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419 lines
15 KiB
Plaintext
---
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title: Filesystem handbook
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sort: 6
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next: true
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---
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# Filesystem handbook
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Urbit has its own revision-controlled filesystem, the `%clay`
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vane. `%clay` is like a simplified `git`, but more reactive,
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and also typed. Okay, this makes no sense.
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The most common way to use `%clay` is to mount a `%clay` node in
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a Unix directory. The Urbit process will watch this directory
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and automatically record edits as changes, Dropbox style. The
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mounted directory is always at the root of your pier directory.
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## Commands
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Note that in both commands and generators, a currently unbound
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case (such as a version in the future) will make the calculation
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block, not complete. A remote case will cause a network request.
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A remote, unbound case will cause a waiting subscription.
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### Mounting to Unix
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#### `|mount [pax=path pot=$|(~ [knot ~])]`
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Mount the path `pax` at the Unix mount point `pot`, the name of a
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subdirectory in your pier.
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|mount %/pub/doc %documents
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with a `$PIER` of `/home/nixon/urbit/fintud-macrep`, will mount
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`%/pub/doc` in `/home/nixon/urbit/fintud-macrep/documents`.
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The mount point is optional; if it's not supplied, the last knot
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in the path (`%doc`) will be used.
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#### `|unmount [mon=$|(term [knot path]) ~] `
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Undo a mount, either by specifying the path or the mount point:
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|unmount %/pub/doc
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|unmount %documents
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It's a good habit to also delete the Unix subtree, but Urbit
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doesn't do it for you.
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### Revision-control operations
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#### `|merge [syd=desk src=beak how=$|(~ [germ ~])]`
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Merge the beak `src` into the desk `syd`, with optional merge
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strategy `how`.
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The `src` beak can be a desk (`%home`); a plot-desk cell
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(`[~doznec %home]`); or a plot-desk-case path (`/=home=`).
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|merge %home-work /=home= %fine
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|merge %home-work /=home=
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#### `|sync [syd=desk her=plot org=$|(~ [desk ~])]`
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Activate autosync from the plot `her` and source desk `org`, into
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the desk `syd`. If `org` is omitted, it's the same as `syd`:
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|sync %home-local ~doznec %home
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|sync %home ~doznec
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Note that `|merge` takes a path because it needs a source case
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(revision), which would make no sense for `|sync`.
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#### `|label [syd=desk lab=term]`
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Label the current version of desk `syd`:
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#### `|unsync [syd=desk her=plot org=desk ~]`
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Turn off autosync. The argument needs to match the original
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`|sync` perfectly, or Urbit will become angry and confused.
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### Filesystem manipulation
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#### `|rm [paz=(list path)]`
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Remove any leaf at each of the paths in `paz`.
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|rm /===/pub/fab/nixon/hoon
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Remember that folders in `%clay` are a consequence of the tree of
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leaves; there is no `rmdir` or `mkdir`.
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#### `|cp [too=path fro=path how=$|(~ [germ ~])]`
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Copy the subtree `fro` into the subtree `too`, committing it with
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the specified merge strategy.
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#### `|mv [too=path fro=path how=$|(~ [germ ~])]`
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In `%clay`, `|mv` is just a shorthand for `|cp` then `|rm`. The
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`|rm` doesn't happen unless the `|cp` succeeds, obviously -- it's
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good to be transactional.
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### Filesystem generators
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#### `+cal [paz=(list path)]`
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#### `+cat [pax=path]`
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Produce the noun, if any, at each of these (global) paths.
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`+cat` produces one result, `+cal` a list.
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#### `+ls [pax=path ~]`
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Produce the list of names in the folder at `pax`.
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Because generators aren't passed the dojo's default path, unlike
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the current directory in Unix, it's not possible to build an
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trivial `+ls` that's the equivalent of Unix `ls`. You always
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have to write `+ls %`.
