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42e0aa43d1
* persistency: per-job SQLite-backed storage layer (singleton, brokered)
Adds a backend-neutral CRUD library at waku/persistency/, plus the
nim-brokers dependency swap that enables it.
Architecture (ports-and-adapters):
* Persistency: process-wide singleton, one root directory.
* Job: one tenant, one DB file, one worker thread, one BrokerContext.
* Backend: SQLite via waku/common/databases/db_sqlite. Uniform schema
kv(category BLOB, key BLOB, payload BLOB) PRIMARY KEY (category, key)
WITHOUT ROWID, WAL mode.
* Writes are fire-and-forget via EventBroker(mt) PersistEvent.
* Reads are async via five RequestBroker(mt) shapes (KvGet, KvExists,
KvScan, KvCount, KvDelete). Reads return Result[T, PersistencyError].
* One storage thread per job; tenants isolated by BrokerContext.
Public surface (waku/persistency/persistency.nim):
Persistency.instance(rootDir) / Persistency.instance() / Persistency.reset()
p.openJob(id) / p.closeJob(id) / p.dropJob(id) / p.close()
p.job(id) / p[id] / p.hasJob(id)
Writes (Job form & string-id form, fire-and-forget):
persist / persistPut / persistDelete / persistEncoded
Reads (Job form & string-id form, async Result):
get / exists / scan / scanPrefix / count / deleteAcked
Key & payload encoding (keys.nim, payload.nim):
* encodePart family + variadic key(...) / payload(...) macros +
single-value toKey / toPayload.
* Primitives: string and openArray[byte] are 2-byte BE length + bytes;
int{8..64} are sign-flipped 8-byte BE; uint{16..64} are 8-byte BE;
bool/byte/char are 1 byte; enums are int64(ord(v)).
* Generic encodePart[T: tuple | object] recurses through fields() so
any composite Nim type is encodable without ceremony.
* Stable across Nim/C compiler upgrades: no sizeof, no memcpy, no
cast on pointers, no host-endianness dependency.
* `rawKey(bytes)` + `persistPut(..., openArray[byte])` let callers
bypass the built-in encoder with their own format (CBOR, protobuf...).
Lifecycle:
* Persistency.new is private; Persistency.instance is the only public
constructor. Same rootDir is idempotent; conflicting rootDir is
peInvalidArgument. Persistency.reset for test/restart paths.
* openJob opens-or-creates the per-job SQLite file; an existing file
is reused with its data preserved.
* Teardown integration: Persistency.instance registers a Teardown
MultiRequestBroker provider that closes all jobs and clears the
singleton slot when Waku.stop() issues Teardown.request.
Internal layering:
types.nim pure value types (Key, KeyRange, KvRow, TxOp,
PersistencyError)
keys.nim encodePart primitives + key(...) macro
payload.nim toPayload + payload(...) macro
schema.nim CREATE TABLE + connection pragmas + user_version
backend_sqlite.nim KvBackend, applyOps (single source of write SQL),
getOne/existsOne/deleteOne, scanRange (asc/desc,
half-open ranges, open-ended stop), countRange
backend_comm.nim EventBroker(mt) PersistEvent + 5 RequestBroker(mt)
declarations; encodeErr/decodeErr boundary helpers
backend_thread.nim startStorageThread / stopStorageThread (shared
allocShared0 arg, cstring dbPath, atomic
ready/shutdown flags); per-thread provider
registration
persistency.nim Persistency + Job types, singleton state, public
facade
../requests/lifecycle_requests.nim
Teardown MultiRequestBroker
Tests (69 cases, all passing):
test_keys.nim sort-order invariants (length-prefix strings,
sign-flipped ints, composite tuples, prefix
range)
test_backend.nim round-trip / replace / delete-return-value /
batched atomicity / asc-desc-half-open-open-
ended scans / category isolation / batch
txDelete
test_lifecycle.nim open-or-create rootDir / non-dir collision /
reopen across sessions / idempotent openJob /
two-tenant parallel isolation / closeJob joins
worker / dropJob removes file / acked delete
test_facade.nim put-then-get / atomic batch / scanPrefix
asc/desc / deleteAcked hit-miss /
fire-and-forget delete / two-tenant facade
isolation
test_encoding.nim tuple/named-tuple/object keys, embedded Key,
enum encoding, field-major composite sort,
payload struct encoding, end-to-end struct
round-trip through SQLite
test_string_lookup.nim peJobNotFound semantics / hasJob / subscript /
persistPut+get via id / reads short-circuit /
writes drop+warn / persistEncoded via id /
scan parity Job-ref vs id
test_singleton.nim idempotent same-rootDir / different-rootDir
rejection / no-arg instance lifecycle / reset
retargets / reset idempotence / Teardown.request
end-to-end
Prerequisite delivered in the same series: replace the in-tree broker
implementation with the external nim-brokers package; update all
broker call-sites (waku_filter_v2, waku_relay, waku_rln_relay,
delivery_service, peer_manager, requests/*, factory/*, api tests, etc.)
to the new package API; chat2 made to compile again.
