[package] name = "heed3" version = "0.21.0" authors = ["Kerollmops "] description = "A fully typed LMDB (mdb.master3) wrapper with minimum overhead with support for encryption" license = "MIT" repository = "https://github.com/Kerollmops/heed" keywords = ["lmdb", "database", "storage", "typed", "encryption"] categories = ["database", "data-structures"] readme = "../README.md" edition = "2021" [dependencies] # TODO update dependencies aead = { version = "0.5.2", default-features = false } bitflags = { version = "2.6.0", features = ["serde"] } byteorder = { version = "1.5.0", default-features = false } generic-array = { version = "0.14.7", features = ["serde"] } heed-traits = { version = "0.20.0", path = "../heed-traits" } heed-types = { version = "0.21.0", default-features = false, path = "../heed-types" } libc = "0.2.167" lmdb-master3-sys = { version = "0.2.4", path = "../lmdb-master3-sys" } once_cell = "1.20.2" page_size = "0.6.0" serde = { version = "1.0.215", features = ["derive"], optional = true } synchronoise = "1.0.1" [dev-dependencies] # TODO update dependencies argon2 = { version = "0.5.3", features = ["std"] } serde = { version = "1.0.215", features = ["derive"] } chacha20poly1305 = "0.10.1" tempfile = "3.14.0" [target.'cfg(windows)'.dependencies] url = "2.5.4" [features] # The `serde` feature makes some types serializable, # like the `EnvOpenOptions` struct. default = ["serde", "serde-bincode", "serde-json"] serde = ["bitflags/serde", "dep:serde"] # The #MDB_NOTLS flag is automatically set on Env opening, # RoTxn and RoCursors implements the Send trait. This allows the # user to move RoTxns and RoCursors between threads as read transactions # will no more use thread local storage and will tie reader locktable # slots to #MDB_txn objects instead of to threads. # # According to the LMDB documentation, when this feature is not enabled: # A thread can only use one transaction at a time, plus any child # transactions. Each transaction belongs to one thread. [...] # The #MDB_NOTLS flag changes this for read-only transactions. # # And a #MDB_BAD_RSLOT error will be thrown when multiple read # transactions exists on the same thread read-txn-no-tls = [] # Enable the serde en/decoders for bincode, serde_json, or rmp_serde serde-bincode = ["heed-types/serde-bincode"] serde-json = ["heed-types/serde-json"] serde-rmp = ["heed-types/serde-rmp"] # serde_json features preserve_order = ["heed-types/preserve_order"] arbitrary_precision = ["heed-types/arbitrary_precision"] raw_value = ["heed-types/raw_value"] unbounded_depth = ["heed-types/unbounded_depth"] # Whether to tell LMDB to use POSIX semaphores during compilation # (instead of the default, which are System V semaphores). # POSIX semaphores are required for Apple's App Sandbox on iOS & macOS, # and are possibly faster and more appropriate for single-process use. # There are tradeoffs for both POSIX and SysV semaphores; which you # should look into before enabling this feature. Also, see here: # posix-sem = ["lmdb-master3-sys/posix-sem"] # These features configure the MDB_IDL_LOGN macro, which determines # the size of the free and dirty page lists (and thus the amount of memory # allocated when opening an LMDB environment in read-write mode). # # Each feature defines MDB_IDL_LOGN as the value in the name of the feature. # That means these features are mutually exclusive, and you must not specify # more than one at the same time (or the crate will fail to compile). # # For more information on the motivation for these features (and their effect), # see https://github.com/mozilla/lmdb/pull/2. mdb_idl_logn_8 = ["lmdb-master3-sys/mdb_idl_logn_8"] mdb_idl_logn_9 = ["lmdb-master3-sys/mdb_idl_logn_9"] mdb_idl_logn_10 = ["lmdb-master3-sys/mdb_idl_logn_10"] mdb_idl_logn_11 = ["lmdb-master3-sys/mdb_idl_logn_11"] mdb_idl_logn_12 = ["lmdb-master3-sys/mdb_idl_logn_12"] mdb_idl_logn_13 = ["lmdb-master3-sys/mdb_idl_logn_13"] mdb_idl_logn_14 = ["lmdb-master3-sys/mdb_idl_logn_14"] mdb_idl_logn_15 = ["lmdb-master3-sys/mdb_idl_logn_15"] mdb_idl_logn_16 = ["lmdb-master3-sys/mdb_idl_logn_16"] # Setting this enables you to use keys longer than 511 bytes. The exact limit # is computed by LMDB at compile time. You can find the exact value by calling # Env::max_key_size(). This value varies by architecture. # # Example max key sizes: # - Apple M1 (ARM64): 8126 bytes # - Apple Intel (AMD64): 1982 bytes # - Linux Intel (AMD64): 1982 bytes # # Setting this also enables you to use values larger than 511 bytes when using # a Database with the DatabaseFlags::DUP_SORT flag. # # This builds LMDB with the -DMDB_MAXKEYSIZE=0 option. # # Note: If you are moving database files between architectures then your longest # stored key must fit within the smallest limit of all architectures used. For # example, if you are moving databases between Apple M1 and Apple Intel # computers then you need to keep your keys within the smaller 1982 byte limit. longer-keys = ["lmdb-master3-sys/longer-keys"] # Examples are located outside the standard heed/examples directory to prevent # conflicts between heed3 and heed examples when working on both crates. [[example]] name = "heed3-encrypted" path = "../examples/heed3-encrypted.rs"