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--[[
A library to facilitate packet usage
]]
_libs = _libs or {}
require('lists')
require('maths')
require('strings')
require('functions')
require('pack')
local table = require('table')
local packets = {}
_libs.packets = packets
if not warning then
warning = print+{_addon.name and '%s warning:':format(_addon.name) or 'Warning:'}
end
__meta = __meta or {}
__meta.Packet = {__tostring = function(packet)
local res = '%s packet 0x%.3X (%s):':format(packet._dir:capitalize(), packet._id, packet._name or 'Unrecognized packet')
local raw = packets.build(packet)
for field in packets.fields(packet._dir, packet._id, raw):it() do
res = '%s\n%s: %s':format(res, field.label, tostring(packet[field.label]))
if field.fn then
res = '%s (%s)':format(res, tostring(field.fn(packet[field.label], raw)))
end
end
return res
end}
--[[
Packet database. Feel free to correct/amend it wherever it's lacking.
]]
packets.data = require('packets/data')
packets.raw_fields = require('packets/fields')
--[[
Lengths for C data types.
]]
local sizes = {
['unsigned char'] = 8,
['unsigned short'] = 16,
['unsigned int'] = 32,
['unsigned long'] = 64,
['signed char'] = 8,
['signed short'] = 16,
['signed int'] = 32,
['signed long'] = 64,
['char'] = 8,
['short'] = 16,
['int'] = 32,
['long'] = 64,
['bool'] = 8,
['float'] = 32,
['double'] = 64,
['data'] = 8,
['bit'] = 1,
['boolbit'] = 1,
}
-- This defines whether to treat a type with brackets at the end as an array or something special
local non_array_types = S{'bit', 'data', 'char'}
-- Pattern to match variable size array
local pointer_pattern = '(.+)%*'
-- Pattern to match fixed size array
local array_pattern = '(.+)%[(.+)%]'
-- Function returns number of bytes, bits, items and type name
local parse_type = function(field)
local ctype = field.ctype
if ctype:endswith('*') then
return nil, 1, ctype:match(pointer_pattern):trim()
end
local type, count_str = ctype:match(array_pattern)
type = (type or ctype):trim()
local array = not non_array_types:contains(type)
local count_num = count_str and count_str:number() or 1
local type_count = count_str and array and count_num or 1
local bits = (array and type_count or count_num) * sizes[type];
return bits, type_count, type
end
local size
size = function(fields, count)
-- A single field
if fields.ctype then
local bits, _, type = parse_type(fields)
return bits or type == 'char' and 8 or count and count * sizes[type] or 0
end
-- A reference field
if fields.ref then
return size(fields.ref, count) * (fields.count == '*' and count or fields.count)
end
return fields:reduce(function(acc, field)
return acc + size(field, count)
end, 0)
end
local parse
parse = function(fields, data, index, max, lookup, depth)
depth = depth or 0
max = max == '*' and 0 or max or 1
index = index or 32
local res = L{}
local count = 0
local length = 8 * #data
while index < length do
count = count + 1
local parsed = L{}
local parsed_index = index
for field in fields:it() do
if field.ctype then
-- A regular type field
field = table.copy(field)
local bits, type_count, type = parse_type(field)
if not non_array_types:contains(type) and (not bits or type_count > 1) then
-- An array field with more than one entry, reparse recursively
field.ctype = type
local ext, new_index = parse(L{field}, data, parsed_index, not bits and '*' or type_count, nil, depth + 1)
parsed = parsed + ext
parsed_index = new_index
else
-- A non-array field or an array field with one entry
if max ~= 1 then
-- Append indices to labels
if lookup then
-- Look up index name in provided table
local resource = lookup[1][count + lookup[2] - 1]
