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-rwxr-xr-xindra/viewer_components/manager/SL_Launcher3
-rwxr-xr-xindra/viewer_components/manager/llsd.py1052
2 files changed, 1055 insertions, 0 deletions
diff --git a/indra/viewer_components/manager/SL_Launcher b/indra/viewer_components/manager/SL_Launcher
index 1d4c19fa86..a96f2392a7 100755
--- a/indra/viewer_components/manager/SL_Launcher
+++ b/indra/viewer_components/manager/SL_Launcher
@@ -20,6 +20,9 @@
import argparse
import collections
import InstallerUserMessage
+#NOTA BENE:
+# For POSIX platforms, llsd.py will be imported from the same directory.
+# For Windows, llsd.py will be compiled into the executable by pyinstaller
import llsd
import os
import platform
diff --git a/indra/viewer_components/manager/llsd.py b/indra/viewer_components/manager/llsd.py
new file mode 100755
index 0000000000..4527b115f9
--- /dev/null
+++ b/indra/viewer_components/manager/llsd.py
@@ -0,0 +1,1052 @@
+"""\
+@file llsd.py
+@brief Types as well as parsing and formatting functions for handling LLSD.
+
+$LicenseInfo:firstyear=2006&license=mit$
+
+Copyright (c) 2006-2009, Linden Research, Inc.
+
+Permission is hereby granted, free of charge, to any person obtaining a copy
+of this software and associated documentation files (the "Software"), to deal
+in the Software without restriction, including without limitation the rights
+to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+copies of the Software, and to permit persons to whom the Software is
+furnished to do so, subject to the following conditions:
+
+The above copyright notice and this permission notice shall be included in
+all copies or substantial portions of the Software.
+
+THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+THE SOFTWARE.
+$/LicenseInfo$
+"""
+
+import datetime
+import base64
+import string
+import struct
+import time
+import types
+import re
+
+from indra.util.fastest_elementtree import ElementTreeError, fromstring
+from indra.base import lluuid
+
+# cllsd.c in server/server-1.25 has memory leaks,
+# so disabling cllsd for now
+#try:
+# import cllsd
+#except ImportError:
+# cllsd = None
+cllsd = None
+
+int_regex = re.compile(r"[-+]?\d+")
+real_regex = re.compile(r"[-+]?(\d+(\.\d*)?|\d*\.\d+)([eE][-+]?\d+)?")
+alpha_regex = re.compile(r"[a-zA-Z]+")
+date_regex = re.compile(r"(?P<year>\d{4})-(?P<month>\d{2})-(?P<day>\d{2})T"
+ r"(?P<hour>\d{2}):(?P<minute>\d{2}):(?P<second>\d{2})"
+ r"(?P<second_float>(\.\d+)?)Z")
+#date: d"YYYY-MM-DDTHH:MM:SS.FFFFFFZ"
+
+class LLSDParseError(Exception):
+ pass
+
+class LLSDSerializationError(TypeError):
+ pass
+
+
+class binary(str):
+ pass
+
+class uri(str):
+ pass
+
+
+BOOL_TRUE = ('1', '1.0', 'true')
+BOOL_FALSE = ('0', '0.0', 'false', '')
+
+
+def format_datestr(v):
+ """ Formats a datetime or date object into the string format shared by xml and notation serializations."""
+ if hasattr(v, 'microsecond'):
+ return v.isoformat() + 'Z'
+ else:
+ return v.strftime('%Y-%m-%dT%H:%M:%SZ')
+
+def parse_datestr(datestr):
+ """Parses a datetime object from the string format shared by xml and notation serializations."""