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#### `+ll [pax=path ~]`
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Like `+ls`, but the result is a list of full paths. Useful as
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Urbit equivalent of the Unix wildcard `*`.
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## A quick overview of `%clay`
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`%clay` is a typed, global revision-control system. Or in other
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words, a typed, global referentially transparent namespace. It's
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difficult to understate how awesome this is.
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(Actually, in Layer 4 and 5 code, you can use the Hoon `.^` rune
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to literally *dereference* this namespace. And in Layer 5, a
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generator will even *block* until the resource is available.)
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(Another awesome global immutable namespace is IPFS. But IPFS is
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distributed, whereas `%clay` is just decentralized. IPFS stores
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resources around the network in a DHT, like Freenet or
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Bittorrent; `%clay` stores resources on the publisher's server,
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like HTTP or git.)
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### Path format
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As a noun, a path in `%clay` is a `(list knot)`, where each
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segment is an `@ta` atom -- URL-safe text, restricted to `[a z]`,
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`[0 9]`, `.`, `-`, `_` and `~`. The list is a tuple terminated
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with a Hoon null, `~`.
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As an ordinary Hoon noun, `[%foo %bar %baz]` has this structure.
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But Hoon also supports the Unix path syntax: `/foo/bar/baz` is
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the same noun.
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### Relative paths
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The Hoon path syntax is always defined relative to a default
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path, which is configuration state in the Hoon parser. In
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`:dojo`, this works a little like the Unix current directory.
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(But note that in Unix, relative paths are expanded by the
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application, which can read the current directory from the
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environment. In Urbit, the current directory and variables are
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hidden by the dojo from any code it runs. The parser generates
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the absolute path -- more like the way a Unix shell parser
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unglobs `*`.)
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Relative path syntax: `%` is the default path (Unix `.`). `%%`
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is the parent path (Unix `..`). Unix does not have `...`,
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`....`, etc. But Urbit has `%%%`, `%%%%`, etc. Urbit has no
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local relative paths; in Unix, `foo/bar` is a shorthand for
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`./foo/bar`, but in Urbit you have to write `%/foo/bar`.
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Unix has no top-level substitution syntax, but Urbit does. If
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the default path is `/foo/bar/baz`, `/=/moo` means `/foo/moo`,
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and `/=/moo/=/goo` means `/foo/moo/baz/goo`. Also, instead of
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`/=/=/zoo` or `/=/=/=/voo`, write `/==zoo` or `/===voo`. Your
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fingers have enough miles on them already.
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### Beak
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The top three knots in a `%clay` path are `/plot/desk/case`,
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where `plot` is of course an urbit; `desk` is a branch name; and
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`case` is a revision identity, which is either (a) a label, (b) a
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date, or (c) a change number. For obscure reasons, this prefix
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is called the `beak`.
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### Spur
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The rest of the path, or `spur`, navigates a tree of `node`
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nouns. A `node` is like an inode in a Unix filesystem, but
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different.
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An inode is *either* a file or a directory. A `node` is *both* a
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folder (which may be empty) and an optional leaf (a noun).
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There is no `rmdir` or `mkdir`; an empty node is automatically
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pruned, and creating a node creates its path. The absence of a
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file-or-directory mode bit eliminates all kinds of strange corner
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cases, especially in merging.
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### Leaf
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`%clay` is a typed filesystem, or more precisely a *marked* one.
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When we sync Unix and Urbit paths, we convert a Unix file extension
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(an informal specifications) into a Urbit `*mark*` (an
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executable specification)
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The mark name is actually the last knot in the path. Or to put
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it differently: if any `%clay` node has a leaf, its name within
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its parent is its mark.
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This is ridiculously confusing without examples. Suppose we have
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the following Unix files, with directories to match:
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doc.md
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doc/intro.md
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doc/start.md
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These become the Urbit files
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%/doc/md
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%/doc/intro/md
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%/doc/start/md
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The folder map of the `%/doc` node contains three entries: `%md`,
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`%intro`, `%start`. The folder of `%/doc/intro` and that of
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`%/doc/start` each contain one entry: `%md` (the mark of an atom
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in Markdown syntax).
