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This project offers a C module for Lua (5.1, 5.2, 5.3, 5.4 and LuaJIT) manipulating Google's protobuf protocol, both for version 2 and 3 syntax and semantics. It splits to the lower-level and the high-level parts for different goals.
For converting between binary protobuf data with Lua tables, using pb.load()
loads the compiled protobuf schema content (*.pb
file) generated by Google protobuf's compiler named protoc
and call pb.encode()
/pb.decode()
.
Or use these modules to manipulate the raw wire format in lower-level way:
pb.slice
: a wire format decoding module.pb.buffer
: a buffer implement that use to encode basic types into protobuf's wire format. It can be used to support streaming decode protobuf data.pb.conv
: a module converting integers in the protobuf wire format.pb.io
: a module accessstdin/stdout
or other files in binary mode.
If you don't want to depend Google's protobuf compiler, protoc.lua
is a pure Lua module translating text-based protobuf schema content into the *.pb
binary format.
To install, you could just use luarocks
:
luarocks install lua-protobuf
If you want to build it from source, just clone the repo and use luarocks:
git clone https://github.com/starwing/lua-protobuf
luarocks make rockspecs/lua-protobuf-scm-1.rockspec
If you don't have luarocks, use hererocks
to install Lua and luarocks:
pip install hererocks
git clone https://github.com/starwing/lua-protobuf
hererocks -j 2.0 -rlatest .
bin/luarocks make lua-protobuf/rockspecs/lua-protobuf-scm-1.rockspec CFLAGS="-fPIC -Wall -Wextra" LIBFLAGS="-shared"
cp protoc.lua pb.so ..
Or you can build it by hand, it only has a pure Lua module protoc.lua
and a pair of C source: pb.h
and pb.c
. Notice that in order to build the pb
C module, you need Lua header file and/or libary file installed. replace $LUA_HEADERS
and $LUA_LIBS
below to real install locations.
To build it on macOS, use your favor compiler:
gcc -O2 -shared -undefined dynamic_lookup -I "$LUA_HEADERS" pb.c -o pb.so
On Linux, use the nearly same command:
gcc -O2 -shared -fPIC -I "$LUA_HEADERS" pb.c -o pb.so
On Windows, you could use MinGW or MSVC, create a *.sln
project or build it on the command line (notice the Lua_BUILD_AS_DLL
flag):
cl /O2 /LD /Fepb.dll /I "$LUA_HEADERS" /DLUA_BUILD_AS_DLL pb.c "$LUA_LIBS"
local pb = require "pb"
local protoc = require "protoc"
-- load schema from text (just for demo, use protoc.new() in real world)
assert(protoc:load [[
message Phone {
optional string name = 1;
optional int64 phonenumber = 2;
}
message Person {
optional string name = 1;
optional int32 age = 2;
optional string address = 3;
repeated Phone contacts = 4;
} ]])
-- lua table data
local data = {
name = "ilse",
age = 18,
contacts = {
{ name = "alice", phonenumber = 12312341234 },
{ name = "bob", phonenumber = 45645674567 }
}
}
-- encode lua table data into binary format in lua string and return
local bytes = assert(pb.encode("Person", data))
print(pb.tohex(bytes))
-- and decode the binary data back into lua table
local data2 = assert(pb.decode("Person", bytes))
print(require "serpent".block(data2))
Function | Returns | Descriptions |
---|---|---|
protoc.new() |
Proroc object | create a new compiler instance |
protoc.reload() |
true | reload all google standard messages into pb module |
p:parse(string) |
table | transform schema to DescriptorProto table |
p:compile(string) |
string | transform schema to binary *.pb format data |
p:load(string) |
true | load schema into pb module |
p.loaded |
table | contains all parsed DescriptorProto table |
p.unknown_module |
see below | handle schema import error |
p.unknown_type |
see below | handle unknown type in schema |
p.include_imports |
bool | auto load imported proto |
To parse a text schema content, create a compiler instance first:
local p = protoc.new()
Then, set some options to the compiler, e.g. the unknown handlers:
-- set some hooks
p.unknown_module = function(self, module_name) ... end
p.unknown_type = function(self, type_name) ... end
-- ... and options
p.include_imports = true
The unknwon_module
and unknown_type
handle could be true
, string or a function. Seting it to true
means all non-exist modules and types are given a default value without triggering an error; A string means a Lua pattern that indicates whether an unknown module or type should raise an error, e.g.
p.unknown_type = "Foo.*"
means all types prefixed by Foo
will be treat as existing type and do not trigger errors.