+ if datestr == "":
+ return datetime.datetime(1970, 1, 1)
+
+ match = re.match(date_regex, datestr)
+ if not match:
+ raise LLSDParseError("invalid date string '%s'." % datestr)
+
+ year = int(match.group('year'))
+ month = int(match.group('month'))
+ day = int(match.group('day'))
+ hour = int(match.group('hour'))
+ minute = int(match.group('minute'))
+ second = int(match.group('second'))
+ seconds_float = match.group('second_float')
+ microsecond = 0
+ if seconds_float:
+ microsecond = int(float('0' + seconds_float) * 1e6)
+ return datetime.datetime(year, month, day, hour, minute, second, microsecond)
+
+
+def bool_to_python(node):
+ val = node.text or ''
+ if val in BOOL_TRUE:
+ return True
+ else:
+ return False
+
+def int_to_python(node):
+ val = node.text or ''
+ if not val.strip():
+ return 0
+ return int(val)
+
+def real_to_python(node):
+ val = node.text or ''
+ if not val.strip():
+ return 0.0
+ return float(val)
+
+def uuid_to_python(node):
+ return lluuid.UUID(node.text)
+
+def str_to_python(node):
+ return node.text or ''
+
+def bin_to_python(node):
+ return binary(base64.decodestring(node.text or ''))
+
+def date_to_python(node):
+ val = node.text or ''
+ if not val:
+ val = "1970-01-01T00:00:00Z"
+ return parse_datestr(val)
+
+
+def uri_to_python(node):
+ val = node.text or ''
+ if not val:
+ return None
+ return uri(val)
+
+def map_to_python(node):
+ result = {}
+ for index in range(len(node))[::2]:
+ result[node[index].text] = to_python(node[index+1])
+ return result
+
+def array_to_python(node):
+ return [to_python(child) for child in node]
+
+
+NODE_HANDLERS = dict(
+ undef=lambda x: None,
+ boolean=bool_to_python,
+ integer=int_to_python,
+ real=real_to_python,
+ uuid=uuid_to_python,
+ string=str_to_python,
+ binary=bin_to_python,
+ date=date_to_python,
+ uri=uri_to_python,
+ map=map_to_python,
+ array=array_to_python,
+ )
+
+def to_python(node):
+ return NODE_HANDLERS[node.tag](node)
+
+class Nothing(object):
+ pass
+
+
+class LLSDXMLFormatter(object):
+ def __init__(self):
+ self.type_map = {
+ type(None) : self.UNDEF,
+ bool : self.BOOLEAN,
+ int : self.INTEGER,
+ long : self.INTEGER,
+ float : self.REAL,
+ lluuid.UUID : self.UUID,
+ binary : self.BINARY,
+ str : self.STRING,
+ unicode : self.STRING,
+ uri : self.URI,
+ datetime.datetime : self.DATE,
+ datetime.date : self.DATE,
+ list : self.ARRAY,
+ tuple : self.ARRAY,
+ types.GeneratorType : self.ARRAY,
+ dict : self.MAP,
+ LLSD : self.LLSD
+ }
+
+ def elt(self, name, contents=None):
+ if(contents is None or contents is ''):
+ return "<%s />" % (name,)
+ else:
+ if type(contents) is unicode:
+ contents = contents.encode('utf-8')
+ return "<%s>%s</%s>" % (name, contents, name)
+
+ def xml_esc(self, v):
+ if type(v) is unicode:
+ v = v.encode('utf-8')
+ return v.replace('&', '&amp;').replace('<', '&lt;').replace('>', '&gt;')
+
+ def LLSD(self, v):
+ return self.generate(v.thing)
+ def UNDEF(self, v):
+ return self.elt('undef')
+ def BOOLEAN(self, v):
+ if v:
+ return self.elt('boolean', 'true')
+ else:
+ return self.elt('boolean', 'false')
+ def INTEGER(self, v):
+ return self.elt('integer', v)
+ def REAL(self, v):
+ return self.elt('real', v)
+ def UUID(self, v):
+ if(v.isNull()):
+ return self.elt('uuid')
+ else:
+ return self.elt('uuid', v)
+ def BINARY(self, v):
+ return self.elt('binary', base64.encodestring(v))
+ def STRING(self, v):
+ return self.elt('string', self.xml_esc(v))
+ def URI(self, v):
+ return self.elt('uri', self.xml_esc(str(v)))
+ def DATE(self, v):
+ return self.elt('date', format_datestr(v))
+ def ARRAY(self, v):
+ return self.elt('array', ''.join([self.generate(item) for item in v]))
+ def MAP(self, v):
+ return self.elt(
+ 'map',
+ ''.join(["%s%s" % (self.elt('key', self.xml_esc(str(key))), self.generate(value))
+ for key, value in v.items()]))
+
+ typeof = type
+ def generate(self, something):
+ t = self.typeof(something)
+ if self.type_map.has_key(t):
+ return self.type_map[t](something)
+ else:
+ raise LLSDSerializationError("Cannot serialize unknown type: %s (%s)" % (
+ t, something))
+
+ def _format(self, something):
+ return '<?xml version="1.0" ?>' + self.elt("llsd", self.generate(something))
+
+ def format(self, something):
+ if cllsd:
+ return cllsd.llsd_to_xml(something)
+ return self._format(something)
+
+_g_xml_formatter = None
+def format_xml(something):
+ global _g_xml_formatter
+ if _g_xml_formatter is None:
+ _g_xml_formatter = LLSDXMLFormatter()
+ return _g_xml_formatter.format(something)
+
+class LLSDXMLPrettyFormatter(LLSDXMLFormatter):
+ def __init__(self, indent_atom = None):
+ # Call the super class constructor so that we have the type map
+ super(LLSDXMLPrettyFormatter, self).__init__()
+
+ # Override the type map to use our specialized formatters to
+ # emit the pretty output.
