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Arguments

Arguments passed to the channel program are converted to a Lua table. If invoked from the command line, extra arguments to the Lua script will be accessible as an array stored in the argument table with the key 'argv':

args = ...
argv = args["argv"]
-- argv == {1="arg1", 2="arg2", ...}

If invoked from the libZFS interface, an arbitrary argument list can be passed to the channel program, which is accessible via the same "..." syntax in Lua:

args = ...
-- args == {"foo"="bar", "baz"={...}, ...}

Note that because Lua arrays are 1-indexed, arrays passed to Lua from the libZFS interface will have their indices incremented by 1. That is, the element in arr[0] in a C array passed to a channel program will be stored in arr[1] when accessed from Lua.

Return Values

Lua return statements take the form:

return ret0, ret1, ret2, ...

Return statements returning multiple values are permitted internally in a channel program script, but attempting to return more than one value from the top level of the channel program is not permitted and will throw an error. However, tables containing multiple values can still be returned. If invoked from the command line, a return statement:

a = {foo="bar", baz=2}
return a

Will be output formatted as:

Channel program fully executed with return value:
    return:
        baz: 2
        foo: 'bar'

Fatal Errors

If the channel program encounters a fatal error while running, a non-zero exit status will be returned. If more information about the error is available, a singleton list will be returned detailing the error:

error: "error string, including Lua stack trace"

If a fatal error is returned, the channel program may have not executed at all, may have partially executed, or may have fully executed but failed to pass a return value back to userland.

If the channel program exhausts an instruction or memory limit, a fatal error will be generated and the program will be stopped, leaving the program partially executed. No attempt is made to reverse or undo any operations already performed. Note that because both the instruction count and amount of memory used by a channel program are deterministic when run against the same inputs and filesystem state, as long as a channel program has run successfully once, you can guarantee that it will finish successfully against a similar size system.

If a channel program attempts to return too large a value, the program will fully execute but exit with a nonzero status code and no return value.

Note: ZFS API functions do not generate Fatal Errors when correctly invoked, they return an error code and the channel program continues executing. See the ZFS API section below for function-specific details on error return codes.

Lua to C Value Conversion

When invoking a channel program via the libZFS interface, it is necessary to translate arguments and return values from Lua values to their C equivalents, and vice-versa.

There is a correspondence between nvlist values in C and Lua tables. A Lua table which is returned from the channel program will be recursively converted to an nvlist, with table values converted to their natural equivalents:

string -> string
number -> int64
boolean -> boolean_value
nil -> boolean (no value)
table -> nvlist

Likewise, table keys are replaced by string equivalents as follows:

string -> no change
number -> signed decimal string ("%lld")
boolean -> "true" | "false"

Any collision of table key strings (for example, the string "true" and a true boolean value) will cause a fatal error.

Lua numbers are represented internally as signed 64-bit integers.

Function Arguments

Each API function takes a fixed set of required positional arguments and optional keyword arguments. For example, the destroy function takes a single positional string argument (the name of the dataset to destroy) and an optional "defer" keyword boolean argument. When using parentheses to specify the arguments to a Lua function, only positional arguments can be used:

zfs.sync.destroy("rpool@snap")

To use keyword arguments, functions must be called with a single argument that is a Lua table containing entries mapping integers to positional arguments and strings to keyword arguments:

zfs.sync.destroy({1="rpool@snap", defer=true})

The Lua language allows curly braces to be used in place of parenthesis as syntactic sugar for this calling convention:

zfs.sync.snapshot{"rpool@snap", defer=true}

Function Return Values

If an API function succeeds, it returns 0. If it fails, it returns an error code and the channel program continues executing. API functions do not generate Fatal Errors except in the case of an unrecoverable internal file system error.

In addition to returning an error code, some functions also return extra details describing what caused the error. This extra description is given as a second return value, and will always be a Lua table, or Nil if no error details were returned. Different keys will exist in the error details table depending on the function and error case. Any such function may be called expecting a single return value:

errno = zfs.sync.promote(dataset)

Or, the error details can be retrieved:

errno, details = zfs.sync.promote(dataset)
if (errno == EEXIST) then
    assert(details ~= Nil)
    list_of_conflicting_snapshots = details
end

The following global aliases for API function error return codes are defined for use in channel programs:

EPERM     ECHILD      ENODEV      ENOSPC
ENOENT    EAGAIN      ENOTDIR     ESPIPE
ESRCH     ENOMEM      EISDIR      EROFS
EINTR     EACCES      EINVAL      EMLINK
EIO       EFAULT      ENFILE      EPIPE
ENXIO     ENOTBLK     EMFILE      EDOM
E2BIG     EBUSY       ENOTTY      ERANGE
ENOEXEC   EEXIST      ETXTBSY     EDQUOT
EBADF     EXDEV       EFBIG

API Functions

For detailed descriptions of the exact behavior of any zfs administrative operations, see the main zfs(1) manual page.

zfs.debug(msg)

Record a debug message in the zfs_dbgmsg log. A log of these messages can be printed via mdb's "::zfs_dbgmsg" command, or can be monitored live by running:

  dtrace -n 'zfs-dbgmsg{trace(stringof(arg0))}'

msg (string)

Debug message to be printed.

zfs.exists(dataset)

Returns true if the given dataset exists, or false if it doesn't. A fatal error will be thrown if the dataset is not in the target pool. That is, in a channel program running on rpool, zfs.exists("rpool/nonexistent_fs") returns false, but zfs.exists("somepool/fs_that_may_exist") will error.

dataset (string)

Dataset to check for existence. Must be in the target pool.

zfs.get_prop(dataset, property)

Returns two values. First, a string, number or table containing the property value for the given dataset. Second, a string containing the source of the property (i.e. the name of the dataset in which it was set or nil if it is readonly). Throws a Lua error if the dataset is invalid or the property doesn't exist. Note that Lua only supports int64 number types whereas ZFS number properties are uint64. This means very large values (like guid) may wrap around and appear negative.

dataset (string)

Filesystem or snapshot path to retrieve properties from.

property (string)

Name of property to retrieve. All filesystem, snapshot and volume properties are supported except for 'mounted' and 'iscsioptions.' Also supports the 'written@snap' and 'written#bookmark' properties and the '<user|group><quota|used>@id' properties, though the id must be in numeric form.

zfs.sync submodule

The sync submodule contains functions that modify the on-disk state. They are executed in "syncing context".

