Commit graph

3543 commits

Author SHA1 Message Date
Roman Khimov
d51db20405 network: randomize peer iteration order
While iterating over map in getPeers() is non-deterministic it's not really
random enough for our purposes (usually maps have 2-3 paths through them), we
need to fill our peers queues more uniformly.

Believe it or not, but it does affect performance metrics, baseline (four
nodes, 10 workers):

RPS ≈  7791.675 7996.559 7834.504 7746.705 7891.614 ≈ 7852   ±  1.10%
TPS ≈  7241.497 7711.765 7520.211 7425.890 7334.443 ≈ 7447   ±  2.17%
CPU %    29.853   39.936   39.945   36.371   39.999 ≈   37.2 ± 10.57%
Mem MB 2749.635 2791.609 2828.610 2910.431 2863.344 ≈ 2829   ±  1.97%

Patched:

RPS    8180.760 8137.822 7858.358 7820.011 8051.076 ≈ 8010   ± 2.04% ↑ 2.01%
TPS    7819.831 7521.172 7519.023 7242.965 7426.000 ≈ 7506   ± 2.78% ↑ 0.79%
CPU %    41.983   38.775   40.606   39.375   35.537 ≈   39.3 ± 6.15% ↑ 5.65%
Mem MB 2947.189 2743.658 2896.688 2813.276 2863.108 ≈ 2853   ± 2.74% ↑ 0.85%
2021-08-06 21:10:34 +03:00
Roman Khimov
b55c75d59d network: hide Peers, make it return a slice
Slice is a bit more efficient, we don't need a map for Peers() users and it's
not really interesting to outside users, so better hide this method.
2021-08-06 21:10:34 +03:00
Roman Khimov
119b4200ac network: add fail-fast route for tx double processing
When transaction spreads through the network many nodes are likely to get it
in roughly the same time. They will rebroadcast it also in roughly the same
time. As we have a number of peers it's quite likely that we'd get an Inv with
the same transaction from multiple peers simultaneously. We will ask them for
this transaction (independently!) and again we're likely to get it in roughly
the same time. So we can easily end up with multiple threads processing the
same transaction. Only one will succeed, but we can actually easily avoid
doing it in the first place saving some CPU cycles for other things.

Notice that we can't do it _before_ receiving a transaction because nothing
guarantees that the peer will respond to our transaction request, so
communication overhead is unavoidable at the moment, but saving on processing
already gives quite interesting results.

Baseline, four nodes with 10 workers:

RPS    7176.784 7014.511 6139.663 7191.280 7080.852 ≈ 6921   ± 5.72%
TPS    6945.409 6562.756 5927.050 6681.187 6821.794 ≈ 6588   ± 5.38%
CPU %    44.400   43.842   40.418   49.211   49.370 ≈   45.4 ± 7.53%
Mem MB 2693.414 2640.602 2472.007 2731.482 2707.879 ≈ 2649   ± 3.53%

Patched:

RPS ≈  7791.675 7996.559 7834.504 7746.705 7891.614 ≈ 7852   ±  1.10% ↑ 13.45%
TPS ≈  7241.497 7711.765 7520.211 7425.890 7334.443 ≈ 7447   ±  2.17% ↑ 13.04%
CPU %    29.853   39.936   39.945   36.371   39.999 ≈   37.2 ± 10.57% ↓ 18.06%
Mem MB 2749.635 2791.609 2828.610 2910.431 2863.344 ≈ 2829   ±  1.97% ↑  6.80%
2021-08-06 21:10:25 +03:00
Roman Khimov
7fc153ed2a network: only ask mempool for intersections with received Inv
Most of the time on healthy network we see new transactions appearing that are
not present in the mempool. Once they get into mempool we don't ask for them
again when some other peer sends an Inv with them. Then these transactions are
usually added into block, removed from mempool and no one actually sends them
again to us. Some stale nodes can do that, but it's not very likely to
happen.

At the receiving end at the same time it's quite expensive to do full chain
HasTransaction() query, so if we can avoid doing that it's always good. Here
it technically allows resending old transaction that will be re-requested and
an attempt to add it to mempool will be made. But it'll inevitably fail
because the same HasTransaction() check is done there too. One can try to
maliciously flood the node with stale transactions but it doesn't differ from
flooding it with any other invalid transactions, so there is no new attack
vector added.