+ self.type_map[list] = self.PRETTY_ARRAY
+ self.type_map[tuple] = self.PRETTY_ARRAY
+ self.type_map[types.GeneratorType] = self.PRETTY_ARRAY,
+ self.type_map[dict] = self.PRETTY_MAP
+
+ # Private data used for indentation.
+ self._indent_level = 1
+ if indent_atom is None:
+ self._indent_atom = ' '
+ else:
+ self._indent_atom = indent_atom
+
+ def _indent(self):
+ "Return an indentation based on the atom and indentation level."
+ return self._indent_atom * self._indent_level
+
+ def PRETTY_ARRAY(self, v):
+ rv = []
+ rv.append('<array>\n')
+ self._indent_level = self._indent_level + 1
+ rv.extend(["%s%s\n" %
+ (self._indent(),
+ self.generate(item))
+ for item in v])
+ self._indent_level = self._indent_level - 1
+ rv.append(self._indent())
+ rv.append('</array>')
+ return ''.join(rv)
+
+ def PRETTY_MAP(self, v):
+ rv = []
+ rv.append('<map>\n')
+ self._indent_level = self._indent_level + 1
+ keys = v.keys()
+ keys.sort()
+ rv.extend(["%s%s\n%s%s\n" %
+ (self._indent(),
+ self.elt('key', key),
+ self._indent(),
+ self.generate(v[key]))
+ for key in keys])
+ self._indent_level = self._indent_level - 1
+ rv.append(self._indent())
+ rv.append('</map>')
+ return ''.join(rv)
+
+ def format(self, something):
+ data = []
+ data.append('<?xml version="1.0" ?>\n<llsd>')
+ data.append(self.generate(something))
+ data.append('</llsd>\n')
+ return '\n'.join(data)
+
+def format_pretty_xml(something):
+ """@brief Serialize a python object as 'pretty' llsd xml.
+
+ The output conforms to the LLSD DTD, unlike the output from the
+ standard python xml.dom DOM::toprettyxml() method which does not
+ preserve significant whitespace.
+ This function is not necessarily suited for serializing very large
+ objects. It is not optimized by the cllsd module, and sorts on
+ dict (llsd map) keys alphabetically to ease human reading.
+ """
+ return LLSDXMLPrettyFormatter().format(something)
+
+class LLSDNotationFormatter(object):
+ def __init__(self):
+ self.type_map = {
+ type(None) : self.UNDEF,
+ bool : self.BOOLEAN,
+ int : self.INTEGER,
+ long : self.INTEGER,
+ float : self.REAL,
+ lluuid.UUID : self.UUID,
+ binary : self.BINARY,
+ str : self.STRING,
+ unicode : self.STRING,
+ uri : self.URI,
+ datetime.datetime : self.DATE,
+ datetime.date : self.DATE,
+ list : self.ARRAY,
+ tuple : self.ARRAY,
+ types.GeneratorType : self.ARRAY,
+ dict : self.MAP,
+ LLSD : self.LLSD
+ }
+
+ def LLSD(self, v):
+ return self.generate(v.thing)
+ def UNDEF(self, v):
+ return '!'