The available sync submodule functions are as follows:

zfs.sync.destroy(dataset, [defer=true|false])

Destroy the given dataset. Returns 0 on successful destroy, or a nonzero error code if the dataset could not be destroyed (for example, if the dataset has any active children or clones).

dataset (string)

Filesystem or snapshot to be destroyed.

[optional] defer (boolean)

Valid only for destroying snapshots. If set to true, and the snapshot has holds or clones, allows the snapshot to be marked for deferred deletion rather than failing.

zfs.sync.promote(dataset)

Promote the given clone to a filesystem. Returns 0 on successful promotion, or a nonzero error code otherwise. If EEXIST is returned, the second return value will be an array of the clone's snapshots whose names collide with snapshots of the parent filesystem.

dataset (string)

Clone to be promoted.

zfs.sync.rollback(filesystem)

Rollback to the previous snapshot for a dataset. Returns 0 on successful rollback, or a nonzero error code otherwise. Rollbacks can be performed on filesystems or zvols, but not on snapshots or mounted datasets. EBUSY is returned in the case where the filesystem is mounted.

filesystem (string)

Filesystem to rollback.

zfs.sync.snapshot(dataset)

Create a snapshot of a filesystem. Returns 0 if the snapshot was successfully created, and a nonzero error code otherwise.

Note: Taking a snapshot will fail on any pool older than legacy version 27. To enable taking snapshots from ZCP scripts, the pool must be upgraded.

dataset (string)

Name of snapshot to create.

zfs.check submodule

For each function in the zfs.sync submodule, there is a corresponding zfs.check function which performs a "dry run" of the same operation. Each takes the same arguments as its zfs.sync counterpart and returns 0 if the operation would succeed, or a non-zero error code if it would fail, along with any other error details. That is, each has the same behavior as the corresponding sync function except for actually executing the requested change. For example, zfs.check.destroy("fs") returns 0 if zfs.sync.destroy("fs") would successfully destroy the dataset.

The available zfs.check functions are:

zfs.check.destroy(dataset, [defer=true|false])

 

zfs.check.promote(dataset)

 

zfs.check.rollback(filesystem)

 

zfs.check.snapshot(dataset)

 

zfs.list submodule

The zfs.list submodule provides functions for iterating over datasets and properties. Rather than returning tables, these functions act as Lua iterators, and are generally used as follows:

for child in zfs.list.children("rpool") do
    ...
end

The available zfs.list functions are:

zfs.list.clones(snapshot)

Iterate through all clones of the given snapshot.

snapshot (string)

Must be a valid snapshot path in the current pool.

zfs.list.snapshots(dataset)

Iterate through all snapshots of the given dataset. Each snapshot is returned as a string containing the full dataset name, e.g. "pool/fs@snap".

dataset (string)

Must be a valid filesystem or volume.

zfs.list.children(dataset)

Iterate through all direct children of the given dataset. Each child is returned as a string containing the full dataset name, e.g. "pool/fs/child".

dataset (string)

Must be a valid filesystem or volume.

zfs.list.properties(dataset)

Iterate through all user properties for the given dataset.

dataset (string)

Must be a valid filesystem, snapshot, or volume.

zfs.list.system_properties(dataset)

Returns an array of strings, the names of the valid system (non-user defined) properties for the given dataset. Throws a Lua error if the dataset is invalid.

dataset (string)

Must be a valid filesystem, snapshot or volume.

Example 1

The following channel program recursively destroys a filesystem and all its snapshots and children in a naive manner. Note that this does not involve any error handling or reporting.

function destroy_recursive(root)
    for child in zfs.list.children(root) do
        destroy_recursive(child)
    end
    for snap in zfs.list.snapshots(root) do
        zfs.sync.destroy(snap)
    end
    zfs.sync.destroy(root)
end
destroy_recursive("pool/somefs")

Example 2

A more verbose and robust version of the same channel program, which properly detects and reports errors, and also takes the dataset to destroy as a command line argument, would be as follows:

succeeded = {}
failed = {}

function destroy_recursive(root)
    for child in zfs.list.children(root) do
        destroy_recursive(child)
    end
    for snap in zfs.list.snapshots(root) do
        err = zfs.sync.destroy(snap)
        if (err ~= 0) then
            failed[snap] = err
        else
            succeeded[snap] = err
        end
    end
    err = zfs.sync.destroy(root)
    if (err ~= 0) then
        failed[root] = err
    else
        succeeded[root] = err
    end
end

args = ...
argv = args["argv"]

destroy_recursive(argv[1])

results = {}
results["succeeded"] = succeeded
results["failed"] = failed
return results

Example 3

The following function performs a forced promote operation by attempting to promote the given clone and destroying any conflicting snapshots.

function force_promote(ds)
   errno, details = zfs.check.promote(ds)
   if (errno == EEXIST) then
       assert(details ~= Nil)
       for i, snap in ipairs(details) do
           zfs.sync.destroy(ds .. "@" .. snap)
       end
   elseif (errno ~= 0) then
       return errno
   end
   return zfs.sync.promote(ds)
end