "r").read().split('\n')
  except:
    pass
  for line in lines:
    try:
      (key, value) = parse_key_value(line)
      if value != '':
        dot_emscripten[key] = value
#        print "Got '" + key + "' = '" + value + "'"
    except:
      pass

def generate_dot_emscripten(active_tools):
  temp_dir = tempfile.gettempdir().replace('\\', '/')

  cfg = 'import os\n'
  cfg += '''SPIDERMONKEY_ENGINE = ''
NODE_JS = 'node'
'''

  for tool in active_tools:
    tool_cfg = tool.activated_config()
    if tool_cfg:
      cfg += tool_cfg + '\n'

  cfg += '''V8_ENGINE = ''
TEMP_DIR = ''' + "'" + temp_dir + "'" + '''
COMPILER_ENGINE = NODE_JS
JS_ENGINES = [NODE_JS]
'''

  with open(dot_emscripten_path(), "w") as text_file: text_file.write(cfg)
  
  # Clear old cached emscripten content.
  try:
    shutil.rmtree(os.path.expanduser("~/.emscripten_cache"), ignore_errors=True)
    os.remove(os.path.expanduser("~/.emscripten_sanity"))
    os.remove(os.path.expanduser("~/.emscripten_cache__last_clear"))
  except:
    pass

  print "The Emscripten configuration file " + os.path.normpath(dot_emscripten_path()) + " has been rewritten with the following contents:"
  print ''
  print cfg.strip()
  print ''
  
  path_add = get_required_path(active_tools)
  if not WINDOWS:
    emsdk_env = os.path.relpath(sdk_path('emsdk_env.sh'))
    if not '/' in emsdk_env:
      emsdk_env = './emsdk_env.sh'
    print "To conveniently access the selected set of tools from the command line, consider adding the following directories to PATH, or call 'source " + emsdk_env + "' to do this for you."
    print ''
    print '   ' + ENVPATH_SEPARATOR.join(path_add)

def find_msbuild_dir():
  if 'ProgramFiles' in os.environ and os.environ['ProgramFiles']:
    program_files = os.environ['ProgramFiles']
  else:
    program_files = 'C:/Program Files'
  if 'ProgramFiles(x86)' in os.environ and os.environ['ProgramFiles(x86)']:
    program_files_x86 = os.environ['ProgramFiles(x86)']
  else:
    program_files_x86 = 'C:/Program Files (x86)'
  MSBUILDX86_DIR = os.path.join(program_files_x86, "MSBuild/Microsoft.Cpp/v4.0/Platforms")
  MSBUILD_DIR = os.path.join(program_files, "MSBuild/Microsoft.Cpp/v4.0/Platforms")
  if os.path.exists(MSBUILDX86_DIR):
    return MSBUILDX86_DIR
  elif os.path.exists(MSBUILD_DIR):
    return MSBUILD_DIR
  else:
    return '' # No MSbuild installed.

def get_installed_vstool_version(installed_path):
  try:
    return open(installed_path + "/version.txt", "r").read()
  except:
    return None

class Tool:
  def __init__(self, data):
    # Convert the dictionary representation of the tool in 'data' to members of this class for convenience.
    for key in data:
      setattr(self, key, data[key])

  def __str__(self):
    s = self.id + '-' + self.version
    if hasattr(self, 'bitness'):
      s += '-' + str(self.bitness) + 'bit'
    return s

  def expand_vars(self, str):
    if WINDOWS and '%MSBuildPlatformsDir%' in str:
      str = str.replace('%MSBuildPlatformsDir%', find_msbuild_dir())
    if '%installation_dir%' in str:
      str = str.replace('%installation_dir%', sdk_path(self.installation_dir()))
    str = str.replace('%.exe%', '.exe' if WINDOWS else '')
    if '%fastcomp_build_dir%' in str:
      str = str.replace('%fastcomp_build_dir%', fastcomp_build_dir(self))
    if '%fastcomp_build_bin_dir%' in str:
      str = str.replace('%fastcomp_build_bin_dir%', fastcomp_build_bin_dir(self))
    return str

