NAME
    Data::Intern::Shared - shared-memory string interning table for Linux

SYNOPSIS
        use Data::Intern::Shared;

        # up to 1M distinct strings, 32 MB of string bytes, anonymous mapping
        my $in = Data::Intern::Shared->new(undef, 1_000_000, 32 << 20);

        my $id = $in->intern("alice");   # 0  (assigns and stores the string once)
        $in->intern("bob");              # 1
        $in->intern("alice");            # 0  (same bytes -> same id)

        my $same = $in->id_of("alice");  # 0, or undef if never interned
        my $str  = $in->string(0);       # "alice"
        $in->exists("carol");            # false

        # pair with Data::SortedSet::Shared (int64 members) for a string-keyed ZSET:
        $zset->add($in->intern($key), $score);
        my @names = map { $in->string($_) } $zset->rev_range_by_rank(0, 9);

DESCRIPTION
    A string interning table in shared memory: it maps arbitrary byte
    strings to dense "uint32" ids (0, 1, 2, ... in interning order) and
    back. Each distinct string is stored once in an append-only arena;
    interning the same bytes again returns the same id.

    It exists so that string-keyed shared structures can store a cheap
    fixed-size id while the string itself is held once, and -- because the
    table lives in shared memory -- so that several processes agree on the
    same string<->id mapping (a per-process Perl hash cannot do that). In
    particular it turns the int64-keyed Data::SortedSet::Shared into a
    string-keyed sorted set: intern the key, store the id, map ids back to
    strings on the way out.

    Lookups are O(1): an open-addressed forward hash (xxhash) finds the id;
    a dense "id -> arena offset" array gives the string back. A
    write-preferring futex rwlock with dead-process recovery guards
    mutation, so many processes may intern and look up concurrently.

    Strings are interned by their byte content (encode wide/utf8 strings
    first). Interning is permanent: ids are stable for the life of the
    table; there is no per-string removal (see "LIMITS"). Linux-only.
    Requires 64-bit Perl.

METHODS
  Constructors
        my $in = Data::Intern::Shared->new($path, $max_strings, $arena_bytes, $mode);
        my $in = Data::Intern::Shared->new(undef, $max_strings);          # anonymous
        my $in = Data::Intern::Shared->new_memfd($name, $max_strings, $arena_bytes);
        my $in = Data::Intern::Shared->new_from_fd($fd);

    $path is the backing file ("undef" for an anonymous mapping);
    $max_strings is the id/string capacity; $arena_bytes is the total
    string-bytes capacity and is optional (defaults to "$max_strings * 32",
    capped at 4 GB). When reopening an existing file or memfd, the stored
    header wins and the caller's sizes are ignored. Backing files are
    created with mode 0600 (owner-only) by default; pass an octal $mode
    (e.g. 0666, subject to umask) to allow cross-user sharing. $mode applies
    only when the file is created -- it is ignored when attaching to an
    existing file, and for anonymous and memfd tables. "new_memfd" creates a
    Linux memfd (transferable via its "memfd" descriptor); "new_from_fd"
    reopens one in another process.

  Interning
        my $id = $in->intern($str);   # id (>=0); undef if the id space or arena is full
        $in->id_of($str);             # id, or undef if $str was never interned
        $in->string($id);             # the string, or undef if $id is out of range
        $in->exists($str);
        $in->clear;                   # forget everything (all ids invalidated)

    "intern" returns the (existing or newly assigned) id, or "undef" if
    either the id space ($max_strings) or the arena ($arena_bytes) is
    exhausted -- an already-interned string always succeeds since it needs
    no new id or storage. $str is taken by its bytes; a string containing
    wide characters croaks (encode it first). The empty string and strings
    with embedded NULs are valid keys.

  Introspection and lifecycle
        $in->count; $in->max_strings; $in->arena_used; $in->arena_bytes; $in->stats;
        $in->path; $in->memfd; $in->sync; $in->unlink;     # or Class->unlink($path)

    "count" is the number of distinct interned strings (also the next id to
    be assigned). "sync" flushes the mapping to its backing store (a no-op
    for anonymous and memfd tables, which have none); "unlink" removes the
    backing file (also callable as "Class->unlink($path)"); "path" returns
    the backing path ("undef" for anonymous, memfd, or fd-reopened tables)
    and "memfd" the backing descriptor -- the memfd of a "new_memfd" table
    or the dup'd fd of a "new_from_fd" table, and -1 for file-backed or
    anonymous tables.

SHARING ACROSS PROCESSES
    The table lives in a shared mapping, shared the same three ways as the
    rest of the family: a backing file (every process calls "new($path,
    ...)" on the same path), an anonymous mapping inherited across "fork",
    or a memfd whose descriptor is passed to an unrelated process (over a
    UNIX socket via "SCM_RIGHTS", or via "/proc/$pid/fd/$n") and reopened
    with new_from_fd($fd). Because the mapping is shared, every process
    resolves a given string to the same id and can turn any id back into the
    string -- which is the whole point.

        # producer and consumer agree on ids with no coordination
        my $in = Data::Intern::Shared->new(undef, 100_000);   # before fork
        unless (fork) { my $id = $in->intern("session-42"); ...; exit }
        # parent: $in->id_of("session-42") yields the child's id; string($id) agrees

STATS
    stats() returns a hashref: "count", "max_strings", "hash_slots",
    "hash_load" (occupied fraction of the forward hash), "arena_used",
    "arena_bytes", "arena_load", "ops" (running count of "intern" calls),
    and "mmap_size" (bytes).

LIMITS
    *   Permanent interning. There is no per-string removal; ids never
        change. This is ideal for a bounded key universe (usernames,
        symbols, paths): add/remove churn of the same key in a consuming
        structure never grows the arena. For an unbounded stream of unique
        strings the arena grows until full; "clear" is the only reset.

    *   Byte keys. Strings are interned by byte content; encode wide strings
        first.

    *   Fixed sizes. $max_strings (<= 2^30) and $arena_bytes (<= 4 GB) are
        set at construction and cannot grow.

SECURITY
    Backing files are created with mode 0600 (owner-only) by default, so
    only the creating user can open and attach them. To share a backing file
    across users, pass an explicit octal file mode such as 0660 as the last
    argument to "new"; the mode is applied only when the file is created (an
    existing file keeps its own permissions). The file is opened with
    "O_NOFOLLOW", so a symlink planted at the path is refused, and created
    with "O_EXCL"; the on-disk header is validated when the file is
    attached. Any process you grant write access to a shared mapping is
    trusted not to corrupt its contents while other processes are using it.

CRASH SAFETY
    Mutation is guarded by a futex-based write-preferring rwlock with
    PID-encoded ownership; if a holder dies, the next contender detects the
    dead owner and recovers. The arena and tables are append-only and never
    rewritten in place, so a crash leaves the table consistent up to the
    last completed "intern". Limitation: PID reuse is not detected (very
    unlikely in practice).

SEE ALSO
    Data::SortedSet::Shared (the int64-keyed sorted set this interns keys
    for), Data::SpatialHash::Shared, and the rest of the "Data::*::Shared"
    family.

AUTHOR
    vividsnow

LICENSE
    This is free software; you can redistribute it and/or modify it under
    the same terms as Perl itself.