Baseline, 4 nodes with 10 workers:

RPS    6902.296 6465.662 6856.044 6785.515 6157.024 ≈ 6633   ± 4.26%
TPS    6468.431 6218.867 6610.565 6288.596 5790.556 ≈ 6275   ± 4.44%
CPU %    50.231   42.925   49.481   48.396   42.662 ≈   46.7 ± 7.01%
Mem MB 2856.841 2684.103 2756.195 2733.485 2422.787 ≈ 2691   ± 5.40%

Patched:

RPS    7176.784 7014.511 6139.663 7191.280 7080.852 ≈ 6921   ± 5.72% ↑ 4.34%
TPS    6945.409 6562.756 5927.050 6681.187 6821.794 ≈ 6588   ± 5.38% ↑ 4.99%
CPU %    44.400   43.842   40.418   49.211   49.370 ≈   45.4 ± 7.53% ↓ 2.78%
Mem MB 2693.414 2640.602 2472.007 2731.482 2707.879 ≈ 2649   ± 3.53% ↓ 1.56%
2021-08-06 20:53:02 +03:00
Roman Khimov
f78bd6474f network: handle incoming message in a separate goroutine
Network communication takes time. Handling some messages (like transaction)
also takes time. We can share this time by making handler a separate
goroutine. So while message is being handled receiver can already get and
parse the next one.

It doesn't improve metrics a lot, but still I think it makes sense and in some
scenarios this can be more beneficial than this.

e41fc2fd1b, 4 nodes, 10 workers

RPS    6732.979 6396.160 6759.624 6246.398 6589.841 ≈ 6545   ± 3.02%
TPS    6491.062 5984.190 6275.652 5867.477 6360.797 ≈ 6196   ± 3.77%
CPU %    42.053   43.515   44.768   40.344   44.112 ≈   43.0 ± 3.69%
Mem MB 2564.130 2744.236 2636.267 2589.505 2765.926 ≈ 2660   ± 3.06%

Patched:

RPS    6902.296 6465.662 6856.044 6785.515 6157.024 ≈ 6633   ± 4.26% ↑ 1.34%
TPS    6468.431 6218.867 6610.565 6288.596 5790.556 ≈ 6275   ± 4.44% ↑ 1.28%
CPU %    50.231   42.925   49.481   48.396   42.662 ≈   46.7 ± 7.01% ↑ 8.60%
Mem MB 2856.841 2684.103 2756.195 2733.485 2422.787 ≈ 2691   ± 5.40% ↑ 1.17%
2021-08-06 19:37:37 +03:00
Roman Khimov
95e1f5f77b
Merge pull request #2113 from nspcc-dev/optimize-witness-hashing
core: don't recalculate witness script hash
2021-08-06 11:57:54 +03:00
Roman Khimov
f9663a97a1 network: fix Ping messages
* NewPing() accepts block index first and nonce then.
 * Block height should be used, it'll be important for state exchanging nodes
2021-08-06 11:28:09 +03:00
Roman Khimov
39f874d03f core: don't recalculate witness script hash
We know it already, but with current loading code VM will hash it once
more. It doesn't help a lot and still it costs nothing to avoid this
overhead.

name             old time/op    new time/op    delta
VerifyWitness-8    93.4µs ± 3%    92.7µs ± 2%    ~     (p=0.353 n=10+10)

name             old alloc/op   new alloc/op   delta
VerifyWitness-8    3.43kB ± 0%    3.40kB ± 0%  -0.70%  (p=0.000 n=9+9)

name             old allocs/op  new allocs/op  delta
VerifyWitness-8      67.0 ± 0%      66.0 ± 0%  -1.49%  (p=0.000 n=10+10)
2021-08-06 11:25:09 +03:00
Roman Khimov
e41fc2fd1b
Merge pull request #2111 from nspcc-dev/drop-refuel
native: drop Refuel method from GAS
2021-08-05 16:42:29 +03:00
Roman Khimov
d6bd6b6888 native: drop Refuel method from GAS
It can be used to attack the network (amplifying DOS), so it's broken
beyond repair. This reverts ac601601c1.