  # Specifies the target path where this tool will be installed to. This could either be a directory or a filename (e.g. in case of node.js)
  def installation_path(self):
    if WINDOWS and hasattr(self, 'windows_install_path'):
      pth = self.expand_vars(self.windows_install_path)
      return sdk_path(pth)
    if hasattr(self, 'install_path'):
      pth = self.expand_vars(self.install_path)
      return sdk_path(pth)
    p = self.version
    if hasattr(self, 'bitness'):
      p += '_' + str(self.bitness) + 'bit'
    return sdk_path(os.path.join(self.id, p))

  # Specifies the target directory this tool will be installed to.
  def installation_dir(self):
    dir = self.installation_path()
    if path_points_to_directory(dir):
      return dir
    else:
      return os.path.dirname(dir)

  # Returns the configuration item that needs to be added to .emscripten to make this Tool active for the current user.
  def activated_config(self):
    if hasattr(self, 'activated_cfg'):
      return to_unix_path(self.expand_vars(self.activated_cfg))
    else:
      return ''

  def activated_environment(self):
    if hasattr(self, 'activated_env'):
      return self.expand_vars(self.activated_env)
    else:
      return ''
  
  def compatible_with_this_os(self):
    if hasattr(self, 'os'):
      if self.os == 'all':
        return True
      if (WINDOWS and 'win' in self.os) or (LINUX and 'linux' in self.os) or (OSX and 'osx' in self.os):
        return True
      else:
        return False
    else:
      if not hasattr(self, 'osx_url') and not hasattr(self, 'windows_url') and not hasattr(self, 'unix_url'):
        return True

    if OSX and hasattr(self, 'osx_url'):
      return True

    if WINDOWS and (hasattr(self, 'windows_url') or hasattr(self, 'windows_install_path')):
      return True

    if (LINUX or OSX) and hasattr(self, 'unix_url'):
      return True

    return hasattr(self, 'url')

  def is_installed(self):
    # If this tool/sdk depends on other tools, require that all dependencies are installed for this tool to count as being installed.
    if hasattr(self, 'uses'):
      for tool_name in self.uses:
        tool = find_tool(tool_name)
        if tool == None:
          print "Manifest error: No tool by name '" + tool_name + "' found! This may indicate an internal SDK error!"
          return False
        if not tool.is_installed():
          return False

    if self.download_url() != None:
      # For e.g. fastcomp clang from git repo, the activated PATH is the directory where the compiler is built to, and installation_path is
      # the directory where the source tree exists. To distinguish between multiple packages sharing the same source
      # (clang-master-32bit, clang-master-64bit, clang-incoming-32bit and clang-incoming-64bit each share the same git repo), require
      # that in addition to the installation directory, each item in the activated PATH must exist.
      activated_path = self.expand_vars(self.activated_path).split(';') if hasattr(self, 'activated_path') else [self.installation_path()]
      def each_path_exists(pathlist):
        for path in pathlist:
          if not os.path.exists(path): return False
        return True
      content_exists = os.path.exists(self.installation_path()) and each_path_exists(activated_path) and (os.path.isfile(self.installation_path()) or num_files_in_directory(self.installation_path()) > 0)
      
      if self.id == 'vs-tool': # vs-tool is a special tool since all versions must be installed to the same dir, so dir name will not differentiate the version.
        return content_exists and get_installed_vstool_version(self.installation_path()) == self.version
      else:
        return content_exists
    else:
      return True # This tool does not contain downloadable elements, so it is installed by default.

  def is_active(self):
    if not self.is_installed():
      return False

    if self.id == 'vs-tool': 
      return True # vs-tool is a special tool since all versions must be installed to the same dir, which means that if this tool is installed, it is also active.
      
    # All dependencies of this tool must be active as well.
    deps = self.dependencies()
    for tool in deps:
      if not tool.is_active():
        return False

    activated_cfg = self.activated_config()
    if activated_cfg == '':
      return len(deps) > 0

    (key, value) = parse_key_value(activated_cfg)
#    print 'activated cfg ' + key + ', value: ' + value
#    if dot_emscripten.has_key(key):
#      print 'dot_emscripten ' + dot_emscripten[key]
    if dot_emscripten.has_key(key) and dot_emscripten[key] == value:
      return True
    return False