Note: SDS adapter (Phase 5 of the design) is deferred -- nim-sds is
still developed side-by-side and the persistency layer is intentionally
SDS-agnostic.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
* persistency: pin nim-brokers by URL+commit (workaround for stale registry)
The bare `brokers >= 2.0.1` form cannot resolve on machines where the
local nimble SAT solver enumerates only the registry-recorded 0.1.0 for
brokers. The nim-lang/packages entry for `brokers` carries no per-tag
metadata (only the URL), so until that registry entry is refreshed the
SAT solver clamps the available-versions list to 0.1.0 and rejects the
>= 2.0.1 constraint -- even though pkgs2 and pkgcache both have v2.0.1
cloned locally.
Pinning by URL+commit bypasses the registry path entirely. Inline
comment in waku.nimble documents the situation and the path back to
the bare form once nim-lang/packages is updated.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
* persistency: nph format pass
Run `nph` on all 57 Nim files touched by this PR. Pure formatting:
17 files re-styled, no semantic change. Suite still 69/69.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
* Fix build, add local-storage-path config, lazy init of Persistency from Waku start
* fix: fix nix deps
* fixes for nix build, regenerate deps
* reverting accidental dependency changes
* Fixing deps
* Apply suggestions from code review
Co-authored-by: Ivan FB <128452529+Ivansete-status@users.noreply.github.com>
* persistency tests: migrate to suite / asyncTest / await
Match the in-tree test convention (procSuite -> suite, sync test +
waitFor -> asyncTest + await):
- procSuite "X": -> suite "X":
- For tests doing async work: test -> asyncTest, waitFor -> await.
- Poll helpers (proc waitFor(t: Job, ...) in test_lifecycle.nim,
proc waitUntilExists(...) in test_facade.nim and
test_string_lookup.nim) -> Future[bool] {.async.}, internal
`waitFor X` -> `await X`, internal `sleep(N)` ->
`await sleepAsync(chronos.milliseconds(N))`.
- Renamed test_lifecycle.nim's helper proc from `waitFor(t: Job, ...)`
-> `pollExists(t: Job, ...)`; the previous name shadowed
chronos.waitFor in the chronos macro expansion.
- `chronos.milliseconds(N)` explicitly qualified because `std/times`
also exports `milliseconds` (returning TimeInterval, not Duration).
- `check await x` -> `let okN = await x; check okN` to dodge chronos's
"yield in expr not lowered" with await-as-macro-argument.
- `(await x).foo()` -> `let awN = await x; ... awN.foo() ...` for the
same reason.
waku/persistency/persistency.nim: nph also pulled the proc signatures
across multiple lines; restored explicit `Future[void] {.async.}`
return types after the colon (an intermediate nph pass had elided them).
Suite: 71 / 71 OK against the new async write surface.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
* use idiomatic valueOr instead of ifs
* Reworked persistency shutdown, remove not necessary teardown mechanism
* Use const for DefaultStoragePath
* format to follow coding guidelines - no use of result and explicit returns - no functional change
---------
Co-authored-by: Claude Opus 4.7 <noreply@anthropic.com>
Co-authored-by: Ivan FB <128452529+Ivansete-status@users.noreply.github.com>
Logos Messaging API (LMAPI) Library
A C FFI library providing a simplified interface to Logos Messaging functionality.
Overview
This library wraps the high-level API functions from waku/api/api.nim and exposes them via a C FFI interface, making them accessible from C, C++, and other languages that support C FFI.
API Functions
Node Lifecycle
logosdelivery_create_node
Creates a new instance of the node from the given configuration JSON.
void *logosdelivery_create_node(
const char *configJson,
FFICallBack callback,
void *userData
);
Parameters:
configJson: JSON string containing node configurationcallback: Callback function to receive the resultuserData: User data passed to the callback
Returns: Pointer to the context needed by other API functions, or NULL on error.
Example configuration JSON:
{
"mode": "Core",
"preset": "logos.dev",
"listenAddress": "0.0.0.0",
"tcpPort": 60000,
"discv5UdpPort": 9000
}
Configuration uses flat field names matching WakuNodeConf in tools/confutils/cli_args.nim.