+ def BOOLEAN(self, v):
+ if v:
+ return 'true'
+ else:
+ return 'false'
+ def INTEGER(self, v):
+ return "i%s" % v
+ def REAL(self, v):
+ return "r%s" % v
+ def UUID(self, v):
+ return "u%s" % v
+ def BINARY(self, v):
+ return 'b64"' + base64.encodestring(v) + '"'
+ def STRING(self, v):
+ if isinstance(v, unicode):
+ v = v.encode('utf-8')
+ return "'%s'" % v.replace("\\", "\\\\").replace("'", "\\'")
+ def URI(self, v):
+ return 'l"%s"' % str(v).replace("\\", "\\\\").replace('"', '\\"')
+ def DATE(self, v):
+ return 'd"%s"' % format_datestr(v)
+ def ARRAY(self, v):
+ return "[%s]" % ','.join([self.generate(item) for item in v])
+ def MAP(self, v):
+ def fix(key):
+ if isinstance(key, unicode):
+ return key.encode('utf-8')
+ return key
+ return "{%s}" % ','.join(["'%s':%s" % (fix(key).replace("\\", "\\\\").replace("'", "\\'"), self.generate(value))
+ for key, value in v.items()])
+
+ def generate(self, something):
+ t = type(something)
+ handler = self.type_map.get(t)
+ if handler:
+ return handler(something)
+ else:
+ try:
+ return self.ARRAY(iter(something))
+ except TypeError:
+ raise LLSDSerializationError(
+ "Cannot serialize unknown type: %s (%s)" % (t, something))
+
+ def format(self, something):
+ return self.generate(something)
+
+def format_notation(something):
+ return LLSDNotationFormatter().format(something)
+
+def _hex_as_nybble(hex):
+ if (hex >= '0') and (hex <= '9'):
+ return ord(hex) - ord('0')
+ elif (hex >= 'a') and (hex <='f'):
+ return 10 + ord(hex) - ord('a')
+ elif (hex >= 'A') and (hex <='F'):
+ return 10 + ord(hex) - ord('A');
+
+class LLSDBinaryParser(object):
+ def __init__(self):
+ pass
+
+ def parse(self, buffer, ignore_binary = False):
+ """
+ This is the basic public interface for parsing.
+
+ @param buffer the binary data to parse in an indexable sequence.
+ @param ignore_binary parser throws away data in llsd binary nodes.
+ @return returns a python object.
+ """
+ self._buffer = buffer
+ self._index = 0
+ self._keep_binary = not ignore_binary
+ return self._parse()
+
+ def _parse(self):
+ cc = self._buffer[self._index]
+ self._index += 1
+ if cc == '{':
+ return self._parse_map()
+ elif cc == '[':
+ return self._parse_array()
+ elif cc == '!':
+ return None
+ elif cc == '0':
+ return False
+ elif cc == '1':
+ return True
+ elif cc == 'i':
+ # 'i' = integer
+ idx = self._index
+ self._index += 4
+ return struct.unpack("!i", self._buffer[idx:idx+4])[0]
+ elif cc == ('r'):
+ # 'r' = real number
+ idx = self._index
+ self._index += 8
+ return struct.unpack("!d", self._buffer[idx:idx+8])[0]
+ elif cc == 'u':
+ # 'u' = uuid
+ idx = self._index
+ self._index += 16
+ return lluuid.uuid_bits_to_uuid(self._buffer[idx:idx+16])
+ elif cc == 's':
+ # 's' = string
+ return self._parse_string()
+ elif cc in ("'", '"'):
+ # delimited/escaped string
+ return self._parse_string_delim(cc)
+ elif cc == 'l':
+ # 'l' = uri
+ return uri(self._parse_string())
+ elif cc == ('d'):
+ # 'd' = date in seconds since epoch
+ idx = self._index
+ self._index += 8
+ seconds = struct.unpack("!d", self._buffer[idx:idx+8])[0]
+ return datetime.datetime.fromtimestamp(seconds)
+ elif cc == 'b':
+ binary = self._parse_string()
+ if self._keep_binary:
+ return binary
+ # *NOTE: maybe have a binary placeholder which has the
+ # length.
