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-rw-r--r--doc/multiprocess.md39
1 files changed, 38 insertions, 1 deletions
diff --git a/doc/multiprocess.md b/doc/multiprocess.md
index 7a42fdd734..e3f389a6d3 100644
--- a/doc/multiprocess.md
+++ b/doc/multiprocess.md
@@ -15,7 +15,7 @@ Specific next steps after [#10102](https://github.com/bitcoin/bitcoin/pull/10102
## Debugging
-After [#10102](https://github.com/bitcoin/bitcoin/pull/10102), the `-debug=ipc` command line option can be used to see requests and responses between processes.
+The `-debug=ipc` command line option can be used to see requests and responses between processes.
## Installation
@@ -33,3 +33,40 @@ BITCOIND=bitcoin-node test/functional/test_runner.py
The configure script will pick up settings and library locations from the depends directory, so there is no need to pass `--enable-multiprocess` as a separate flag when using the depends system (it's controlled by the `MULTIPROCESS=1` option).
Alternately, you can install [Cap'n Proto](https://capnproto.org/) and [libmultiprocess](https://github.com/chaincodelabs/libmultiprocess) packages on your system, and just run `./configure --enable-multiprocess` without using the depends system. The configure script will be able to locate the installed packages via [pkg-config](https://www.freedesktop.org/wiki/Software/pkg-config/). See [Installation](https://github.com/chaincodelabs/libmultiprocess#installation) section of the libmultiprocess readme for install steps. See [build-unix.md](build-unix.md) and [build-osx.md](build-osx.md) for information about installing dependencies in general.
+
+## IPC implementation details
+
+Cross process Node, Wallet, and Chain interfaces are defined in
+[`src/interfaces/`](../src/interfaces/). These are C++ classes which follow
+[conventions](developer-notes.md#internal-interface-guidelines), like passing
+serializable arguments so they can be called from different processes, and
+making methods pure virtual so they can have proxy implementations that forward
+calls between processes.
+
+When Wallet, Node, and Chain code is running in the same process, calling any
+interface method invokes the implementation directly. When code is running in
+different processes, calling an interface method invokes a proxy interface
+implementation that communicates with a remote process and invokes the real
+implementation in the remote process. The
+[libmultiprocess](https://github.com/chaincodelabs/libmultiprocess) code
+generation tool internally generates proxy client classes and proxy server
+classes for this purpose that are thin wrappers around Cap'n Proto
+[client](https://capnproto.org/cxxrpc.html#clients) and
+[server](https://capnproto.org/cxxrpc.html#servers) classes, which handle the
+actual serialization and socket communication.
+
+As much as possible, calls between processes are meant to work the same as
+calls within a single process without adding limitations or requiring extra
+implementation effort. Processes communicate with each other by calling regular
+[C++ interface methods](../src/interfaces/README.md). Method arguments and
+return values are automatically serialized and sent between processes. Object
+references and `std::function` arguments are automatically tracked and mapped
+to allow invoked code to call back into invoking code at any time, and there is
+a 1:1 threading model where any thread invoking a method in another process has
+a corresponding thread in the invoked process responsible for executing all
+method calls from the source thread, without blocking I/O or holding up another
+call, and using the same thread local variables, locks, and callbacks between
+calls. The forwarding, tracking, and threading is implemented inside the
+[libmultiprocess](https://github.com/chaincodelabs/libmultiprocess) library
+which has the design goal of making calls between processes look like calls in
+the same process to the extent possible.