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Bake

Bake is a microservice (i.e., Mochi provider) for high performance bulk storage of raw data regions. Bake uses modular backends to store data on persistent memory, conventional file systems, or other storage media.

See https://www.mcs.anl.gov/research/projects/mochi/ and https://mochi.readthedocs.io/en/latest/ for more information about Mochi.

Bake's scope is limited exclusively to data storage. Capabilities such as indexing, name spaces, and sharding must be provided by other microservice components.

Installation

The easiest way to install Bake is through spack:

spack install bake

This will install BAKE and its dependencies. Please refer to the end of the document for manual compilation instructions.

Architecture

Like most Mochi services, BAKE relies on a client/provider architecture. A provider, identified by its address and multiplex id, manages one or more BAKE targets, referenced externally by their target id.

A target can be thought of as a storage device. This may be (for example) a PMDK volume or a local file system.

Setting up a BAKE target

BAKE requires the backend storage file to be created beforehand using bake-mkpool. For instance:

bake-mkpool -s 500M /dev/shm/foo.dat

creates a 500 MB file at /dev/shm/foo.dat to be used by BAKE as a target. Bake will use the pmem (persistent memory) backend by default, which means that the underlying file will memory mapped for access usign the PMDK library. You can also providie an explicit prefix (such as file: for the conventional file backend or pmem: for the persistent memory backend) to dictate a specific target type.

Starting a daemon

BAKE ships with a default daemon program that can setup providers and attach to storage targets. This daemon can be started as follows:

bake-server-daemon [options] <listen_address> <bake_pool_1> <bake_pool_2> ...

The program takes a set of options followed by an address at which to listen for incoming RPCs, and a list of BAKE targets already created using bake-mkpool.

For example:

bake-server-daemon -f bake.addr -m providers bmi+tcp://localhost:1234 /dev/shm/foo.dat /dev/shm/bar.dat

The following options are accepted:

  • -f provides the name of the file in which to write the address of the daemon.
  • -m provides the mode (providers or targets).

The providers mode indicates that, if multiple BAKE targets are used (as above), these targets should be managed by multiple providers, accessible through different multiplex ids 1, 2, ... N where N is the number of storage targets to manage. The targets mode indicates that a single provider should be used to manage all the storage targets.

Integrating Bake into a larger service

Bake is not intended to be a standalone user-facing service. See https://mochi.readthedocs.io/en/latest/bedrock.html for guidance on how to integrate it with other providers using Mochi's Bedrock capability.

Client API example

Data is stored in regions within a target using explicit create, write, and persist operations. The caller cannot dictate the region id that will be used to reference a region; this identifier is generated by Bake at creation time. The region size must be specified at creation time as well; there is no mechanism for extending the size of an existing region.

#include <bake-client.h>

int main(int argc, char **argv)
{
    char *svr_addr_str; // string address of the BAKE server
    hg_addr_t svr_addr; // Mercury address of the BAKE server
    margo_instance_id mid; // Margo instance id
    bake_client_t bcl; // BAKE client
    bake_provider_handle_t bph; // BAKE handle to provider
    uint8_t mplex_id; // multiplex id of the provider
    uint32_t target_number; // target to use
    bake_region_id_t rid; // BAKE region id handle
	bake_target_id_t* bti; // array of target ids

	/* ... setup variables ... */

	/* Initialize Margo */
	mid = margo_init(..., MARGO_CLIENT_MODE, 0, -1);
	/* Lookup the server */
	margo_addr_lookup(mid, svr_addr_str, &svr_addr);
	/* Creates the BAKE client */
	bake_client_init(mid, &bcl);
	/* Creates the provider handle */
	bake_provider_handle_create(bcl, svr_addr, mplex_id, &bph);
	/* Asks the provider for up to target_number target ids */
	uint32_t num_targets = 0;
	bti = calloc(num_targets, sizeof(*bti));
	bake_probe(bph, target_number, bti, &num_targets);
	if(num_targets < target_number) {
		fprintf(stderr, "Error: provider has only %d storage targets\n", num_targets);
	}
	/* Create a region */
	size_t size = ...; // size of the region to create
	bake_create(bph, bti[target_number-1], size, &rid);
	/* Write data into the region at offset 0 */
	char* buf = ...;
	bake_write(bph, rid, 0, buf, size);
	/* Make all modifications persistent */
	bake_persist(bph, rid);
	/* Release provider handle */
	bake_provider_handle_release(bph);
	/* Release BAKE client */
	bake_client_finalize(bcl);
	/* Cleanup Margo resources */
	margo_addr_free(mid, svr_addr);
	margo_finalize(mid);
	return 0;
}

Note that a bake_region_id_t object is persistent. It can be written (into a file or a socket) and stored or sent to another program. These region ids are what uniquely reference a region within a given target.

