Update docs/dev/rationale.md

docs/dev/rationale.md

@@ -39,12 +39,71 @@ Telodendria that Conduit lacks.
 
 ### Small Dependency Chain
 
-**TODO:** See #30.
+Conduit's dependency chain is quite large. What this means is that
+Conduit depends on a lot of code that it does not control, making it
+vulnerable to supply chain attacks. A problem with Rust Crates
+is that they are developer-published, so they don't go through any sort
+of auditing process like a Debian package would, for example.
+ If any one of the dependencies is
+hijacked or otherwise compromised, then Conduit itself is compromised
+and it is likely that this would go unnoticed for quite a while. While
+one could argue that this is extremely unlikely to happen, sometimes you
+just don't want to take that risk, especially not if you're deploying a
+Matrix homeserver, likely for the purpose of secure, private chat.
+
+Telodendria doesn't pull in any packages from developer repositories, so
+the risk of supply chain attacks is much lower. It
+only uses its own code and code provided by the operating system it is running
+on, which has been vetted by a large number of developers and can be trusted
+due to the sheer scope of an operating system. A supply chain attack against
+Telodendria would be a supply chain attack against the entire operating system;
+at that point, end users have much bigger problems.
+
+Minimal dependencies doesn't only mitigate supply chain attacks. It also makes
+maintenance much easier. Telodendria can spend more time writing code than
+Conduit because Conduit developers have to ensure dependencies stay up to date and
+when they inevitably break things, Conduit must pause development to fix those.
+Telodendria doesn't suffer from this problem: because most of the code is developed
+along side of Telodendria, it can remain as stable or become as volatile as the
+developers choose. Additionally, because Telodendria is so low-level, the code on
+which it depends is extremely unlikely to be changed in any significant way,
+since so many other programs depend on that code.
 
 ### Standardized
 
-**TODO:** See #30.
+Conduit is written in Rust, which has no formal standard. This makes it less than
+ideal for long-lived software projects, because it changes frequently and often
+breaks existing code. Telodendria is written in C, a stable, mature, and standardized
+language that will always compile the same code the same way, making it more
+portable and sustainable for the future because we don't ever have to worry about
+upgrading our toolchain—using standard tools built into most operating systems
+will suffice.
+
+Because the language in which Telodendria is written never changes, Telodendria can
+continually optimize and improve the code, instead of having to fix breaking changes.
+This ensures that Telodendria's code will last. Rust code becomes obsolete with in a
+few years at best—programs written in Rust last year probably won't compile or run
+properly on the latest Rust toolchain. Telodendria, on the other hand, is written in C89,
+which compiled and ran the same way in 1989 as it does today and will continue to for the
+foreseeable future.
+
+### Fast Compile Times
+
+Rust is well-known for taking an extremely long time to compile moderately-sized
+programs. Since a Matrix homeserver is such a large project, the compile times would
+be prohibitively large for rapid development. By writing Telodendria in C, we can take
+advantage of decades worth of compiler optimizations and speed improvements, resulting
+in extremely fast builds.
 
 ### Portable
 
-**TODO:** See #30.
+One does not typically think of C as more portable than something like Rust, but
+Telodendria is written in such a way that it is. Rust relies on LLVM, which doesn't
+support some strange or exotic architectures in the same way that a specialized C
+compiler for those architectures will. This allows users to run Telodendria on the
+hardware of their choice, even if that hardware is so strange that the modern world
+has totally left it behind.
+
+Telodendria doesn't just aim at being lightweight and portable, it aims to empower
+people to use common hardware that they already have, even if it is typically thought
+of as underpowered.