  # Returns true if the system environment variables requires by this tool are currently active.
  def is_env_active(self):
    if hasattr(self, 'activated_env'):
      (key, value) = parse_key_value(self.activated_environment())
      if not key in os.environ or to_unix_path(os.environ[key]) != to_unix_path(value):
        return False
#      if WINDOWS:
#        env_var = win_get_active_environment_variable(key)
#        if env_var != value:
#          return False
    if hasattr(self, 'activated_path'):
      path = self.expand_vars(self.activated_path).replace('\\', '/')
      path = path.split(ENVPATH_SEPARATOR)
      for p in path:
        path_items = os.environ['PATH'].replace('\\', '/').split(ENVPATH_SEPARATOR)
        if not normalized_contains(path_items, p):
          return False
    return True

  def win_activate_env_vars(self, permanently_activate):
    if WINDOWS and hasattr(self, 'activated_env'):
      (key, value) = parse_key_value(self.activated_environment())
      if permanently_activate:
        win_delete_environment_variable(key, False) # If there is an env var for the LOCAL USER with same name, it will hide the system var, so must remove that first.

      win_set_environment_variable(key, value, permanently_activate)
    
  # If this tool can be installed on this system, this function returns True.
  # Otherwise, this function returns a string that describes the reason why this tool is not available.
  def can_be_installed(self):
    if self.id == 'vs-tool':
      msbuild_dir = find_msbuild_dir()
      if len(msbuild_dir) > 0:
        return True
      else:
        return "Visual Studio was not found!"
    else:
      return True

  def download_url(self):
    if WINDOWS and hasattr(self, 'windows_url'):
      return self.windows_url
    elif OSX and hasattr(self, 'osx_url'):
      return self.osx_url
    elif (OSX or LINUX) and hasattr(self, 'unix_url'):
      return self.unix_url
    elif hasattr(self, 'url'):
      return self.url
    else:
      return None

  def install(self):
    if self.can_be_installed() != True:
      print "The tool '" + str(self) + "' is not available due to the reason: " + self.can_be_installed()
      return False

    print "Installing '" + str(self) + "'.."
    if self.id == 'sdk':
      for tool_name in self.uses:
        tool = find_tool(tool_name)
        if tool == None:
          print "Manifest error: No tool by name '" + tool_name + "' found! This may indicate an internal SDK error!"
        success = tool.install()
        if not success:
          return False
        print "Done."
      return True
    else:
      url = self.download_url()
      if hasattr(self, 'custom_install_script') and self.custom_install_script == 'build_fastcomp':
        success = build_fastcomp_tool(self)
      elif hasattr(self, 'git_branch'):
        success = git_clone_checkout_and_pull(url, self.installation_path(), self.git_branch)
      elif url.endswith('zip') or url.endswith('.tar') or url.endswith('.gz'):
        download_even_if_exists = (self.id == 'vs-tool')
        success = download_and_unzip(url, self.installation_path(), download_even_if_exists)
      else:
        dst_file = download_file(urlparse.urljoin(emsdk_packages_url, self.download_url()), self.installation_path())
        if dst_file:
          success = True
        else:
          success = False
      if not success:
        print "Installation failed!"
        return False
    print "Done."

    # Sanity check that the installation succeeded, and if so, remove unneeded leftover installation files.
    if self.is_installed():
      self.cleanup_temp_install_files()
    else:
      print "Warning: The installation of '" + str(self) + "' seems to have failed, but no error was detected. Either something went wrong with the installation, or this may indicate an internal emsdk error."
    return True

  def cleanup_temp_install_files(self):
    url = self.download_url()
    if url.endswith('zip') or url.endswith('.tar') or url.endswith('.gz'):
      file_name = url.split('/')[-1]
      tempzipfile = os.path.join('zips/', file_name)
      rmfile(tempzipfile)

  def uninstall(self):
    if  not self.is_installed():
      print "Tool '" + str(self) + "' was not installed. No need to uninstall."
      return
    print "Uninstalling tool '" + str(self) + "'.."
    try:
      print "Deleting path '" + self.installation_path() + "'"
      shutil.rmtree(self.installation_path(), ignore_errors=True)
      os.remove(self.installation_path())
    except:
      pass
    print "Done."

  def dependencies(self):
    if not hasattr(self, 'uses'):
      return []
    deps = []
    
    for tool_name in self.uses:
      tool = find_tool(tool_name)
      if tool:
        deps += [tool]
    return deps

  def recursive_dependencies(self):
    if not hasattr(self, 'uses'):
      return []
    deps = []
    for tool_name in self.uses:
      tool = find_tool(tool_name)
      if tool:
        deps += [tool]
        deps += tool.recursive_dependencies()
    return deps