The rest of the client-side API can be found in bake-client.h.

Provider API

The bake-server-daemon source is a good example of how to create providers and attach storage targets to them. The provider-side API is located in bake-server.h, and consists of mainly two functions:

int bake_provider_register(margo_instance_id                     mid,
                           uint16_t                              provider_id,
                           const struct bake_provider_init_info* args,
                           bake_provider_t*                      provider);

This creates a provider at the given provider id using the specified margo instance. The args parameter can be used to modify default settings, including passing in a fully specified json configuration block. See bake-server.h for details.

int bake_provider_attach_target(bake_provider_t   provider,
                                const char*       target_name,
                                bake_target_id_t* target_id);

This makes the provider manage the given storage target.

Other functions are available to create and detach targets from a provider.

Generic Bake benchmark

By using --enable-benchmark when compiling Bake (or +benchmark when using Spack), you will build a bake-benchmark program that can be used as a configurable benchmark. This benchmark requires an MPI compiler, hence you may need to configure Bake with CC=mpicc and CXX=mpicxx.

The benchmark is an MPI program that can be run on 2 or more ranks. Rank 0 will act as a server, while non-zero ranks act as clients. The server will not create a Bake target. The Bake target needs to be created (with bake-makepool) beforehand.

The program takes as parameter the path to a JSON file containing the sequence of benchmarks to execute. An example of such a file is located in src/benchmark.json. Each entry in the benchmarks array corresponds to a benchmark. The type field indicates the type of benchmark to execute. The repetitions field indicates how many times the benchmark should be repeated.

The following table describes each type of benchmark and their parameters.

type parameter default description
create num-entries 1 Number of regions to create
region-sizes - Size of the regions, or range (e.g. [12, 24])
erase-on-teardown true Whether to erase the created regions after the benchmark executed
write num-entries 1 Number of regions to write
region-sizes - Size of the regions, or range (e.g. [12, 24])
reuse-buffer false Whether to reuse the input buffer for each write
reuse-region false Whether to write to the same region
preregister-bulk false Whether to preregister the input buffer for RDMA
erase-on-teardown true Whether to erase the created regions after the benchmark executed
persist num-entries 1 Number of region to persist
region-sizes - Size of the regions, or range (e.g. [12, 24])
erase-on-teardown true Whether to erase the created regions after the benchmark executed
read num-entries 1 Number of region to read
region-sizes - Size of the regions, or range (e.g. [12, 24])
reuse-buffer false Whether to reuse the same buffer for each read
reuse-region false Whether to access the same region for each read
preregister-bulk false Whether to preregister the client's buffer for RDMA
erase-on-teardown true Whether to remove the regions after the benchmark
create-write-persist num-entries 1 Number of regions to create/write/persist
region-sizes - Size of the regions, or range (e.g. [12, 24])
reuse-buffer false Whether to reuse the same buffer on clients for each operation
preregister-bulk false Whether to preregister the client's buffer for RDMA
erase-on-teardown true Whether to remove the regions after the benchmark

Manual installation

BAKE depends on the following libraries:

  • uuid (install uuid-dev package on ubuntu)
  • PMDK (see instructions below)
  • json-c
  • mochi-abt-io
  • mochi-margo

Bake will automatically identify these dependencies at configure time using pkg-config. To compile BAKE:

  • ./prepare.sh
  • mkdir build
  • cd build
  • ../configure --prefix=/home/carns/working/install
  • make

If any dependencies are installed in a nonstandard location, then modify the configure step listed above to include the following argument:

  • PKG_CONFIG_PATH=/home/carns/working/install/lib/pkgconfig