# mvendorid/marchid WARL <a name="mvendor_marchid_warl"></a>
This proposal is to make the mvendorid and marchid CSRs have WARL (writeable)
-characteristics. Each unique tuple (including on a per-hart
-basis within the same processor) uniquely identifies and permits switch-over
+characteristics as a means and method of providing RISC-V implementations
+with a way to support multiple binary instruction encodings simultaneously
+within the same processor. Each unique tuple (including on a per-hart
+basis) uniquely identifies and permits switch-over
to a completely separate and distinct binary-encoding such that:
* Different versions (legacy and new) of the RISC-V Standard may be
instruction encodings and enabling others.
Note also that during (for example) standard OS context-switching *all*
-state of *all* extensions (and variants of the Base Standards) related
+state of *all* enabled extensions (and variants of the Base Standards) related
to *all* mvendorid-marchid tuples will need to be saved onto the stack,
given that a hart may, at any time, switch between any available
mvendorid-marchid tuples.
+In other words there is absolutely zero connection *of any kind whatsoever*
+between the "encoding switching" and the state or status of the Extensions
+that the binary encodings are being directed *at* (on any upcoming
+conflicting instruction encodings). If a program requires the enablement
+or disablement of an Extension it **uses MISA and other official methods
+to do so** that have **absolutely nothing to do with what mvendorid-marchid
+is presently enabled**.
+
## Compliance
It was pointed out early in the discussions that Compliance Testing may
How such foreign architectures would switch back to RISC-V when the foreign
architecture does not support the concept of mvendorid-marchid is out of
-scope and left to implementors.
+scope and left to implementors to define and implement equivalent
+functionality.
## Implementation
on which mvendorid-marchid tuple is currently active clearly meets that
requirement.
+# How the "custom extension conflict" is solved
+
+* Vendor 1 produces a Custom Extension
+* Vendor 2 produces a Custom Extension
+* Both Custom Extensions have conflicting binary encodings.
+* Fabless Semi Company 1 licenses both Vendor 1 and 2 Custom Extensions
+* Fabless Semi Company 1 sets marchid=0xeee1 WARL to represent
+ enabling Vendor 1's conflicting encoding
+* Fabless Semi Company 1 sets marchid=0xeee2 WARL to represent
+ enabling Vendor 2's conflicting encoding
+* Fabless Semi Company 1 contacts the FSF, submitting patches to gcc
+ (and likewise with binutils) to register
+ (mvendorid=fabless1,marchid=0xeee1) to be added to the global
+ (FSF-curated?) database for Vendor 1's instruction encoding.
+* Likewise for Vendor 2's instruction encoding.
+
+Note that the RISC-V Foundation is **not** involved (or consulted) in
+this process. The **FSF** (as the Copyright holder of gcc and binutils)
+inherently and implicitly becomes the de-facto atomic arbiter in control
+of the registration of Custom Extension instruction encodings.
+
+The FSF's "job" is however quite straightforward: ensure that all
+registrations are in fact unique. It would be absolutely no good if a
+Vendor decided to re-use two mvendorid-marchid tuples to mean two
+totally different sets of instructions needed to be enabled! Any
+Vendor attempting to do so should be red-flagged immediately.
+
+Situations in which the FSF receives requests for patches with
+*another fabless semiconductor company's* mvendorid should also be treated
+with suspicion, at the very least being queried as to why one fabless semi
+company is trying to encroach on another company's JEDEC-registered
+encoding space.
+
+The special case of the above is when a fabless semiconductor company
+implements a new version of the RISC-V Standard. Here, again, the
+fabless semi company will provide patches to gcc and binutils, requesting
+that their specific mvendorid-marchid tuple be added to the (inherently
+de-facto atomic arbitrated) global database for that particular RISC-V
+Standard "Variant".
+
+# Questions to be resolved
+
+* Can the declaration (meaning) of read-only be expanded to cover
+ any number of (non-conflicting) Custom Extensions? What are the
+ implications of doing so?