A persistent single-threaded engine, backed by a read-optimized B+ tree.
It is disabled by default. It can be enabled in CMake using the ENGINE_TREE3
option.
Configuration must specify a path
to a PMDK persistent pool, which can be a file (on a DAX filesystem),
a DAX device, or a PMDK poolset file.
-
path -- Path to the database pool (with layout "pmemkv_tree3"), to open or create.
- type: string
-
create_if_missing -- If 1, pmemkv tries to open the pool and if that doesn't succeed, it creates it. If 0, pmemkv will rely on create_or_error_if_exists flag setting. If both create_* flags will be false - pmemkv will open the pool (unless the path does not exist - then it'll fail).
- type: uint64_t
- default value: 0
-
create_or_error_if_exists -- If 1, pmemkv creates the file (but it will fail if path exists). If 0, pmemkv will rely on create_if_missing flag setting. If both create_* flags will be false - pmemkv will open the pool (unless the path does not exist - then it'll fail).
- type: uint64_t
- default value: 0
-
size -- Only needed if any of the above flags is 1. It specifies size of the database [in bytes] to create.
- type: uint64_t
- min value: 8388608 (8MB)
For more detailed configuration's description see cmap section in libpmemkv(7).
Internally, tree3
uses a hybrid fingerprinted B+ tree implementation. Rather than keeping
inner and leaf nodes of the tree in persistent memory, tree3
uses a hybrid structure where
inner nodes are kept in DRAM and leaf nodes only are kept in persistent memory. Though tree3
has to recover all inner nodes when the engine is started, searches are performed in
DRAM except for a final read from persistent memory.
Leaf nodes in tree3
contain multiple key-value pairs, indexed using 1-byte fingerprints
(Pearson hashes) that speed locating
a given key. Leaf modifications are accelerated using
zero-copy updates.
No additional packages are required.
A persistent, concurrent and sorted engine, backed by a skip list.
It is disabled by default. It can be enabled in CMake using the ENGINE_CSMAP
option (requires C++14 support).
All methods of csmap are thread safe. Put, get, count_* and get_* scale with the number of threads. Remove method is currently implemented to take a global lock - it blocks all other threads.
-
path -- Path to the database pool (layout "pmemkv_csmap"), to open or create.
- type: string
-
create_if_missing -- If 1, pmemkv tries to open the pool and if that doesn't succeed, it creates it. If 0, pmemkv will rely on create_or_error_if_exists flag setting. If both create_* flags will be false - pmemkv will open the pool (unless the path does not exist - then it'll fail).
- type: uint64_t
- default value: 0
-
create_or_error_if_exists -- If 1, pmemkv creates the file (but it will fail if path exists). If 0, pmemkv will rely on create_if_missing flag setting. If both create_* flags will be false - pmemkv will open the pool (unless the path does not exist - then it'll fail).
- type: uint64_t
- default value: 0
-
size -- Only needed if any of the above flags is 1. It specifies size of the database [in bytes] to create.
- type: uint64_t
For more detailed configuration's description see cmap section in libpmemkv(7).
No additional packages are required.
A persistent, sorted (without custom comparator support) engine, backed by a radix tree.
It is disabled by default. It can be enabled in CMake using the ENGINE_RADIX
option.
-
path -- Path to the database pool (layout "pmemkv_radix"), to open or create.
- type: string
-
create_if_missing -- If 1, pmemkv tries to open the pool and if that doesn't succeed, it creates it. If 0, pmemkv will rely on create_or_error_if_exists flag setting. If both create_* flags will be false - pmemkv will open the pool (unless the path does not exist - then it'll fail).
- type: uint64_t
- default value: 0
-
create_or_error_if_exists -- If 1, pmemkv creates the file (but it will fail if path exists). If 0, pmemkv will rely on create_if_missing flag setting. If both create_* flags will be false - pmemkv will open the pool (unless the path does not exist - then it'll fail).
- type: uint64_t
- default value: 0
-
size -- Only needed if any of the above flags is 1. It specifies size of the database [in bytes] to create.
- type: uint64_t
For more detailed configuration's description see cmap section in libpmemkv(7).
No additional packages are required.
A persistent, single-threaded and sorted engine, backed by a B+ tree.
It is disabled by default. It can be enabled in CMake using the ENGINE_STREE
option.
-
path -- Path to the database pool (layout "pmemkv_stree"), to open or create.