field.label = '%s %s':format(resource and resource.name or 'Unknown %d':format(count + lookup[2] - 1), field.label)
else
-- Just increment numerically
field.label = '%s %d':format(field.label, count)
end
end
if parsed_index % 8 ~= 0 and type ~= 'bit' and type ~= 'boolbit' then
-- Adjust to byte boundary, if non-bit type
parsed_index = 8 * (parsed_index / 8):ceil()
end
if not bits then
-- Determine length for pointer types (*)
type_count = ((length - parsed_index) / sizes[type]):floor()
bits = sizes[type] * type_count
field.ctype = '%s[%u]':format(type, type_count)
count = max
end
field.type = type
field.index = parsed_index
field.length = bits
field.count = type_count
parsed:append(field)
parsed_index = parsed_index + bits
end
else
-- A reference field, call the parser recursively
local type_count = field.count
if not type_count then
-- If reference count not explicitly given it must be contained in the packet data
type_count = data:byte(field.count_ref + 1)
end
local ext, new_index = parse(field.ref, data, parsed_index, type_count, field.lookup, depth + 1)
parsed = parsed + ext
parsed_index = new_index
end
end
if parsed_index <= length then
-- Only add parsed chunk, if within length boundary
res = res + parsed
index = parsed_index
else
count = max
end
if count == max then
break
end
end
return res, index
end
-- Arguments are:
-- dir 'incoming' or 'outgoing'
-- id Packet ID
-- data Binary packet data, nil if creating a blank packet
-- ... Any parameters taken by a packet constructor function
-- If a packet has a variable length field (e.g. char* or ref with count='*') the last value in here must be the count of that field
function packets.fields(dir, id, data, ...)
local fields = packets.raw_fields[dir][id]
if type(fields) == 'function' then
fields = fields(data, ...)
end
if not fields then
return nil
end
if not data then
local argcount = select('#', ...)
local bits = size(fields, argcount > 0 and select(argcount, ...) or nil)
data = 0:char():rep(4 + 4 * ((bits or 0) / 32):ceil())
end
return parse(fields, data)
end
local dummy = {name='Unknown', description='No data available.'}
-- Type identifiers as declared in lpack.c
-- Windower uses an adjusted set of identifiers
-- This is marked where applicable
local pack_ids = {}
pack_ids['bit'] = 'b' -- Windower exclusive
pack_ids['boolbit'] = 'q' -- Windower exclusive
pack_ids['bool'] = 'B' -- Windower exclusive
pack_ids['unsigned char'] = 'C' -- Originally 'b', replaced by 'bit' for Windower
pack_ids['unsigned short'] = 'H'
pack_ids['unsigned int'] = 'I'
pack_ids['unsigned long'] = 'L'
pack_ids['signed char'] = 'c'
pack_ids['signed short'] = 'h'
pack_ids['signed int'] = 'i'
pack_ids['signed long'] = 'L'
pack_ids['char'] = 'c'
pack_ids['short'] = 'h'
pack_ids['int'] = 'i'
pack_ids['long'] = 'l'
pack_ids['float'] = 'f'
pack_ids['double'] = 'd'
pack_ids['data'] = 'A'
local make_pack_string = function(field)
local ctype = field.ctype
if pack_ids[ctype] then
return pack_ids[ctype]
end
local type_name, number = ctype:match(array_pattern)
if type_name then
number = tonumber(number)
local pack_id = pack_ids[type_name]
if pack_id then
if type_name == 'char' then
return 'S' .. number -- Windower exclusive
else
return pack_id .. number
end
end
end
type_name = ctype:match(pointer_pattern)
if type_name then
local pack_id = pack_ids[type_name]
if pack_id then
if type_name == 'char' then
return 'z'
else
return pack_id .. '*'
end
end
end
return nil
end
-- Constructor for packets (both injected and parsed).
-- If data is a string it parses an existing packet, otherwise it will create
-- a new packet table for injection. In that case, data can ba an optional
-- table containing values to initialize the packet to.
