.. | ||
m | ||
.gitignore | ||
aio.cc | ||
aio.h | ||
allocator.cc | ||
base.cc | ||
cbor.cc | ||
client.cc | ||
conf.cc | ||
ctx.cc | ||
ctx.h | ||
db.cc | ||
db.h | ||
demangle.cc | ||
exception.cc | ||
fmt.cc | ||
fs.cc | ||
hash.cc | ||
http.cc | ||
info.cc | ||
ircd.cc | ||
js.cc | ||
json.cc | ||
lexical.cc | ||
locale.cc | ||
logger.cc | ||
magic.cc | ||
Makefile.am | ||
mods.cc | ||
mods.h | ||
net.cc | ||
openssl.cc | ||
parse.cc | ||
rand.cc | ||
README.md | ||
resource.cc | ||
rfc1035.cc | ||
rfc1459.cc | ||
rfc3986.cc | ||
server.cc | ||
sodium.cc | ||
tokens.cc |
IRCd Library Definitions
This directory contains definitions and linkage for libircd
The purpose of libircd
is to facilitate the execution of a server which
handles requests from end-users. The library hosts a set of pluggable modules
which may introduce the actual application features (or the "business logic")
of the server. These additional modules are found in the modules/
directory;
libircd can be embedded in your application with very minimal overhead.
Linking to libircd from your executable allows you to customize and extend the functionality of the server and have control over its execution, or, simply use library routines provided by the library without any daemonization.
libircd runs only one server at a time.
Keeping with the spirit of simplicity of the original architecture, libircd
continues to be a "singleton" object which uses globals and keeps actual server
state in the library itself. In other words, only one IRC daemon can exist
within a process's address space at a time. Whether or not this was a pitfall
of the original design, it has emerged over the decades as a very profitable
decision for making IRCd an accessible open source internet project.
libircd is single-threaded✝
This methodology ensures there is an uninterrupted, uncontended, predictable execution. If there are periods of execution which are computationally intense like parsing, hashing, cryptography, etc: this is absorbed in lieu of thread synchronization and bus contention. Scaling this system is done through running multiple independent instances which synchronize with application logic.
✝ However, don't start assuming a truly threadless execution for the entire
address space. If there is ever a long-running background computation or a call
to a 3rd party library which will do IO and block the event loop, we may use an
additional std::thread
to "offload" such an operation. Thus we do have
a threading model, but it is heterogeneous.
libircd introduces userspace threading✝
IRCd presents an interface introducing stackful coroutines, a.k.a. userspace context switching, a.k.a. green threads, a.k.a. fibers. The library avoids callbacks as the way to break up execution when waiting for events. Instead, we harken back to the simple old ways of synchronous programming where control flow and data are easy to follow.
✝ If there are certain cases where we don't want a stack to linger which may jeopardize the c10k'ness of the daemon the asynchronous pattern is still used.
libircd leverages formal grammars
We utilize the boost::spirit
system of parsing and printing through formal grammars,
rather than writing our own parsers manually. In addition, we build several tools
on top of such formal devices like a type-safe format string library acting as a
drop-in for ::sprintf()
, but accepting objects like std::string
without .c_str()
and prevention of outputting unprintable/unwanted characters that may have been
injected into the system somewhere prior.
Overview
libircd
is designed specifically as a shared object library. The purpose of its
shared'ness is to facilitate IRCd's modular design: IRCd ships with many other
shared objects which introduce the "business logic" and features of the daemon. If
libircd
was not a shared object, every single module would have to include large
amounts of duplicate code drawn from the static library. This would be a huge drag
on both compilation and the runtime performance.
(module) (module)
| |
| |
V V
|-------------|
---------------------- | | < ---- (module)
| | | |
| User's executable | <---- | libircd |
| | | |
---------------------- | | < ---- (module)
|-------------|
^ ^
| |
| |
(module) (module)
The user (which we may also refer to as the "embedder" elsewhere in
documentation) only deals directly with libircd
and not the modules.
libircd
is generally loaded with its symbols bound globally in the executable
and on most platforms cannot be unloaded (or even loaded) manually and has not
been tested to do so. As an aside, we do not summarily dismiss the idea of
reload capability and would like to see it made possible.