+ return None
+ else:
+ raise LLSDParseError("invalid binary token at byte %d: %d" % (
+ self._index - 1, ord(cc)))
+
+ def _parse_map(self):
+ rv = {}
+ size = struct.unpack("!i", self._buffer[self._index:self._index+4])[0]
+ self._index += 4
+ count = 0
+ cc = self._buffer[self._index]
+ self._index += 1
+ key = ''
+ while (cc != '}') and (count < size):
+ if cc == 'k':
+ key = self._parse_string()
+ elif cc in ("'", '"'):
+ key = self._parse_string_delim(cc)
+ else:
+ raise LLSDParseError("invalid map key at byte %d." % (
+ self._index - 1,))
+ value = self._parse()
+ rv[key] = value
+ count += 1
+ cc = self._buffer[self._index]
+ self._index += 1
+ if cc != '}':
+ raise LLSDParseError("invalid map close token at byte %d." % (
+ self._index,))
+ return rv
+
+ def _parse_array(self):
+ rv = []
+ size = struct.unpack("!i", self._buffer[self._index:self._index+4])[0]
+ self._index += 4
+ count = 0
+ cc = self._buffer[self._index]
+ while (cc != ']') and (count < size):
+ rv.append(self._parse())
+ count += 1
+ cc = self._buffer[self._index]
+ if cc != ']':
+ raise LLSDParseError("invalid array close token at byte %d." % (
+ self._index,))
+ self._index += 1
+ return rv
+
+ def _parse_string(self):
+ size = struct.unpack("!i", self._buffer[self._index:self._index+4])[0]
+ self._index += 4
+ rv = self._buffer[self._index:self._index+size]
+ self._index += size
+ return rv
+
+ def _parse_string_delim(self, delim):
+ list = []
+ found_escape = False
+ found_hex = False
+ found_digit = False
+ byte = 0
+ while True:
+ cc = self._buffer[self._index]
+ self._index += 1
+ if found_escape:
+ if found_hex:
+ if found_digit:
+ found_escape = False
+ found_hex = False
+ found_digit = False
+ byte <<= 4
+ byte |= _hex_as_nybble(cc)
+ list.append(chr(byte))
+ byte = 0
+ else:
+ found_digit = True
+ byte = _hex_as_nybble(cc)
+ elif cc == 'x':
+ found_hex = True
+ else:
+ if cc == 'a':
+ list.append('\a')
+ elif cc == 'b':
+ list.append('\b')
+ elif cc == 'f':
+ list.append('\f')
+ elif cc == 'n':
+ list.append('\n')
+ elif cc == 'r':
+ list.append('\r')
+ elif cc == 't':
+ list.append('\t')
+ elif cc == 'v':
+ list.append('\v')
+ else:
+ list.append(cc)
+ found_escape = False
+ elif cc == '\\':
+ found_escape = True
+ elif cc == delim:
+ break
+ else:
+ list.append(cc)
+ return ''.join(list)
+
+class LLSDNotationParser(object):
+ """ Parse LLSD notation:
+ map: { string:object, string:object }
+ array: [ object, object, object ]
+ undef: !
+ boolean: true | false | 1 | 0 | T | F | t | f | TRUE | FALSE
+ integer: i####
+ real: r####
+ uuid: u####
+ string: "g\'day" | 'have a "nice" day' | s(size)"raw data"
+ uri: l"escaped"
+ date: d"YYYY-MM-DDTHH:MM:SS.FFZ"
+ binary: b##"ff3120ab1" | b(size)"raw data"
+ """
+ def __init__(self):
+ pass
+
+ def parse(self, buffer, ignore_binary = False):
+ """
+ This is the basic public interface for parsing.
+
+ @param buffer the notation string to parse.
+ @param ignore_binary parser throws away data in llsd binary nodes.
+ @return returns a python object.