If these are functions, the unknown type and module name will be passed to functions. For module handler, it should return a DescriptorProto
Table produced by p:load()
functions, for type handler, it should return a type name and type, such as message
or enum
, e.g.
function p:unknown_module(name)
-- if can not find "foo.proto", load "my_foo.proto" instead
return p:load("my_"..name)
end
function p:unknown_type(name)
-- if cannot find "Type", treat it as ".MyType" and is a message type return ".My"..name, "message"
end
After setting options, use load()
or compile()
or parse()
function to get result.
pb
module has high-level routines to manipulate protobuf messages.
In below table of functions, we have several types that have special means:
-
type
: a string that indicates the protobuf message type,".Foo"
means the type in a proto definition that has notpackage
statement declared."foo.Foo"
means the type in a proto definition that declaredpackage foo;
-
data
: could be string,pb.Slice
value orpb.Buffer
value. -
iterator
: a function that can use in Luafor in
statement, e.g.for name in pb.types() do print(name) end
NOTICE: Only pb.load()
returns error on failure, do check the result it returns. Other routines raise a error when failure for convenience.
Function | Returns | Description |
---|---|---|
pb.clear() |
None | clear all types |
pb.clear(type) |
None | delete specific type |
pb.load(data) |
boolean,integer | load a binary schema data into pb module |
pb.encode(type, table) |
string | encode a message table into binary form |
pb.encode(type, table, b) |
buffer | encode a message table into binary form to buffer |
pb.decode(type, data) |
table | decode a binary message into Lua table |
pb.decode(type, data, table) |
table | decode a binary message into a given Lua table |
pb.pack(fmt, ...) |
string | same as buffer.pack() but return string |
pb.unpack(data, fmt, ...) |
values... | same as slice.unpack() but accept data |
pb.types() |
iterator | iterate all types in pb module |
pb.type(type) |
see below | return informations for specific type |
pb.fields(type) |
iterator | iterate all fields in a message |
pb.field(type, string) |
see below | return informations for specific field of type |
pb.typefmt(type) |
String | transform type name of field into pack/unpack formatter |
pb.enum(type, string) |
number | get the value of a enum by name |
pb.enum(type, number) |
string | get the name of a enum by value |
pb.defaults(type[, table]) |
table | get the default table of type |
pb.hook(type[, function]) |
function | get or set hook functions |
pb.option(string) |
string | set options to decoder/encoder |
pb.state() |
pb.State |
retrieve current pb state |
pb.state(newstate | nil) |
pb.State |
set new pb state and retrieve the old one |
pb.load()
accepts the schema binary data and returns a boolean indicates the result of loading, success or failure, and a offset reading in schema so far that is useful to figure out the reason of failure.
Protobuf Types | Lua Types |
---|---|
double , float |
number |
int32 , uint32 , fixed32 , sfixed32 , sint32 |
number or integer in Lua 5.3+ |
int64 , uint64 , fixed64 , sfixed64 , sint64 |
number or "#" prefixed string or integer in Lua 5.3+ |
bool |
boolean |
string , bytes |
string |
message |
table |
enum |
string or number |
Using pb.(type|field)[s]()
functions retrieve type information for loaded messages.
pb.type()
returns multiple informations for specified type:
- name : the full qualifier name of type, e.g. ".package.TypeName"
- basename: the type name without package prefix, e.g. "TypeName"
"map"
|"enum"
|"message"
: whether the type is a map_entry type, enum type or message type.
pb.types()
returns a iterators, behavior like call pb.type()
on every types of all messages.
print(pb.type "MyType")
-- list all types that loaded into pb
for name, basename, type in pb.types() do
print(name, basename, type)
end
pb.field()
returns information of the specified field for one type:
- name: the name of the field
- number: number of field in the schema
- type: field type
- default value: if no default value, nil
"packed"
|"repeated"
|"optional"
: label of the field, optional or repeated, required is not supported- [oneof_name, oneof_index]: if this is a
oneof
field, this is theoneof
name and index
And pb.fields()
iterates all fields in a message:
print(pb.field("MyType", "the_first_field"))
-- notice that you needn't receive all return values from iterator
for name, number, type in pb.fields "MyType" do
print(name, number, type)
end
pb.enum()
maps from enum name and value:
protoc:load [[
enum Color { Red = 1; Green = 2; Blue = 3 }
]]
print(pb.enum("Color", "Red")) --> 1
print(pb.enum("Color", 2)) --> "Green"
Using pb.defaults()
to get a table with all default values from a message. this table will be used as the metatable of the corresponding decoded message table when setting use_default_metatable
option.