See also neo-project/neo#2560 and neo-project/neo#2561.
2021-08-05 10:27:13 +03:00
Roman Khimov
1b186e046b network: use optimized decoder for transactions
NewTransactionFromBytes() works a bit faster and uses less memory.
2021-08-04 23:49:07 +03:00
Roman Khimov
892c9785ad transaction: don't allocate new buffer to calculate hash
We can write directly to hash.Hash.

name               old time/op    new time/op    delta
DecodeBinary-8       2.89µs ± 3%    2.82µs ± 5%     ~     (p=0.052 n=10+10)
DecodeJSON-8         13.0µs ± 1%    12.8µs ± 1%   -1.54%  (p=0.002 n=10+8)
DecodeFromBytes-8    2.37µs ± 1%    2.25µs ± 5%   -5.25%  (p=0.000 n=9+10)

name               old alloc/op   new alloc/op   delta
DecodeBinary-8       1.75kB ± 0%    1.53kB ± 0%  -12.79%  (p=0.000 n=10+10)
DecodeJSON-8         3.49kB ± 0%    3.26kB ± 0%   -6.42%  (p=0.000 n=10+10)
DecodeFromBytes-8    1.37kB ± 0%    1.14kB ± 0%  -16.37%  (p=0.000 n=10+10)

name               old allocs/op  new allocs/op  delta
DecodeBinary-8         26.0 ± 0%      23.0 ± 0%  -11.54%  (p=0.000 n=10+10)
DecodeJSON-8           58.0 ± 0%      55.0 ± 0%   -5.17%  (p=0.000 n=10+10)
DecodeFromBytes-8      18.0 ± 0%      15.0 ± 0%  -16.67%  (p=0.000 n=10+10)
2021-08-04 23:43:20 +03:00
Roman Khimov
6d10cdc2f6 transaction: avoid ReadArray()
Reflection adds some real cost to it:

name               old time/op    new time/op    delta
DecodeBinary-8       3.14µs ± 5%    2.89µs ± 3%   -8.19%  (p=0.000 n=10+10)
DecodeJSON-8         12.6µs ± 3%    13.0µs ± 1%   +3.77%  (p=0.000 n=10+10)
DecodeFromBytes-8    2.73µs ± 2%    2.37µs ± 1%  -13.12%  (p=0.000 n=9+9)

name               old alloc/op   new alloc/op   delta
DecodeBinary-8       1.82kB ± 0%    1.75kB ± 0%   -3.95%  (p=0.000 n=10+10)
DecodeJSON-8         3.49kB ± 0%    3.49kB ± 0%     ~     (all equal)
DecodeFromBytes-8    1.44kB ± 0%    1.37kB ± 0%   -5.00%  (p=0.000 n=10+10)

name               old allocs/op  new allocs/op  delta
DecodeBinary-8         29.0 ± 0%      26.0 ± 0%  -10.34%  (p=0.000 n=10+10)
DecodeJSON-8           58.0 ± 0%      58.0 ± 0%     ~     (all equal)
DecodeFromBytes-8      21.0 ± 0%      18.0 ± 0%  -14.29%  (p=0.000 n=10+10)
2021-08-04 23:34:57 +03:00
Roman Khimov
d2732a71d8 transaction: don't overwrite error and witnesses length check
ReadArray() can return some error and we shouldn't overwrite it. At the same
time limiting ReadArray() to the number of Signers can make it return wrong
error if the number of witnesses actually is bigger than the number of
signers, so use MaxAttributes.
2021-08-04 23:17:50 +03:00
Roman Khimov
d487b54612 transaction: don't recalculate size when decoding from buffer
name               old time/op    new time/op    delta
DecodeBinary-8       3.17µs ± 6%    3.14µs ± 5%     ~     (p=0.579 n=10+10)
DecodeJSON-8         12.8µs ± 3%    12.6µs ± 3%     ~     (p=0.105 n=10+10)
DecodeFromBytes-8    3.45µs ± 4%    2.73µs ± 2%  -20.70%  (p=0.000 n=10+9)

name               old alloc/op   new alloc/op   delta
DecodeBinary-8       1.82kB ± 0%    1.82kB ± 0%     ~     (all equal)
DecodeJSON-8         3.49kB ± 0%    3.49kB ± 0%     ~     (all equal)
DecodeFromBytes-8    1.82kB ± 0%    1.44kB ± 0%  -21.05%  (p=0.000 n=10+10)

name               old allocs/op  new allocs/op  delta
DecodeBinary-8         29.0 ± 0%      29.0 ± 0%     ~     (all equal)
DecodeJSON-8           58.0 ± 0%      58.0 ± 0%     ~     (all equal)
DecodeFromBytes-8      29.0 ± 0%      21.0 ± 0%  -27.59%  (p=0.000 n=10+10)
2021-08-04 23:13:58 +03:00
Roman Khimov
64c780ad7a native: optimize totalSupply operations during token burn/mint
We burn GAS in OnPersist for every transaction so some buffer reuse here is
quite natural.

