The 100MB log buffer has been the biggest memory footprint for the daemon.
Keeping 10MB for emergency log dumps seems sufficient.
This has been mentioned in the last developer meeting.
Changelog-Changed: In-memory log buffer reduced from 100MB to 10MB
For performance reasons we were starting one for each session, which caused
the same postgres DB to be re-used for multiple tests (all test run in the
same worker process), but this could lead to interactions if there is a
timeout or a test happens to touch the `db_provider`. It turns out that we
were only saving about 15 seconds on a 1250 second run anyway, which is a
small cost for increased test isolation.
We were not removing the base test directory if we had other files in there,
which was the case for postgres runs. This now explicitly check for `test_*`
directories which are an indicator of a failed test.
We had a couple of issues with workers dying and attempting to re-initialize
the database while it was already initialized. This will look for a free
directory and just start the DB in there, allowing workers to be better
isolated.
While continuing to test all tests is good, it also means we potentially wait
much longer to get the final verdict, and it can truncate logs if there are
too many failures.
I got a corrupt file, which looked like multiple concurrent attempts
to build it. So instead, build it in one command, but also use
VERBOSE so we print correctly with V=1 (and --quiet).
Also move into plugins/ where it logically belongs.
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
We added a conversion of failcodes that do not have sufficient information in
faac4b28ad. That means that a failcode that'd require additional information
in order to be a correct error to return in an onion is mapped to a generic
one since we can't backfill the information.
This tests that the mapping is performed correctly and replicates the
situation in #4070
We force use of tal_wally_start/tal_wally_end around every wally
allocation, and with "end" make the caller choose where to reparent
everything.
This is particularly powerful where we allocate a tx or a psbt: we
want that tx or psbt to be the parent of the other allocations, so
this way we can reparent the tx or psbt, then reparent everything
else onto it.
Implementing psbt_finalize (which uses a behavior flag antipattern)
was tricky, so I ended up splitting that into 'psbt_finalize' and
'psbt_final_tx', which I think also makes the callers clearer.
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
At least on my Ubuntu box, they're compatible. If they're not, we need
to disable regeneration altogether.
Fixes: #4075
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
These are simple space-separated key-value pair sets of options instead of the
URI style DSNs, but they are also much more flexible allowing the user to
specify client SSL certificates, server certificates, compression and
encryption levels, and much more (see [1] for more information)
[1]: https://www.postgresql.org/docs/9.1/libpq-connect.html
Changelog-Added: db: Added support for key-value DSNs for postgresql, allowing for a wider variety of configurations and environments.
wallet_commit_channel would fill in the old_remote_per_commit and
fee_states, which is weird since the caller doesn't care.
Make the caller set all the channel_info fields, so wallet_commit_channel
is a simple consumer.
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
If we've already got a scriptSig field filled out for a PSBT input, we
use that instead of 'deriving' the scriptSig from the redeemscript
(finalizing a PSBT removes the redeemscript field)
Several times we had issues with plugins not being able to re-encode an RPC
result because they forgot to use the custom encoder class. This allows us to
patch the JSONEncoder when we start the RPC or the plugin and automagically
support classes that provide a `to_json` method.
I mistakenly assumed the block would be freed after processing completed. That
is not true since chaintopology keeps headers and stubs around for reorgs. So
we need to remove the precomputed txids along with the full_txs.
1. Rename memleak_enter_allocations to memleak_find_allocations.
2. Unify scanning for pointers into memleak_remove_region / memleak_remove_pointer.
3. Document the functions.
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
The next patch perturbed things enough that we suddenly started
getting (with --track-origins=yes):
Valgrind error file: valgrind-errors.120470
==120470== Use of uninitialised value of size 8
==120470== at 0x14EBD5: htable_val (htable.c:150)
==120470== by 0x14EC3C: htable_firstval_ (htable.c:165)
==120470== by 0x14F583: htable_del_ (htable.c:349)
==120470== by 0x11825D: pointer_referenced (memleak.c:65)
==120470== by 0x118485: scan_for_pointers (memleak.c:121)
==120470== by 0x118500: memleak_remove_region (memleak.c:130)
==120470== by 0x118A30: call_memleak_helpers (memleak.c:257)
==120470== by 0x118A8B: call_memleak_helpers (memleak.c:262)
==120470== by 0x118A8B: call_memleak_helpers (memleak.c:262)
==120470== by 0x118B25: memleak_find_allocations (memleak.c:278)
==120470== by 0x10EB12: closing_dev_memleak (closingd.c:584)
==120470== by 0x10F3E2: main (closingd.c:783)
==120470== Uninitialised value was created by a heap allocation
==120470== at 0x483B7F3: malloc (in /usr/lib/x86_64-linux-gnu/valgrind/vgpreload_memcheck-amd64-linux.so)
==120470== by 0x1604E8: allocate (tal.c:250)
==120470== by 0x160AA9: tal_alloc_ (tal.c:428)
==120470== by 0x119BE0: new_per_peer_state (per_peer_state.c:24)
==120470== by 0x11A101: fromwire_per_peer_state (per_peer_state.c:95)
==120470== by 0x10FB7C: fromwire_closingd_init (closingd_wiregen.c:103)
==120470== by 0x10ED15: main (closingd.c:626)
==120470==
This is because there is uninitialized padding at the end of struct
peer_state.
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>