+ """
+ if buffer == "":
+ return False
+
+ self._buffer = buffer
+ self._index = 0
+ return self._parse()
+
+ def _parse(self):
+ cc = self._buffer[self._index]
+ self._index += 1
+ if cc == '{':
+ return self._parse_map()
+ elif cc == '[':
+ return self._parse_array()
+ elif cc == '!':
+ return None
+ elif cc == '0':
+ return False
+ elif cc == '1':
+ return True
+ elif cc in ('F', 'f'):
+ self._skip_alpha()
+ return False
+ elif cc in ('T', 't'):
+ self._skip_alpha()
+ return True
+ elif cc == 'i':
+ # 'i' = integer
+ return self._parse_integer()
+ elif cc == ('r'):
+ # 'r' = real number
+ return self._parse_real()
+ elif cc == 'u':
+ # 'u' = uuid
+ return self._parse_uuid()
+ elif cc in ("'", '"', 's'):
+ return self._parse_string(cc)
+ elif cc == 'l':
+ # 'l' = uri
+ delim = self._buffer[self._index]
+ self._index += 1
+ val = uri(self._parse_string(delim))
+ if len(val) == 0:
+ return None
+ return val
+ elif cc == ('d'):
+ # 'd' = date in seconds since epoch
+ return self._parse_date()
+ elif cc == 'b':
+ return self._parse_binary()
+ else:
+ raise LLSDParseError("invalid token at index %d: %d" % (
+ self._index - 1, ord(cc)))
+
+ def _parse_binary(self):
+ i = self._index
+ if self._buffer[i:i+2] == '64':
+ q = self._buffer[i+2]
+ e = self._buffer.find(q, i+3)
+ try:
+ return base64.decodestring(self._buffer[i+3:e])
+ finally:
+ self._index = e + 1
+ else:
+ raise LLSDParseError('random horrible binary format not supported')
+
+ def _parse_map(self):
+ """ map: { string:object, string:object } """
+ rv = {}
+ cc = self._buffer[self._index]
+ self._index += 1
+ key = ''
+ found_key = False
+ while (cc != '}'):
+ if not found_key:
+ if cc in ("'", '"', 's'):
+ key = self._parse_string(cc)
+ found_key = True
+ elif cc.isspace() or cc == ',':
+ cc = self._buffer[self._index]
+ self._index += 1
+ else:
+ raise LLSDParseError("invalid map key at byte %d." % (
+ self._index - 1,))
+ elif cc.isspace() or cc == ':':
+ cc = self._buffer[self._index]
+ self._index += 1
+ continue
+ else:
+ self._index += 1
+ value = self._parse()
+ rv[key] = value
+ found_key = False
+ cc = self._buffer[self._index]
+ self._index += 1
+
+ return rv
+
+ def _parse_array(self):
+ """ array: [ object, object, object ] """
+ rv = []
+ cc = self._buffer[self._index]
+ while (cc != ']'):
+ if cc.isspace() or cc == ',':
+ self._index += 1
+ cc = self._buffer[self._index]
+ continue
+ rv.append(self._parse())
+ cc = self._buffer[self._index]
+
+ if cc != ']':
+ raise LLSDParseError("invalid array close token at index %d." % (
+ self._index,))
+ self._index += 1
+ return rv
+
+ def _parse_uuid(self):
+ match = re.match(lluuid.UUID.uuid_regex, self._buffer[self._index:])
+ if not match:
+ raise LLSDParseError("invalid uuid token at index %d." % self._index)
+
+ (start, end) = match.span()
+ start += self._index
+ end += self._index
+ self._index = end
+ return lluuid.UUID(self._buffer[start:end])
+
+ def _skip_alpha(self):
+ match = re.match(alpha_regex, self._buffer[self._index:])
+ if match:
+ self._index += match.end()
+
+ def _parse_date(self):
+ delim = self._buffer[self._index]
+ self._index += 1
+ datestr = self._parse_string(delim)
+ return parse_datestr(datestr)
+
+ def _parse_real(self):
+ match = re.match(real_regex, self._buffer[self._index:])
+ if not match:
+ raise LLSDParseError("invalid real token at index %d." % self._index)
+
+ (start, end) = match.span()
+ start += self._index
+ end += self._index
+ self._index = end
+ return float( self._buffer[start:end] )
+
+ def _parse_integer(self):
+ match = re.match(int_regex, self._buffer[self._index:])
+ if not match:
+ raise LLSDParseError("invalid integer token at index %d." % self._index)
+
+ (start, end) = match.span()
+ start += self._index
+ end += self._index
+ self._index = end
+ return int( self._buffer[start:end] )
+
+ def _parse_string(self, delim):
+ """ string: "g\'day" | 'have a "nice" day' | s(size)"raw data" """
+ rv = ""
+
+ if delim in ("'", '"'):
+ rv = self._parse_string_delim(delim)
+ elif delim == 's':
+ rv = self._parse_string_raw()
+ else:
+ raise LLSDParseError("invalid string token at index %d." % self._index)
+
+ return rv
+
+
+ def _parse_string_delim(self, delim):
+ """ string: "g'day 'un" | 'have a "nice" day' """
+ list = []
+ found_escape = False
+ found_hex = False
+ found_digit = False
+ byte = 0
+ while True:
+ cc = self._buffer[self._index]
+ self._index += 1
+ if found_escape:
+ if found_hex:
+ if found_digit:
+ found_escape = False
+ found_hex = False
+ found_digit = False
+ byte <<= 4
+ byte |= _hex_as_nybble(cc)
+ list.append(chr(byte))
+ byte = 0
+ else:
+ found_digit = True
+ byte = _hex_as_nybble(cc)
+ elif cc == 'x':
+ found_hex = True
+ else:
+ if cc == 'a':
+ list.append('\a')
+ elif cc == 'b':
+ list.append('\b')
+ elif cc == 'f':
+ list.append('\f')
+ elif cc == 'n':
+ list.append('\n')
+ elif cc == 'r':
+ list.append('\r')
+ elif cc == 't':
+ list.append('\t')
+ elif cc == 'v':
+ list.append('\v')
+ else:
+ list.append(cc)
+ found_escape = False
+ elif cc == '\\':
+ found_escape = True
+ elif cc == delim:
+ break
+ else:
+ list.append(cc)
+ return ''.join(list)
+
+ def _parse_string_raw(self):
+ """ string: s(size)"raw data" """
+ # Read the (size) portion.