This also doesn't change a lot in the overall TPS picture, maybe adding some
1%.
2021-08-03 17:59:38 +03:00
Roman Khimov
dede4fa7b1 state: convert NEO balance to stack item directly
Avoid calling Append() that will reallocate the slice, we know the length of
the slice exactly.
2021-08-03 17:59:38 +03:00
Roman Khimov
5c65d33439 native: move required balance check to token contracts
Which duplicates the check, but deduplicates error path. This check forced
double balance deserialization which is quite costly operation, so we better
do it once.

It's hardly noticeable as of TPS metrics though, maybe some 1-2%%.
2021-08-03 17:59:38 +03:00
Roman Khimov
85936de254 vm: don't create reference counter when it's not needed
* invocation stack doesn't need refcounting
 * exception stack doesn't need refcounting
 * evaluation stack always has VM-level refcounter
2021-08-02 22:38:41 +03:00
Roman Khimov
2c2ccdca74 opcode: optimize IsValid
Map access costs much more than array access.

name       old time/op  new time/op  delta
IsValid-8  17.6ns ± 2%   1.1ns ± 2%  -93.68%  (p=0.008 n=5+5)
2021-08-02 21:46:19 +03:00
Roman Khimov
3c1325035e fee: use array for opcodes
Use less memory and have faster access.

name       old time/op  new time/op  delta
Opcode1-8  22.4ns ± 6%   3.0ns ± 6%  -86.63%  (p=0.000 n=10+10)
2021-08-02 20:18:33 +03:00
Roman Khimov
dfc514eda0
Merge pull request #2102 from nspcc-dev/store4
Improve (*MemCachedStore).Persist
2021-08-02 20:10:05 +03:00
Roman Khimov
82f481e143
Merge pull request #2105 from nspcc-dev/json-restrict
native/std: restrint amount of items in JSON deserialization
2021-08-02 19:41:54 +03:00
Evgeniy Stratonikov
bdb9748c1b native/std: restrict amount of items in JSON deserialization
Signed-off-by: Evgeniy Stratonikov <evgeniy@nspcc.ru>
2021-08-02 18:57:47 +03:00
Roman Khimov
f8174ca64c core: ensure data logged is from persistent store
Using bc.dao here is wrong, it can contain unpersisted data.
2021-08-02 16:33:09 +03:00
Roman Khimov
8277b7a19a core: don't spawn goroutine for persist function
It doesn't make any sense, in some situations it leads to a number of
goroutines created that will Persist one after another (as we can't Persist
concurrently). We can manage it better in a single thread.

This doesn't change performance in any way, but somewhat reduces resource
consumption. It was tested neo-bench (single node, 10 workers, LevelDB) on two
machines and block dump processing (RC4 testnet up to 62800 with VerifyBlocks
set to false) on i7-8565U.

Reference (b9be892bf9):

Ryzen 9 5950X:
RPS     27747.349 27407.726 27520.210  ≈ 27558   ± 0.63%
TPS     26992.010 26993.468 27010.966  ≈ 26999   ± 0.04%
CPU %      28.928    28.096    29.105  ≈    28.7 ± 1.88%
Mem MB    760.385   726.320   756.118  ≈   748   ± 2.48%

Core i7-8565U:
RPS     7783.229 7628.409 7542.340  ≈ 7651   ± 1.60%
TPS     7708.436 7607.397 7489.459  ≈ 7602   ± 1.44%
CPU %     74.899   71.020   72.697  ≈   72.9 ± 2.67%
Mem MB   438.047  436.967  416.350  ≈  430   ± 2.84%

DB restore:
real    0m20.838s 0m21.895s 0m21.794s  ≈ 21.51 ± 2.71%
user    0m39.091s 0m40.565s 0m41.493s  ≈ 40.38 ± 3.00%
sys      0m3.184s  0m2.923s  0m3.062s  ≈  3.06 ± 4.27%

Patched:

Ryzen 9 5950X:
RPS     27636.957 27246.911 27462.036  ≈ 27449   ±  0.71%  ↓ 0.40%
TPS     27003.672 26993.468 27011.696  ≈ 27003   ±  0.03%  ↑ 0.01%
CPU %      28.562    28.475    28.012  ≈    28.3 ±  1.04%  ↓ 1.39%
Mem MB    627.007   648.110   794.895  ≈   690   ± 13.25%  ↓ 7.75%