check_load [[
message TestDefault {
optional int32 defaulted_int = 10 [ default = 777 ];
optional bool defaulted_bool = 11 [ default = true ];
optional string defaulted_str = 12 [ default = "foo" ];
optional float defaulted_num = 13 [ default = 0.125 ];
} ]]
print(require "serpent".block(pb.defaults "TestDefault"))
-- output:
-- {
-- defaulted_bool = true,
-- defaulted_int = 777,
-- defaulted_num = 0.125,
-- defaulted_str = "foo"
-- } --[[table: 0x7f8c1e52b050]]
If set pb.option "enable_hooks"
, the hook function will be enabled. you could use pb.hook()
to set or get a hook function: call it with type name directly get current setted hook; call it with two arguments to set a hook; and call it with nil
as the second argument to remove the hook. in all case, the original one will be returned.
After the hook function setted and hook enabled, the function will be called after a message get decoded. So you could get all values in the table passed to hook function. That's the only argument of hook.
If you need type name in hook functions, use this helper:
local function make_hook(name, func)
return pb.hook(name, function(t)
return func(name, t)
end)
end
Setting options to change the behavior of other routines. These options are supported currently:
Option | Description |
---|---|
enum_as_name |
set value to enum name when decode a enum (default) |
enum_as_value |
set value to enum value when decode a enum |
int64_as_number |
set value to integer when it fit into uint32, otherwise return a number (default) |
int64_as_string |
same as above, but return a string instead |
int64_as_hexstring |
same as above, but return a hexadigit string instead |
no_default_values |
do not default values for decoded message table (default) |
use_default_values |
set default values by copy values from default table before decode |
use_default_metatable |
set default values by set table from pb.default() as the metatable |
enable_hooks |
pb.decode will call pb.hooks() hook functions |
disable_hooks |
pb.decode do not call hooks (default) |
Note: The string returned by int64_as_string
or int64_as_hexstring
will prefix a '#'
character. Because Lua may convert between string with number, prefix a '#'
makes Lua return the string as-is.
all routines in all module accepts '#'
prefix string
/hex string
as arguments regardless of the option setting.
pb
module support multiple states. A state is a database that contains all type information of registered messages. You can retrieve current state by pb.state()
, or set new state by pb.state(newstate)
.
Use pb.state(nil)
to discard current state, but not to set a new one (the following routines call that use the state will create a new default state automatedly). Use pb.state()
to retrieve current state without setting a new one. e.g.
local old = pb.state(nil)
-- if you use protoc.lua, call protoc.reload() here.
assert(pb.load(...))
-- do someting ...
pb.state(old)
Notice that if you use protoc.lua
module, it will register some message to the state, so you should call proto.reload()
after setting a new state.
pb.io
module reads binary data from a file or stdin
/stdout
, pb.io.read()
reads binary data from a file, or stdin
if no file name given as the first parameter.
pb.io.write()
and pb.io.dump()
are same as Lua's io.write()
except they write binary data. the former writes data to stdout
, and the latter writes data to a file specified by the first parameter as the file name.
All these functions return a true value when success, and return nil, errmsg
when an error occurs.
Function | Returns | Description |
---|---|---|
io.read() |
string | read all binary data from stdin |
io.read(string) |
string | read all binary data from file name |
io.write(...) |
true | write binary data to stdout |
io.dump(string, ...) |
string | write binary data to file name |
pb.conv
provide functions to convert between numbers.
Encode Function | Decode Function |
---|---|
conv.encode_int32() |
conv.decode_int32() |
conv.encode_uint32() |
conv.decode_uint32() |
conv.encode_sint32() |
conv.decode_sint32() |
conv.encode_sint64() |
conv.decode_sint64() |
conv.encode_float() |
conv.decode_float() |
conv.encode_double() |
conv.decode_double() |
Slice object parse binary protobuf data in a low-level way. Use slice.new()
to create a slice object, with the optional offset i
and j
to access a subpart of the original data (named a view).
As protobuf usually nest sub message with in a range of slice, a slice object has a stack itself to support this. Calling s:enter(i, j)
saves current position and enters next level with the optional offset i
and j
just as slice.new()
. calling s:leave()
restore the prior view. s:level()
returns the current level, and s:level(n)
returns the current position, the start and the end position information of the n
th level. calling s:enter()
without parameter will read a length delimited type value from the slice and enter the view in reading value. Using #a
to get the count of bytes remains in current view.
local s = slice.new("<data here>")
local tag = s:unpack "v"
if tag%8 == 2 then -- tag has a type of string/bytes? maybe it's a sub-message.
s:enter() -- read following bytes value, and enter the view of bytes value.