Use "preset" to select a network preset (e.g., "twn", "logos.dev") which auto-configures
entry nodes, cluster ID, sharding, and other network-specific settings.
logosdelivery_start_node
Starts the node.
int logosdelivery_start_node(
void *ctx,
FFICallBack callback,
void *userData
);
logosdelivery_stop_node
Stops the node.
int logosdelivery_stop_node(
void *ctx,
FFICallBack callback,
void *userData
);
logosdelivery_destroy
Destroys a node instance and frees resources.
int logosdelivery_destroy(
void *ctx,
FFICallBack callback,
void *userData
);
Messaging
logosdelivery_subscribe
Subscribe to a content topic to receive messages.
int logosdelivery_subscribe(
void *ctx,
FFICallBack callback,
void *userData,
const char *contentTopic
);
Parameters:
ctx: Context pointer fromlogosdelivery_create_nodecallback: Callback function to receive the resultuserData: User data passed to the callbackcontentTopic: Content topic string (e.g., "/myapp/1/chat/proto")
logosdelivery_unsubscribe
Unsubscribe from a content topic.
int logosdelivery_unsubscribe(
void *ctx,
FFICallBack callback,
void *userData,
const char *contentTopic
);
logosdelivery_send
Send a message.
int logosdelivery_send(
void *ctx,
FFICallBack callback,
void *userData,
const char *messageJson
);
Parameters:
messageJson: JSON string containing the message
Example message JSON:
{
"contentTopic": "/myapp/1/chat/proto",
"payload": "SGVsbG8gV29ybGQ=",
"ephemeral": false
}
Note: The payload field should be base64-encoded.
Returns: Request ID in the callback message that can be used to track message delivery.
Events
logosdelivery_set_event_callback
Sets a callback that will be invoked whenever an event occurs (e.g., message received).
void logosdelivery_set_event_callback(
void *ctx,
FFICallBack callback,
void *userData
);
Important: The callback should be fast, non-blocking, and thread-safe.
Building
The library follows the same build system as the main Logos Messaging project.
Build the library
make liblogosdeliveryStatic # Build static library
# or
make liblogosdeliveryDynamic # Build dynamic library
Return Codes
All functions that return int use the following return codes:
RET_OK(0): SuccessRET_ERR(1): ErrorRET_MISSING_CALLBACK(2): Missing callback function
Callback Function
All API functions use the following callback signature:
typedef void (*FFICallBack)(
int callerRet,
const char *msg,
size_t len,
void *userData
);
Parameters:
callerRet: Return code (RET_OK, RET_ERR, etc.)msg: Response message (may be empty for success)len: Length of the messageuserData: User data passed in the original call
Example Usage
#include "liblogosdelivery.h"
#include <stdio.h>
void callback(int ret, const char *msg, size_t len, void *userData) {
if (ret == RET_OK) {
printf("Success: %.*s\n", (int)len, msg);
} else {
printf("Error: %.*s\n", (int)len, msg);
}
}
int main() {
const char *config = "{"
"\"logLevel\": \"INFO\","
"\"mode\": \"Core\","
"\"preset\": \"logos.dev\""
"}";
// Create node
void *ctx = logosdelivery_create_node(config, callback, NULL);
if (ctx == NULL) {
return 1;
}
// Start node
logosdelivery_start_node(ctx, callback, NULL);
// Subscribe to a topic
logosdelivery_subscribe(ctx, callback, NULL, "/myapp/1/chat/proto");
// Send a message
const char *msg = "{"
"\"contentTopic\": \"/myapp/1/chat/proto\","
"\"payload\": \"SGVsbG8gV29ybGQ=\","
"\"ephemeral\": false"
"}";
logosdelivery_send(ctx, callback, NULL, msg);
// Clean up
logosdelivery_stop_node(ctx, callback, NULL);
logosdelivery_destroy(ctx, callback, NULL);
return 0;
}
Architecture
The library is structured as follows:
liblogosdelivery.h: C header file with function declarationsliblogosdelivery.nim: Main library entry pointdeclare_lib.nim: Library declaration and initializationlmapi/node_api.nim: Node lifecycle API implementationlmapi/messaging_api.nim: Subscribe/send API implementation
The library uses the nim-ffi framework for FFI infrastructure, which handles:
- Thread-safe request processing
- Async operation management
- Memory management between C and Nim
- Callback marshaling
See Also
- Main API documentation:
waku/api/api.nim - Original libwaku library:
library/libwaku.nim - nim-ffi framework:
vendor/nim-ffi/