Core i7-8565U:
RPS     7497.210 7527.797 7897.532  ≈ 7641   ±  2.92%  ↓ 0.13%
TPS     7461.128 7482.678 7841.723  ≈ 7595   ±  2.81%  ↓ 0.09%
CPU %     71.559   73.423   69.005  ≈   71.3 ±  3.11%  ↓ 2.19%
Mem MB   393.090  395.899  482.264  ≈  424   ± 11.96%  ↓ 1.40%

DB restore:
real    0m20.773s 0m21.583s 0m20.522s  ≈ 20.96 ±  2.65%  ↓ 2.56%
user    0m39.322s 0m42.268s 0m38.626s  ≈ 40.07 ±  4.82%  ↓ 0.77%
sys      0m3.006s  0m3.597s  0m3.042s  ≈  3.22 ± 10.31%  ↑ 5.23%
2021-08-02 16:33:00 +03:00
Roman Khimov
b9be892bf9 storage: allow accessing MemCachedStore during Persist
Persist by its definition doesn't change MemCachedStore visible state, all KV
pairs that were acessible via it before Persist remain accessible after
Persist. The only thing it does is flushing of the current set of KV pairs
from memory to peristent store. To do that it needs read-only access to the
current KV pair set, but technically it then replaces maps, so we have to use
full write lock which makes MemCachedStore inaccessible for the duration of
Persist. And Persist can take a lot of time, it's about disk access for
regular DBs.

What we do here is we create new in-memory maps for MemCachedStore before
flushing old ones to the persistent store. Then a fake persistent store is
created which actually is a MemCachedStore with old maps, so it has exactly
the same visible state. This Store is never accessed for writes, so we can
read it without taking any internal locks and at the same time we no longer
need write locks for original MemCachedStore, we're not using it. All of this
makes it possible to use MemCachedStore as normally reads are handled going
down to whatever level is needed and writes are handled by new maps. So while
Persist for (*Blockchain).dao does its most time-consuming work we can process
other blocks (reading data for transactions and persisting storeBlock caches
to (*Blockchain).dao).

The change was tested for performance with neo-bench (single node, 10 workers,
LevelDB) on two machines and block dump processing (RC4 testnet up to 62800
with VerifyBlocks set to false) on i7-8565U.

Reference results (bbe4e9cd7b):

Ryzen 9 5950X:
RPS     23616.969 22817.086 23222.378  ≈ 23218   ± 1.72%
TPS     23047.316 22608.578 22735.540  ≈ 22797   ± 0.99%
CPU %      23.434    25.553    23.848  ≈    24.3 ± 4.63%
Mem MB    600.636   503.060   582.043  ≈   562   ± 9.22%

Core i7-8565U:
RPS     6594.007 6499.501 6572.902  ≈ 6555   ± 0.76%
TPS     6561.680 6444.545 6510.120  ≈ 6505   ± 0.90%
CPU %     58.452   60.568   62.474    ≈ 60.5 ± 3.33%
Mem MB   234.893  285.067  269.081   ≈ 263   ± 9.75%

DB restore:
real    0m22.237s 0m23.471s 0m23.409s  ≈ 23.04 ± 3.02%
user    0m35.435s 0m38.943s 0m39.247s  ≈ 37.88 ± 5.59%
sys      0m3.085s  0m3.360s  0m3.144s  ≈  3.20 ± 4.53%

After the change:

Ryzen 9 5950X:
RPS     27747.349 27407.726 27520.210  ≈ 27558   ± 0.63%  ↑ 18.69%
TPS     26992.010 26993.468 27010.966  ≈ 26999   ± 0.04%  ↑ 18.43%
CPU %      28.928    28.096    29.105  ≈    28.7 ± 1.88%  ↑ 18.1%
Mem MB    760.385   726.320   756.118  ≈   748   ± 2.48%  ↑ 33.10%

Core i7-8565U:
RPS     7783.229 7628.409 7542.340  ≈ 7651   ± 1.60%  ↑ 16.72%
TPS     7708.436 7607.397 7489.459  ≈ 7602   ± 1.44%  ↑ 16.85%
CPU %     74.899   71.020   72.697  ≈   72.9 ± 2.67%  ↑ 20.50%
Mem MB   438.047  436.967  416.350  ≈  430   ± 2.84%  ↑ 63.50%