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Perhaps this example helps explains *why* `%clay` uses this node
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design. One, it's a simple index-page model for any kind of
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published tree. Two, this tree can expand its leaves smoothly,
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just by adding content: if we decided `%/doc/start` was not a
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leaf but a tree, we could just add `%/doc/start/child/md`.
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And three, the `%clay` node structure syncs invertibly with an
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equivalent, and not unduly weird, Unix inode layout.
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### Mounting to Unix
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The most convenient way of interacting with `%clay` is mounting
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it to Unix, and modifying it with Unix tools. The mount
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directory is a flat subdirectory of your Urbit pier.
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When you have a live mount point, Urbit monitors it with
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`inotify()` or equivalent. (It would be neat to have a FUSE
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driver, but we don't.) If you shut your urbit off, it will
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recheck the mount point when it reloads.
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Unix files beginning with `.`, with no extension, with an
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extension that doesn't map to an Urbit mark, or containing data
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that doesn't validate to the mark, are ignored. Depending on the
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extension, there may be a more or less complex conversion from
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the Unix length/bytestream pair to the Urbit noun.
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### More about desks and marks
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The Hoon source code for a mark like `%md` is in
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`/===/mar/md/hoon`. But relative to what beak? What's in the
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`/===`?
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The mark source of a leaf in `%clay` is always relative to its
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own plot, desk and case. For example, a leaf at
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`/~fintud-macrep/home/31/pub/doc/hello/md`
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is controlled by the mark source
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`/~fintud-macrep/home/31/mar/md/hoon`
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If there is no such file or it doesn't compile, the mark is
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effectively treated as `%noun`, ie, an arbitrary value.
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(Note that when updating a mark, any update which shrinks the set
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of nouns in that mark needs to at least adapt old nouns to new.
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Also, mark source updates should be very slow, but aren't. They
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should validate all nouns against the new mark, but don't.)
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What can you do with a mark? Validate an arbitrary noun; perform
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diffs, patches, and and conflict merges; transform to or from
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another mark. The `%ford` vane, which builds and converts nouns,
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can even discover and apply multi-step conversion paths.
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Marks are also used to describe network messages. In this case,
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the mark source beak is the beak of the receiving urbit.
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### Desks and merging
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As in any git-shaped revision control system, the core operation
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of the system is merging.
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One of the effects of same-beak marks is that it doesn't make
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sense to create an empty desk. You can't populate an empty desk
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properly with typed files. Instead, a new desk should be merged
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from an existing desk -- normally the default desk, `%home`.
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It's also generally bad style to edit directly in the desk you
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want to modify. Your Unix filesystem changes will appear as a
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stream of small, unstructured changes. You should be editing a
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working desk. Conventionally, to change `%home`, merge `%home`
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into `%home-work`, edit there, and merge back as a "commit."
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Ideally, your "commits" include modifications to a text file that
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acts as a changelog.
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So merges are important. Again as in `git`, merge strategies are
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important. That said, if you are not doing exciting things with
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`%clay`, you can skip the strategy subsection. By default,
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`%clay` will always use the `%auto` meta-strategy, which will
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always work if you're not doing exciting things.
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#### Merge strategies
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There are seven different merge strategies. Throughout our
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discussion, we'll say that the merge is from Alice's desk to
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Bob's.
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##### Direct strategies
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A `%init` merge should be used iff it's the first commit to a
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desk. The head of Alice's desk is used as the number 1 commit to
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Bob's desk. Obviously, the ancestry remains intact when
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traversing the parentage of the commit, even though previous
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commits are not numbered for Bob's desk.
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A `%this` merge means to keep what's in Bob's desk, but join the
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ancestry. Thus, the new commit has the head of each desk as
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parents, but the data is exactly what's in Bob's desk. For those
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following along in git, this is the 'ours' merge strategy, not
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the '--ours' option to the 'recursive' merge strategy. In other
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words, even if Alice makes a change that does not conflict with
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Bob, we throw it away.