--
-- Example usage
-- Injection:
-- local packet = packets.new('outgoing', 0x050, {
-- ['Inventory Index'] = 27, -- 27th item in the inventory
-- ['Equipment Slot'] = 15 -- 15th slot, left ring
-- })
-- packets.inject(packet)
--
-- Injection (Alternative):
-- local packet = packets.new('outgoing', 0x050)
-- packet['Inventory Index'] = 27 -- 27th item in the inventory
-- packet['Equipment Slot'] = 15 -- 15th slot, left ring
-- packets.inject(packet)
--
-- Parsing:
-- windower.register_event('outgoing chunk', function(id, data)
-- if id == 0x0B6 then -- outgoing /tell
-- local packet = packets.parse('outgoing', data)
-- print(packet['Target Name'], packet['Message'])
-- end
-- end)
function packets.parse(dir, data)
local rem = #data % 4
if rem ~= 0 then
data = data .. 0:char():rep(4 - rem)
end
local res = setmetatable({}, __meta.Packet)
res._id, res._size, res._sequence = data:unpack('b9b7H')
res._size = res._size * 4
res._raw = data
res._dir = dir
res._name = packets.data[dir][res._id].name
res._description = packets.data[dir][res._id].description
res._data = data:sub(5)
local fields = packets.fields(dir, res._id, data)
if not fields or #fields == 0 then
return res
end
local pack_str = fields:map(make_pack_string):concat()
for key, val in ipairs({res._data:unpack(pack_str)}) do
local field = fields[key]
if field then
res[field.label] = field.enc and val:decode(field.enc) or val
end
end
return res
end
function packets.new(dir, id, values, ...)
values = values or {}
local packet = setmetatable({}, __meta.Packet)
packet._id = id
packet._dir = dir
packet._sequence = 0
packet._args = {...}
local fields = packets.fields(packet._dir, packet._id, nil, ...)
if not fields then
warning('Packet 0x%.3X not recognized.':format(id))
return packet
end
for field in fields:it() do
packet[field.label] = values[field.label]
-- Data not set
if not packet[field.label] then
if field.const then
packet[field.label] = field.const
elseif field.ctype == 'bool' or field.ctype == 'boolbit' then
packet[field.label] = false
elseif sizes[field.ctype] or field.ctype:startswith('bit') then
packet[field.label] = 0
elseif field.ctype:startswith('char') or field.ctype:startswith('data') then
packet[field.label] = ''
else
warning('Bad packet! Unknown packet C type:', field.ctype)
packet._error = true
end
end
end
return packet
end
local lookup = function(packet, field)
local val = packet[field.label]
return field.enc and val:encode(field.enc) or val
end
-- Returns binary data from a packet
function packets.build(packet)
local fields = packets.fields(packet._dir, packet._id, packet._raw, unpack(packet._args or {}))
if not fields then
error('Packet 0x%.3X not recognized, unable to build.':format(packet._id))
return nil
end
local pack_string = fields:map(make_pack_string):concat()
local data = pack_string:pack(fields:map(lookup+{packet}):unpack())
local rem = #data % 4
if rem ~= 0 then
data = data .. 0:char():rep(4 - rem)
end
return 'b9b7H':pack(packet._id, 1 + #data / 4, packet._sequence) .. data
end
-- Injects a packet built with packets.new
function packets.inject(packet)
if packet._error then
error('Bad packet, cannot inject')
return nil
end
local fields = packets.fields(packet._dir, packet._id, packet._raw)
if not fields then
error('Packet 0x%.3X not recognized, unable to send.':format(packet._id))
return nil
end
packet._raw = packets.build(packet)
if packet._dir == 'incoming' then
windower.packets.inject_incoming(packet._id, packet._raw)
elseif packet._dir == 'outgoing' then
windower.packets.inject_outgoing(packet._id, packet._raw)
else
error('Error sending packet, no direction specified. Please specify \'incoming\' or \'outgoing\'.')
end
end
return packets
--[[
Copyright © 2013-2015, Windower
All rights reserved.
Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
* Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
* Neither the name of Windower nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL Windower BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
]]
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