# A global registry of all known Emscripten SDK tools available in the SDK manifest.
tools = []

# A global registry of all known SDK toolsets.
sdks = []

# N.B. In both tools and sdks list above, we take the convention that the newest items are at the back of the list (ascending chronological order)

def find_tool(name):
  for tool in tools:
    if str(tool) == name:
      return tool
  return None

def find_sdk(name):
  for sdk in sdks:
    if str(sdk) == name:
      return sdk
  return None

def is_os_64bit(): # http://stackoverflow.com/questions/2208828/detect-64bit-os-windows-in-python
  return platform.machine().endswith('64')

def find_latest_32bit_sdk():
  for sdk in reversed(sdks): # Newest SDK is always at the end of the list.
    if not hasattr(sdk, 'bitness') or sdk.bitness == 32: # If no 'bitness' field, it means the SDK is universal.
      return sdk
  return None

def find_latest_64bit_sdk():
  for sdk in reversed(sdks): # Newest SDK is always at the end of the list.
    if not hasattr(sdk, 'bitness') or sdk.bitness == 64: # If no 'bitness' field, it means the SDK is universal.
      return sdk
  return None

def find_latest_sdk():
  if is_os_64bit():
    return find_latest_64bit_sdk()
  else:
    return find_latest_32bit_sdk()

# Finds the best-matching python tool for use.
def find_used_python():
  for t in reversed(tools): # Find newest tool first - those are always at the end of the list.
    if t.id == 'python' and t.is_installed() and t.is_active() and t.is_env_active():
      return t
  for t in reversed(tools):
    if t.id == 'python' and t.is_installed() and t.is_active():
      return t
  for t in reversed(tools):
    if t.id == 'python' and t.is_installed():
      return t
  return None

def update_emsdk():
  if WINDOWS:
    download_and_unzip(urlparse.urljoin(emsdk_packages_url, 'emsdk_windows_update.zip'), emsdk_path(), download_even_if_exists=True)
    rmfile('zips/emsdk_windows_update.zip')
  elif OSX or LINUX:
    download_and_unzip(urlparse.urljoin(emsdk_packages_url, 'emsdk_unix_update.tar.gz'), emsdk_path(), download_even_if_exists=True)
    rmfile('zips/emsdk_unix_update.tar.gz')
  else:
    print 'Unsupported OS, cannot update!'

def load_sdk_manifest():
  global tools
  try:
    manifest = json.loads(open(sdk_path("emsdk_manifest.json"), "r").read())
  except Exception, e:
    print 'Error parsing emsdk_manifest.json!'
    print str(e)
    return
  for tool in manifest['tools']:
    t = Tool(tool)
    if t.compatible_with_this_os():
      if not hasattr(t, 'is_old'):
        t.is_old = False
      tools.append(t)

  for sdk_str in manifest['sdks']:
    sdk = Tool(sdk_str)
    sdk.id = "sdk"
    if sdk.compatible_with_this_os():
      if not hasattr(sdk, 'is_old'):
        sdk.is_old = False
      sdks.append(sdk)

# Tests if the two given tools can be active at the same time.
# Currently only a simple check for name for same tool with different versions,
# possibly adds more logic in the future.
def can_simultaneously_activate(tool1, tool2):
  return tool1.id != tool2.id

def remove_nonexisting_tools(tool_list, log_errors=True):
  i = 0
  while i < len(tool_list):
    tool = tool_list[i]
    if not tool.is_installed():
      if log_errors:
        print "The SDK/tool '" + str(tool) + "' cannot be activated since it is not installed! Skipping this tool..."
      tool_list.pop(i)
      continue
    i += 1
  return tool_list

# Expands dependencies for each tool, and removes ones that don't exist.
def process_tool_list(tools_to_activate, log_errors=True):
  i = 0
  # Gather dependencies for each tool
  while i < len(tools_to_activate):
    tool = tools_to_activate[i]
    deps = tool.recursive_dependencies()
    tools_to_activate = tools_to_activate[:i] + deps + tools_to_activate[i:]
    i += len(deps)+1

  tools_to_activate = remove_nonexisting_tools(tools_to_activate, log_errors=log_errors)