- type: string
-
create_if_missing -- If 1, pmemkv tries to open the pool and if that doesn't succeed, it creates it. If 0, pmemkv will rely on create_or_error_if_exists flag setting. If both create_* flags will be false - pmemkv will open the pool (unless the path does not exist - then it'll fail).
- type: uint64_t
- default value: 0
-
create_or_error_if_exists -- If 1, pmemkv creates the file (but it will fail if path exists). If 0, pmemkv will rely on create_if_missing flag setting. If both create_* flags will be false - pmemkv will open the pool (unless the path does not exist - then it'll fail).
- type: uint64_t
- default value: 0
-
size -- Only needed if any of the above flags is 1. It specifies size of the database [in bytes] to create.
- type: uint64_t
For more detailed configuration's description see cmap section in libpmemkv(7).
(TBD)
No additional packages are required.
A persistent and concurrent engine, backed by a hash table with Robin Hood hashing
(some info about the algorithm).
It uses only fixed size keys and values (8 bytes).
It is disabled by default. It can be enabled in CMake using the ENGINE_ROBINHOOD
option.
There are two parameters to be optionally modified by env variables:
- PMEMKV_ROBINHOOD_LOAD_FACTOR -- load factor to indicate resize threshold
- PMEMKV_ROBINHOOD_SHARDS_NUMBER -- number of shards within the engine
-
path -- Path to the database pool (layout "pmemkv_robinhood"), to open or create.
- type: string
-
create_if_missing -- If 1, pmemkv tries to open the pool and if that doesn't succeed, it creates it. If 0, pmemkv will rely on create_or_error_if_exists flag setting. If both create_* flags will be false - pmemkv will open the pool (unless the path does not exist - then it'll fail).
- type: uint64_t
- default value: 0
-
create_or_error_if_exists -- If 1, pmemkv creates the file (but it will fail if path exists). If 0, pmemkv will rely on create_if_missing flag setting. If both create_* flags will be false - pmemkv will open the pool (unless the path does not exist - then it'll fail).
- type: uint64_t
- default value: 0
-
size -- Only needed if any of the above flags is 1. It specifies size of the database [in bytes] to create.
- type: uint64_t
For more detailed configuration's description see cmap section in libpmemkv(7).
No additional packages are required.
pmse
tree3
has a lot in common with pmse
-- both implementations rely on PMDK internally, although
they expose different APIs externally. Both pmse
and tree3
are based on a B+ tree
implementation. The biggest difference is that the pmse
tree keeps inner and leaf nodes in persistent memory,
where tree3
keeps inner nodes in DRAM and leaf nodes in
persistent memory. (This means that tree3
has to recover
all inner nodes when the engine is started)
FPTree
This research paper describes a hybrid DRAM/NVM tree design (similar
to the tree3
storage engine) but this paper doesn't provide any code, and
omits certain important implementation details.
Beyond providing a clean-room implementation, the design of tree3
differs from FPTree in several important areas:
-
tree3
is written using PMDK C++ bindings, which exerts influence on its design and implementation.tree3
uses generic PMDK transactions (i.e.transaction::run()
closures), there is no need for micro-logging structures as described in the FPTree paper to make internal delete and split operations safe.tree3
also adjusts sizes of data structures (to fit PMDK primitive types) for best cache-line optimization. -
FPTree does not specify a hash method implementation, where
tree3
uses a Pearson hash (RFC 3074). -
Within its persistent leaves, FPTree uses an array of key hashes with a separate visibility bitmap to track what hash slots are occupied.
tree3
takes a different approach and uses key hashes themselves to track visibility. This relies on a specially modified Pearson hash function, where a hash value of zero always indicates the slot is unused. This optimization eliminates the cost of using and maintaining visibility bitmaps as well as cramming more hashes into a single cache-line, and affects the implementation of every primitive operation in the tree. -
tree3
caches key hashes in DRAM (in addition to storing these as part of the persistent leaf). This speeds leaf operations, especially with slower media, for what seems like an acceptable rise in DRAM usage. -
Within its persistent leaves,
tree3
combines hash, key and value into a single slot type (KVSlot
). This leads to improved leaf split performance and reduced write amplification, since splitting can be performed by swapping pointers to slots without copying any key or value data stored in the slots.KVSlot
internally stores key and value to a single persistent buffer, which minimizes the number of persistent allocations and improves storage efficiency with larger keys and values.
cpp_map
Use of PMDK C++ bindings by tree3
was lifted from this example program.
Many thanks to @tomaszkapela
for providing a great example to follow!
caching
It was present in releases <= 1.2 That engine was using a sub engine (one of other engines) to cache requests to external Redis or Memcached server.