DB restore:
real    0m20.838s 0m21.895s 0m21.794s  ≈ 21.51 ± 2.71%  ↓ 6.64%
user    0m39.091s 0m40.565s 0m41.493s  ≈ 40.38 ± 3.00%  ↑ 6.60%
sys      0m3.184s  0m2.923s  0m3.062s  ≈  3.06 ± 4.27%  ↓ 4.38%

It obviously uses more memory now and utilizes CPU more aggressively, but at
the same time it allows to improve all relevant metrics and finally reach a
situation where we process 50K transactions in less than second on Ryzen 9
5950X (going higher than 25K TPS). The other observation is much more stable
block time, on Ryzen 9 it's as close to 1 second as it could be.
2021-08-02 16:33:00 +03:00
Roman Khimov
3cebd2b129 interop: use non-Cached wrapped DAO
Cached only caches NEP-17 tracking data now, it makes no sense here.
2021-07-30 15:45:17 +03:00
Roman Khimov
fa7314ea90 dao: drop dropNEP17Cache from Cached
It's not used now.
2021-07-30 15:45:17 +03:00
Roman Khimov
49be753850 core: spread storeBlock actions to three goroutines
Block processing consists of:
 * saving block/transactions to the DB
 * executing blocks/transactions
 * processing notifications/saving AERs
 * updating MPT
 * atomically updating Blockchain state

Of these the first one is completely independent of others, it can be done in
a separate routine easily. The third one technically depends on the second,
it just doesn't have data until something is executed. At the same time it
doesn't affect future executions in any way, so we can offload
AER/notification processing to separate goroutine (while the main thread
proceeds with other transactions).

MPT update depends on all executions, so it can't be offloaded, but it can be
done concurrently to AER processing. And only the last thing actually needs
all previous ones to be finished, so it's a natural synchronization point.

So we spawn two additional routines and let the main one execute transactions
and update MPT as fast as it can. While technically all of these routines
could share single DAO (they are working with different KV sets) benchmarking
shows that using separate DAOs and then persisting them to lower one actually
works about 7-8%% better. At the same time we can simplify DAOs used, Cached
one is only relevant for AER processing because it caches NEP-17 tracking
data, everything else can do just fine with Simple.

The change was tested for performance with neo-bench (single node, 10 workers,
LevelDB) on two machines and block dump processing (RC4 testnet up to 50825
with VerifyBlocks set to false) on i7-8565U. neo-bench creates huge blocks
with lots of transactions while RC4 dump mostly consists of empty blocks.

Reference results (06c3dda5d1):

Ryzen 9 5950X:
RPS ≈ 20059.569   21186.328   20158.983   ≈ 20468   ±  3.05%
TPS ≈ 19544.993   20585.450   19658.338   ≈ 19930   ±  2.86%
CPU ≈    18.682%     23.877%     22.852%  ≈    21.8 ± 12.62%
Mem ≈   618.981MB   559.246MB   541.539MB ≈   573   ±  7.08%

Core i7-8565U:
RPS ≈ 5927.082   6526.739   6372.115   ≈ 6275   ± 4.96%
TPS ≈ 5899.531   6477.187   6329.515   ≈ 6235   ± 4.81%
CPU ≈   56.346%    61.955%    58.125%  ≈   58.8 ± 4.87%
Mem ≈  212.191MB  224.974MB  205.479MB ≈  214   ± 4.62%

DB restore:
real    0m12.683s 0m13.222s 0m13.382s  ≈ 13.096 ±  2.80%
user    0m18.501s 0m19.163s 0m19.489s  ≈ 19.051 ±  2.64%
sys      0m1.404s  0m1.396s  0m1.666s  ≈  1.489 ± 10.32%

After the change:

Ryzen 9 5950X:
RPS ≈ 23056.899   22822.015   23006.543   ≈ 22962   ± 0.54%
TPS ≈ 22594.785   22292.071   22800.857   ≈ 22562   ± 1.13%
CPU ≈    24.262%     23.185%     25.921%  ≈    24.5 ± 5.65%
Mem ≈   614.254MB   613.204MB   555.491MB ≈   594   ± 5.66%