  # Remove conflicting tools
  i = 0
  while i < len(tools_to_activate):
    j = 0
    while j < i:
      secondary_tool = tools_to_activate[j]
      primary_tool = tools_to_activate[i]
      if not can_simultaneously_activate(primary_tool, secondary_tool):
        tools_to_activate.pop(j)
        j -= 1
        i -= 1
      j += 1
    i += 1
  return tools_to_activate

# Reconfigure .emscripten to choose the currently activated toolset, set PATH and other environment variables.
# Returns the full list of deduced tools that are now active.
def set_active_tools(tools_to_activate, permanently_activate):
  tools_to_activate = process_tool_list(tools_to_activate, log_errors=True)

  generate_dot_emscripten(tools_to_activate)

  # Construct a .bat script that will be invoked to set env. vars and PATH
  if WINDOWS:
    env_string = construct_env(tools_to_activate, False)
    open(EMSDK_SET_ENV, 'w').write(env_string)

  # Apply environment variables to global all users section.
  if WINDOWS and permanently_activate:
    # Individual env. vars
    for tool in tools_to_activate:
      tool.win_activate_env_vars(permanently_activate=True)

    # PATH variable
    newpath, added_items = adjusted_path(tools_to_activate)
    if newpath != os.environ['PATH']: # Are there any actual changes?
      if len(newpath) < 1024:
        win_set_environment_variable('PATH', newpath, system=True)
      else:
        print >> sys.stderr, 'ERROR! The new PATH is more than 1024 characters long! A PATH this long cannot be set via command line: please add the PATHs specified above to system PATH manually via Control Panel.'

  return tools_to_activate

def currently_active_sdk():
  for sdk in reversed(sdks):
    if sdk.is_active():
      return sdk
  return None

def currently_active_tools():
  active_tools = []
  for tool in tools:
    if tool.is_active():
      active_tools += [tool]
  return active_tools

# http://stackoverflow.com/questions/480214/how-do-you-remove-duplicates-from-a-list-in-python-whilst-preserving-order
def unique_items(seq):
  seen = set()
  seen_add = seen.add
  return [ x for x in seq if x not in seen and not seen_add(x)]

# Tests if a path is contained in the given list, but with separators normalized.
def normalized_contains(lst, elem):
  elem = to_unix_path(elem)
  for e in lst:
    if elem == to_unix_path(e):
      return True
  return False

# Looks at the current PATH and adds and removes entries so that the PATH reflects
# the set of given active tools.
def adjusted_path(tools_to_activate, log_additions=False):
  # These directories should be added to PATH
  path_add = get_required_path(tools_to_activate)
  # These already exist.
  existing_path = os.environ['PATH'].split(ENVPATH_SEPARATOR)
  emsdk_root_path = to_unix_path(emsdk_path())

  existing_emsdk_tools = [item for item in existing_path if to_unix_path(item).startswith(emsdk_root_path)]
  new_emsdk_tools = [item for item in path_add if not normalized_contains(existing_emsdk_tools, item)]
  # Existing non-emsdk tools
  existing_path = [item for item in existing_path if not to_unix_path(item).startswith(emsdk_root_path)]
  new_path = [item for item in path_add if not normalized_contains(existing_path, item)]
  return (ENVPATH_SEPARATOR.join(unique_items(existing_path + new_path)), new_emsdk_tools)

def construct_env_windows(tools_to_activate, permanent):
  env_string = ''
  newpath, added_path = adjusted_path(tools_to_activate)

# Dont permanently add to PATH, since this will break the whole system if there are more than 1024 chars in PATH.
# (SETX truncates to set only 1024 chars)
#  if permanent:
#    print 'SETX PATH "' + newpath + '"'
#  else:

  if os.environ['PATH'] != newpath: # Don't bother setting the path if there are no changes.
    env_string += 'SET PATH=' + newpath + '\n'
    if len(added_path) > 0:
      print 'Adding directories to PATH:'
      for item in added_path:
        print 'PATH += ' + item
      print ''

  env_vars_to_add = []
  for tool in tools_to_activate:
    if hasattr(tool, 'activated_env'):
      (key, value) = parse_key_value(tool.activated_env)
      value = to_native_path(tool.expand_vars(value))
      if not key in os.environ or to_unix_path(os.environ[key]) != to_unix_path(value): # Don't set env. vars which are already set to the correct value.
        env_vars_to_add += [(key, value)]