+ cc = self._buffer[self._index]
+ self._index += 1
+ if cc != '(':
+ raise LLSDParseError("invalid string token at index %d." % self._index)
+
+ rparen = self._buffer.find(')', self._index)
+ if rparen == -1:
+ raise LLSDParseError("invalid string token at index %d." % self._index)
+
+ size = int(self._buffer[self._index:rparen])
+
+ self._index = rparen + 1
+ delim = self._buffer[self._index]
+ self._index += 1
+ if delim not in ("'", '"'):
+ raise LLSDParseError("invalid string token at index %d." % self._index)
+
+ rv = self._buffer[self._index:(self._index + size)]
+ self._index += size
+ cc = self._buffer[self._index]
+ self._index += 1
+ if cc != delim:
+ raise LLSDParseError("invalid string token at index %d." % self._index)
+
+ return rv
+
+def format_binary(something):
+ return '<?llsd/binary?>\n' + _format_binary_recurse(something)
+
+def _format_binary_recurse(something):
+ def _format_list(something):
+ array_builder = []
+ array_builder.append('[' + struct.pack('!i', len(something)))
+ for item in something:
+ array_builder.append(_format_binary_recurse(item))
+ array_builder.append(']')
+ return ''.join(array_builder)
+
+ if something is None:
+ return '!'
+ elif isinstance(something, LLSD):
+ return _format_binary_recurse(something.thing)
+ elif isinstance(something, bool):
+ if something:
+ return '1'
+ else:
+ return '0'
+ elif isinstance(something, (int, long)):
+ return 'i' + struct.pack('!i', something)
+ elif isinstance(something, float):
+ return 'r' + struct.pack('!d', something)
+ elif isinstance(something, lluuid.UUID):
+ return 'u' + something._bits
+ elif isinstance(something, binary):
+ return 'b' + struct.pack('!i', len(something)) + something
+ elif isinstance(something, str):
+ return 's' + struct.pack('!i', len(something)) + something
+ elif isinstance(something, unicode):
+ something = something.encode('utf-8')
+ return 's' + struct.pack('!i', len(something)) + something
+ elif isinstance(something, uri):
+ return 'l' + struct.pack('!i', len(something)) + something
+ elif isinstance(something, datetime.datetime):
+ seconds_since_epoch = time.mktime(something.timetuple())
+ return 'd' + struct.pack('!d', seconds_since_epoch)
+ elif isinstance(something, (list, tuple)):
+ return _format_list(something)
+ elif isinstance(something, dict):
+ map_builder = []
+ map_builder.append('{' + struct.pack('!i', len(something)))
+ for key, value in something.items():
+ if isinstance(key, unicode):
+ key = key.encode('utf-8')
+ map_builder.append('k' + struct.pack('!i', len(key)) + key)
+ map_builder.append(_format_binary_recurse(value))
+ map_builder.append('}')
+ return ''.join(map_builder)
+ else:
+ try:
+ return _format_list(list(something))
+ except TypeError:
+ raise LLSDSerializationError(
+ "Cannot serialize unknown type: %s (%s)" %
+ (type(something), something))
+
+
+def parse_binary(binary):
+ if binary.startswith('<?llsd/binary?>'):
+ just_binary = binary.split('\n', 1)[1]
+ else:
+ just_binary = binary
+ return LLSDBinaryParser().parse(just_binary)
+
+def parse_xml(something):
+ try:
+ return to_python(fromstring(something)[0])
+ except ElementTreeError, err:
+ raise LLSDParseError(*err.args)
+
+def parse_notation(something):
+ return LLSDNotationParser().parse(something)
+
+def parse(something):
+ try:
+ something = string.lstrip(something) #remove any pre-trailing whitespace
+ if something.startswith('<?llsd/binary?>'):
+ return parse_binary(something)
+ # This should be better.
