#### mirage-kv-mem

Library

Module

Module type

Parameter

Class

Class type

## Parameters

`module Clock : Mirage_clock.PCLOCK`

## Signature

`type nonrec error = error`

`type nonrec write_error = write_error`

```
include Mirage_kv.RW
with type write_error := write_error
and type error := error
```

### Read-write Stores

There is a trade-off between durability and performance. If you want performance, use the `batch`

operation with a chain of sets and removes. They will be applied on the underlying storage layer all at once. Otherwise `set`

and `remove`

will cause a flush in the underlying storage layer every time, which could degrade performance.

`include Mirage_kv.RO with type error := error`

### Read-only key-value stores

Disconnect from the key-value store. While this might take some time to complete, it can never result in an error.

`type key = Mirage_kv.Key.t`

The type for keys.

`exists t k`

is `Some `Value`

if `k`

is bound to a value in `t`

, `Some `Dictionary`

if `k`

is a prefix of a valid key in `t`

and `None`

if no key with that prefix exists in `t`

.

`exists`

answers two questions: does the key exist and is it referring to a value or a dictionary.

An error occurs when the underlying storage layer fails.

`get t k`

is the value bound to `k`

in `t`

.

The result is `Error (`Value_expected k)`

if `k`

refers to a dictionary in `t`

.

`list t k`

is the list of entries and their types in the dictionary referenced by `k`

in `t`

.

The result is `Error (`Dictionary_expected k)`

if `k`

refers to a value in `t`

.

`last_modified t k`

is the last time the value bound to `k`

in `t`

has been modified.

The modification time `(d, ps)`

is a span for the signed POSIX picosecond span `d`

* 86_400e12 + `ps`

. `d`

is a signed number of POSIX days and `ps`

a number of picoseconds in the range [`0`

;`86_399_999_999_999_999L`

].

When the value bound to `k`

is a dictionary, the modification time is the latest modification of all entries in that dictionary. This behaviour is only one level deep and not recursive.

`val pp_write_error : write_error Fmt.t`

The pretty-printer for `pp_write_error`

.

`val set : t -> key -> string -> ( unit, write_error ) result Lwt.t`

`set t k v`

replaces the binding `k -> v`

in `t`

.

Durability is guaranteed unless `set`

is run inside an enclosing `batch`

operation, where durability will be guaranteed at the end of the batch.

`val remove : t -> key -> ( unit, write_error ) result Lwt.t`

`remove t k`

removes any binding of `k`

in `t`

. If `k`

was bound to a dictionary, the full dictionary will be removed.

Durability is guaranteed unless `remove`

is run inside an enclosing `batch`

operation, where durability will be guaranteed at the end of the batch.

`batch t f`

run `f`

in batch. Ensure the durability of operations.

Since a batch is applied at once, the readings inside a batch will return the state before the entire batch. Concurrent operations will not affect other ones executed during the batch.

Batch applications can fail to apply if other operations are happening concurrently. In case of failure, `f`

will run again with the most recent version of `t`

. The result is `Error `Too_many_retries`

if `f`

is run for more then `retries`

attemps (default is `13`

).