  if len(env_vars_to_add) > 0:
    print 'Setting environment variables:'
    for key, value in env_vars_to_add:
      if permanent:
        env_string += 'SETX ' + key + ' "' + value + '"\n'
      else:
        env_string += 'SET ' + key + '=' + value + '\n'
      print key + ' = ' + value
    print ''
  return env_string

def construct_env_unix(tools_to_activate):
  env_string = ''
  newpath, added_path = adjusted_path(tools_to_activate)

  if os.environ['PATH'] != newpath: # Don't bother setting the path if there are no changes.
    env_string += 'export PATH="' + newpath + '"\n'
    if len(added_path) > 0:
      print 'Adding directories to PATH:'
      for item in added_path:
        print 'PATH += ' + item
      print ''

  env_vars_to_add = []
  for tool in tools_to_activate:
    if hasattr(tool, 'activated_env'):
      (key, value) = parse_key_value(tool.activated_env)
      value = to_native_path(tool.expand_vars(value))
      if not key in os.environ or to_unix_path(os.environ[key]) != to_unix_path(value): # Don't set env. vars which are already set to the correct value.
        env_vars_to_add += [(key, value)]

  if len(env_vars_to_add) > 0:
    print 'Setting environment variables:'
    for key, value in env_vars_to_add:
      env_string += 'export ' + key + '="' + value + '"\n'
      print key + ' = ' + value
    print ''
  return env_string


def construct_env(tools_to_activate, permanent):
  if WINDOWS:
    return construct_env_windows(tools_to_activate, permanent)
  else:
    return construct_env_unix(tools_to_activate)

def silentremove(filename):
  try:
    os.remove(filename)
  except OSError, e:
    if e.errno != errno.ENOENT: raise

def main():
  load_dot_emscripten()
  load_sdk_manifest()
  usage_str = "usage: %prog --param1 .. --paramn <projectrootdir>"

#  parser = optparse.OptionParser(usage=usage_str)
#  parser.add_option('update', dest='update', action='store_true', default=False, help='Downloads and installs the latest Emscripten SDK components.')
#  (options, args) = parser.parse_args(sys.argv)
  if len(sys.argv) <= 1 or sys.argv[1] == 'help':
    if len(sys.argv) <= 1:
      print ' emsdk: No command given. Please call one of the following:'
    else:
      print ' emsdk: Available commands:'

    print '''
   emsdk list [--old]           - Lists all available SDKs and tools and their
                                  current installation status. With the --old
                                  parameter, also historical versions are shown.

   emsdk update                 - Fetches a list of updates from the net (but
                                  does not install them)

   emsdk install <tool/sdk>     - Downloads and installs the given tool or SDK.
   emsdk uninstall <tool/sdk>   - Removes the given tool or SDK from disk.

   emsdk activate <tool/sdk>    - Activates the given tool or SDK in the
                                  environment of the current shell.'''

    if WINDOWS:
      print '''
   emsdk activate [--global] <tool/sdk>  - Activates the given tool or SDK in
                                           the environment of the current
                                           shell. If the --global option is
                                           passed, the registration is done
                                           globally to all users in the system
                                           environment.

   emcmdprompt.bat              - Spawns a new command prompt window with the
                                  Emscripten environment active.'''
    else:
      print '''
   emsdk activate <tool/sdk>    - Activates the given tool or SDK in the
                                  environment of the current shell.'''

    return 1
  cmd = sys.argv[1]

  if (cmd == 'update' or cmd == 'install' or cmd == 'activate') and len(sys.argv) >= 3:
    if sys.argv[2] == 'latest':
      sys.argv[2] = str(find_latest_sdk())
    elif sys.argv[2] == 'latest-32bit':
      sys.argv[2] = str(find_latest_32bit_sdk())
    elif sys.argv[2] == 'latest-64bit':
      sys.argv[2] = str(find_latest_64bit_sdk())

  if cmd == 'list':
    print ''
    show_old = len(sys.argv) >= 3 and sys.argv[2] == '--old'
    has_partially_active_tools = False
    if len(tools) > 0:
      print 'The following individual tools exist:'
      for tool in tools:
        if tool.is_old and not show_old:
          continue
        if tool.can_be_installed() == True:
          installed = '\tINSTALLED' if tool.is_installed() else ''
        else:
          installed = '\tNot available: ' + tool.can_be_installed()
        tool_is_active = tool.is_active()
        tool_is_env_active = tool_is_active and tool.is_env_active()
        if tool_is_env_active: active = ' * '
        elif tool_is_active:
          active = '(*)'
          has_partially_active_tools = True
        else: active = '   '
        print '    ' + active + '    {0: <25}'.format(str(tool)) + installed
      print ''
    else:
      print "There are no tools available. Run 'emsdk update' to fetch the latest set of tools."
    print ''