+ elif something.startswith('<'):
+ return parse_xml(something)
+ else:
+ return parse_notation(something)
+ except KeyError, e:
+ raise Exception('LLSD could not be parsed: %s' % (e,))
+
+class LLSD(object):
+ def __init__(self, thing=None):
+ self.thing = thing
+
+ def __str__(self):
+ return self.toXML(self.thing)
+
+ parse = staticmethod(parse)
+ toXML = staticmethod(format_xml)
+ toPrettyXML = staticmethod(format_pretty_xml)
+ toBinary = staticmethod(format_binary)
+ toNotation = staticmethod(format_notation)
+
+
+undef = LLSD(None)
+
+XML_MIME_TYPE = 'application/llsd+xml'
+BINARY_MIME_TYPE = 'application/llsd+binary'
+
+# register converters for llsd in mulib, if it is available
+try:
+ from mulib import stacked, mu
+ stacked.NoProducer() # just to exercise stacked
+ mu.safe_load(None) # just to exercise mu
+except:
+ # mulib not available, don't print an error message since this is normal
+ pass
+else:
+ mu.add_parser(parse, XML_MIME_TYPE)
+ mu.add_parser(parse, 'application/llsd+binary')
+
+ def llsd_convert_xml(llsd_stuff, request):
+ request.write(format_xml(llsd_stuff))
+
+ def llsd_convert_binary(llsd_stuff, request):
+ request.write(format_binary(llsd_stuff))
+
+ for typ in [LLSD, dict, list, tuple, str, int, long, float, bool, unicode, type(None)]:
+ stacked.add_producer(typ, llsd_convert_xml, XML_MIME_TYPE)
+ stacked.add_producer(typ, llsd_convert_xml, 'application/xml')
+ stacked.add_producer(typ, llsd_convert_xml, 'text/xml')
+
+ stacked.add_producer(typ, llsd_convert_binary, 'application/llsd+binary')
+
+ stacked.add_producer(LLSD, llsd_convert_xml, '*/*')
+
+ # in case someone is using the legacy mu.xml wrapper, we need to
+ # tell mu to produce application/xml or application/llsd+xml
+ # (based on the accept header) from raw xml. Phoenix 2008-07-21
+ stacked.add_producer(mu.xml, mu.produce_raw, XML_MIME_TYPE)
+ stacked.add_producer(mu.xml, mu.produce_raw, 'application/xml')
+
+
+
+# mulib wsgi stuff
+# try:
+# from mulib import mu, adapters
+#
+# # try some known attributes from mulib to be ultra-sure we've imported it
+# mu.get_current
+# adapters.handlers
+# except:
+# # mulib not available, don't print an error message since this is normal
+# pass
+# else:
+# def llsd_xml_handler(content_type):
+# def handle_llsd_xml(env, start_response):
+# llsd_stuff, _ = mu.get_current(env)
+# result = format_xml(llsd_stuff)
+# start_response("200 OK", [('Content-Type', content_type)])
+# env['mu.negotiated_type'] = content_type
+# yield result
+# return handle_llsd_xml
+#
+# def llsd_binary_handler(content_type):
+# def handle_llsd_binary(env, start_response):
+# llsd_stuff, _ = mu.get_current(env)
+# result = format_binary(llsd_stuff)
+# start_response("200 OK", [('Content-Type', content_type)])
+# env['mu.negotiated_type'] = content_type
+# yield result
+# return handle_llsd_binary
+#
+# adapters.DEFAULT_PARSERS[XML_MIME_TYPE] = parse
+
+# for typ in [LLSD, dict, list, tuple, str, int, float, bool, unicode, type(None)]:
+# for content_type in (XML_MIME_TYPE, 'application/xml'):
+# adapters.handlers.set_handler(typ, llsd_xml_handler(content_type), content_type)
+#
+# adapters.handlers.set_handler(typ, llsd_binary_handler(BINARY_MIME_TYPE), BINARY_MIME_TYPE)
+#
+# adapters.handlers.set_handler(LLSD, llsd_xml_handler(XML_MIME_TYPE), '*/*')