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A `%that` merge means to take what's in Alice's desk, but join
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the ancestry. This is the reverse of `%this`.
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A `%fine` merge is a "fast-forward" merge. This succeeds iff one
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head is in the ancestry of the other. In this case, we use the
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descendant as our new head.
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For `%meet`, `%mate`, and `%meld` merges, we first find the most
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recent common ancestor to use as our merge base. If we have no
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common ancestors, then we fail. If we have multiple most
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recent common ancestors, then we have a criss-cross situation,
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which should be handled delicately. At present, we don't handle
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this kind of situation, but something akin to git's 'recursive'
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strategy should be implemented in the future.
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There's a functional inclusion ordering on `%fine`, `%meet`,
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`%mate`, and `%meld` such that if an earlier strategy would have
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succeeded, then every later strategy will produce the same
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result. Put another way, every earlier strategy is the same as
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every later strategy except with a restricted domain.
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A `%meet` merge only succeeds if the changes from the merge base
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to Alice's head (hereafter, "Alice's changes") are in different
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files than Bob's changes. In this case, the parents are both
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Alice's and Bob's heads, and the data is the merge base plus
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Alice's changed files plus Bob's changed files.
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A `%mate` merge attempts to merge changes to the same file when
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both Alice and Bob change it. If the merge is clean, we use it;
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otherwise, we fail. A merge between different types of changes --
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for example, deleting a file vs changing it -- is always a
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conflict. If we succeed, the parents are both Alice's and Bob's
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heads, and the data is the merge base plus Alice's changed files
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plus Bob's changed files plus the merged files.
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A `%meld` merge will succeed even if there are conflicts. If
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there are conflicts in a file, then we use the merge base's
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version of that file, and we produce a set of files with
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conflicts. The parents are both Alice's and Bob's heads, and the
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data is the merge base plus Alice's changed files plus Bob's
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changed files plus the successfully merged files plus the merge
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base's version of the conflicting files.
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##### Meta-strategies
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There's also a meta-strategy `%auto`, which is the most common.
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If no strategy is supplied, then `%auto` is assumed. `%auto`
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checks to see if Bob's desk exists, and if it doesn't we use a
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`%init` merge. Otherwise, we progressively try `%fine`,
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`%meet`, and `%mate` until one succeeds.
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If none succeed, we merge Bob's desk into a scratch desk. Then,
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we merge Alice's desk into the scratch desk with the `%meld`
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option to force the merge. For each file in the produced set of
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conflicting files, we call the `++mash` function for the
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appropriate mark, which annotates the conflicts if we know how.
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Finally, we display a message to the user informing them of the
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scratch desk's existence, which files have annotated conflicts,
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and which files have unannotated conflicts. When the user has
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resolved the conflicts, they can merge the scratch desk back into
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Bob's desk. This will be a `%fine` merge since Bob's head is in
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the ancestry of the scratch desk.
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### Autosync
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Since `%clay` is reactive, it has a subscription interface.
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Changes to the filesystem create events which code at Layers 3 or
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4 (vanes or apps) can listen to.
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The `:hood` appliance uses subscriptions to implement "autosync".
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When one desk is synced to another, any changes to the first desk
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are automatically applied to the second -- for any two desks, on
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any two urbits.
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Autosync isn't just mirroring. The target desk might have
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changes of its own. We use the full merge capabilities of
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`%clay` to try to make the merge clean. If there are conflicts,
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it'll notify you through `:talk`, and ask you to resolve.
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There can be complex sync flows, many of which are useful.
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Often, many urbits will be synced to some upstream desk that is
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trusted to provide updates. Sometimes, it's useful to sync two
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desks to each other, so that changes to one or the other are
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mirrored. Cyclical sync structures are normal and healthy.
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Also, one desk can be the target of multiple autosyncs.
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