    if len(sdks) > 0:
      print 'The following Emscripten SDK versions are available:'
      for sdk in sdks:
        if sdk.is_old and not show_old:
          continue
        installed = '\tINSTALLED' if sdk.is_installed() else ''
        active = '*' if sdk.is_active() else ' '
        print '    ' + active + '    {0: <25}'.format(str(sdk)) + installed
      print ''
      print 'Items marked with * are activated for the current user.'
      if has_partially_active_tools:
        env_cmd = 'emsdk_env.bat' if WINDOWS else 'source ./emsdk_env.sh'
        print 'Items marked with (*) are selected for use, but your current shell environment is not configured to use them. Type "' + env_cmd + '" to set up your current shell to use them, or call "emsdk activate --global <name_of_sdk>" to permanently activate them.'
      if not show_old:
        print ''
        print "To access the historical archived versions, type 'emsdk list --old'"

    return 0
  elif cmd == 'construct_env':
    silentremove(EMSDK_SET_ENV) # Clean up old temp file up front, in case of failure later before we get to write out the new one.
    tools_to_activate = currently_active_tools()
    tools_to_activate = process_tool_list(tools_to_activate, log_errors=True)
    env_string = construct_env(tools_to_activate, len(sys.argv) >= 3 and 'perm' in sys.argv[2])
    open(EMSDK_SET_ENV, 'w').write(env_string)
    if LINUX or OSX: os.chmod(EMSDK_SET_ENV, 0755)
    return 0
  elif cmd == 'update':
    update_emsdk()
    silentremove(sdk_path(EMSDK_SET_ENV)) # Clean up litter after old emsdk update which may have left this temp file around.
    return 0
  elif cmd == 'activate':
    permanently_activate = '--global' in sys.argv
    if permanently_activate:
      print 'Registering active Emscripten environment globally for all users.'
      print ''
    sys.argv = filter(lambda x: not x.startswith('--'), sys.argv)
    # If called without arguments, activate latest versions of all tools
    if len(sys.argv) <= 2:
      tools_to_activate = list(tools)
      tools_to_activate = remove_nonexisting_tools(tools_to_activate, log_errors=False)
    else:
      tools_to_activate = currently_active_tools()
      for i in range(2, len(sys.argv)):
        tool = find_tool(sys.argv[i])
        if tool == None:
          tool = find_sdk(sys.argv[i])
        if tool == None:
          print "Error: No tool or SDK found by name '" + sys.argv[i] + "'."
          return 1
        tools_to_activate += [tool]
    tools_to_activate = set_active_tools(tools_to_activate, permanently_activate=permanently_activate)
    if WINDOWS and not permanently_activate:
      print 'To permanently register this environment globally to all users in Windows Registry, rerun the command with the option --global.'
    return 0
  elif cmd == 'install':
    if len(sys.argv) <= 2:
      print "Missing parameter. Type 'emsdk install <tool name>' to install a tool or an SDK. Type 'emsdk list' to obtain a list of available tools. Type 'emsdk install latest' to automatically install the newest version of the SDK."
      return 1
    tool = find_tool(sys.argv[2])
    if tool == None:
      tool = find_sdk(sys.argv[2])
    if tool == None:
      print "Error: No tool or SDK found by name '" + sys.argv[2] + "'."
      return 1
    tool.install()
  elif cmd == 'uninstall':
    if len(sys.argv) <= 2:
      print "Syntax error. Call 'emsdk uninstall <tool name>'. Call 'emsdk list' to obtain a list of available tools."
      return 1
    tool = find_tool(sys.argv[2])
    if tool == None:
      print "Error: Tool by name '" + sys.argv[2] + "' was not found."
      return 1
    tool.uninstall()
  else:
    print "Unknown command '" + cmd + "' given! Type 'emsdk help' to get a list of commands."
    return 1

if __name__ == '__main__':
  sys.exit(main())