-- do something with bytes value, e.g. reads a lot of fixed32 integers from bytes.
local t = {}
while #s > 0 do
t[#t+1] = s:unpack "d"
end
s:leave() -- after done, leave bytes value and ready to read next value.
end
To read values from slice, use slice.unpack()
, it use a format string to control how to read into a slice as below table (same format character are also used in buffer.pack()
). Notice that you can use pb.typefmt()
to convert between format and protobuf type names (returned from pb.field()
).
Format | Description |
---|---|
v | variable Int value |
d | 4 bytes fixed32 value |
q | 8 bytes fixed64 value |
s | length delimited value, usually a string , bytes or message in protobuf. |
c | receive a extra number parameter count after the format, and reads count bytes in slice. |
b | variable int value as a Lua boolean value. |
f | 4 bytes fixed32 value as floating point number value. |
F | 8 bytes fixed64 value as floating point number value. |
i | variable int value as signed int value, i.e. int32 |
j | variable int value as zig-zad encoded signed int value, i.e.sint32 |
u | variable int value as unsigned int value, i.e. uint32 |
x | 4 bytes fixed32 value as unsigned fixed32 value, i.e.fixed32 |
y | 4 bytes fixed32 value as signed fixed32 value, i.e. sfixed32 |
I | variable int value as signed int value, i.e.int64 |
J | variable int value as zig-zad encoded signed int value, i.e. sint64 |
U | variable int value and treat it as uint64 |
X | 8 bytes fixed64 value as unsigned fixed64 value, i.e. fixed64 |
Y | 8 bytes fixed64 value as signed fixed64 value, i.e. sfixed64 |
And extra format can be used to control the read cursor in one slice.unpack()
process:
Format | Description |
---|---|
@ | returns current cursor position in the slice, related with the beginning of the current view. |
* | set the current cursor position to the extra parameter after format string. |
+ | set the relate cursor position, i.e. add the extra parameter to the current position. |
e.g. If you want to read a varint
value twice, you can write it as:
local v1, v2 = s:unpack("v*v", 1)
-- v: reads a `varint` value
-- *: receive the second parameter 1 and set it to the current cursor position, i.e. restore the cursor to the head of the view
-- v: reads the first `varint` value again
All routines in pb.slice
module:
Function | Returns | Description |
---|---|---|
slice.new(data[,i[,j]]) |
Slice object | create a new slice object |
s:delete() |
none | same as s:reset() , free it's content |
tostring(s) |
string | return the string repr of the object |
#s |
number | returns the count of bytes can read in current view |
s:reset([...]) |
self | reset object to another data |
s:level() |
number | returns the count of stored state |
s:level(number) |
p, i, j | returns the informations of the n th stored state |
s:enter() |
self | reads a bytes value, and enter it's view |
s:enter(i[, j]) |
self | enter a view start at i and ends at j , includes |
s:leave([number]) |
self, n | leave the number count of level (default 1) and return current level |
s:unpack(fmt, ...) |
values... | reads values of current view from slice |
Buffer module used to construct a protobuf data format stream in a low-level way. It's just a bytes data buffer. using buffer.pack()
to append values to the buffer, and buffer.result()
to get the encoded raw data, or buffer.tohex()
to get the human-readable hex digit value of data.
buffer.pack()
use the same format syntax with slice.unpack()
, and support '()'
format means the inner value will be encoded as a length delimited value, i.e. a message value encoded format.
parenthesis can be nested.
e.g.
b:pack("(vvv)", 1, 2, 3) -- get a bytes value that contains three varint value.
buffer.pack()
also support '#' format, it means prepends a length into the buffer.
e.g.
b:pack("#", 5) -- prepends a varint length #b-5+1 at offset 5
All routines in pb.buffer
module:
Function | Returns | Description |
---|---|---|
buffer.new([...]) |
Buffer object | create a new buffer object, extra args will passed to b:reset() |
b:delete() |
none | same as b:reset() , free it's content |
tostring(b) |
string | returns the string repr of the object |
#b |
number | returns the encoded count of bytes in buffer |
b:reset() |
self | reset to a empty buffer |
b:reset([...]) |
self | resets the buffer and set its content as the concat of it's args |
b:tohex([i[, j]]) |
string | return the string of hexadigit represent of the data, i and j are ranges in encoded data, includes. Omit it means the whole range |
b:result([i[,j]]) |
string | return the raw data, i and j are ranges in encoded data, includes,. Omit it means the whole range |
b:pack(fmt, ...) |
self | encode the values passed to b:pack() , use fmt to indicate how to encode value |