Core i7-8565U:
RPS ≈ 6378.702   6423.927   6363.788      ≈ 6389   ± 0.49%
TPS ≈ 6327.072   6372.552   6311.179      ≈ 6337   ± 0.50%
CPU ≈   57.599%    58.622%    59.737%     ≈   58.7 ± 1.82%
Mem ≈  198.697MB  188.746MB  200.235MB    ≈  196   ± 3.18%

DB restore:
real    0m13.576s 0m13.334s 0m12.757s  ≈  13.222 ±  3.18%
user    0m19.113s 0m19.490s 0m20.197s  ≈  19.600 ±  2.81%
sys      0m2.211s  0m1.558s  0m1.559s  ≈   1.776 ± 21.21%

On Ryzen 9 we've got 12% better RPS, 13% better TPS with 12% CPU and 3% RAM
more used. Core i7-8565U changes don't seem to be statistically significant:
1.8% more RPS, 1.6% more TPS with about the same CPU and 8.5% less RAM
used. It also is 1% worse in DB restore time.

The result is somewhat expected, on a powerful machine with lots of spare
cores we get 10%+ better results while on average resource-constrained laptop it
doesn't change much (the machine is already saturated). Overall, this seems to
be worthwhile.
2021-07-30 15:45:17 +03:00
Roman Khimov
06c3dda5d1
Merge pull request #2093 from nspcc-dev/states-exchange/drop-nep17-balance-state
core: implement dynamic NEP17 balances tracking
2021-07-29 19:08:42 +03:00
Evgeniy Stratonikov
283173bb9d wallet: use named constants in Seek
Signed-off-by: Evgeniy Stratonikov <evgeniy@nspcc.ru>
2021-07-29 17:11:50 +03:00
Evgeniy Stratonikov
a429aa3e68 wallet: truncate file when writing
If wallet size decreases, we need to remove trailing garbage if it
exists. This can happen when removing account or reading pretty-printed
wallet. It doesn't affect our CLI (we decode only file prefix), but
it is nice to always have a valid JSON file.

Signed-off-by: Evgeniy Stratonikov <evgeniy@nspcc.ru>
2021-07-29 17:11:49 +03:00
Evgeniy Stratonikov
8f196c8222 wallet: marshal before writing to file
Signed-off-by: Evgeniy Stratonikov <evgeniy@nspcc.ru>
2021-07-29 16:07:36 +03:00
Anna Shaleva
a30e48ff90 core: increment the DB version
DB scheme has been changed.
2021-07-29 10:23:13 +03:00
Anna Shaleva
e8bed184d5 core: implement dynamic NEP17 balances tracking
Request NEP17 balances from a set of NEP17 contracts instead of getting
them from storage. LastUpdatedBlock tracking remains untouched, because
there's no way to retrieve it dynamically.
2021-07-29 10:23:01 +03:00
Anna Shaleva
e46d76d7aa core: rename state.NEP17Balances to state.NEP17TransferInfo
Balances are to be removed from state.NEP17TransferInfo, so the remnant
fields are NextTransferBatch, NewBatch and a map of LastUpdatedBlocks.
These fields are more staff-related.

Also rename dao.[Get, Put, put]NEP17Balances and STNEP17Balances
preffix.

Also rename NEP17TransferInfo.Trackers to LastUpdatedBlockTrackers
because NEP17TransferInfo.Balances are to be removed.
2021-07-28 13:22:53 +03:00
Anna Shaleva
c0a2c74e0c core: maintain a set of NEP17-compliant contracts 2021-07-28 13:22:53 +03:00
Roman Khimov
50d99464e0
Merge pull request #2064 from nspcc-dev/fix-remove-stale-hang
mempool: send events in a separate goroutine
2021-07-23 18:16:14 +03:00
Evgeniy Stratonikov
e2f2addf95 notary: fix possible deadlock in UpdateNotaryNodes
`UpdateNotaryNodes` takes account then request mutex, and `PostPersist` takes
them in a different order. Because they are executed concurrently a deadlock
can appear.

```
2021-07-23T11:06:58.3732405Z panic: test timed out after 10m0s
2021-07-23T11:06:58.3732642Z
2021-07-23T11:06:58.3742610Z goroutine 7351 [semacquire, 9 minutes]:
2021-07-23T11:06:58.3743140Z sync.runtime_SemacquireMutex(0xc00010e4dc, 0x1100000000, 0x1)
2021-07-23T11:06:58.3743747Z 	/opt/hostedtoolcache/go/1.14.15/x64/src/runtime/sema.go:71 +0x47
2021-07-23T11:06:58.3744222Z sync.(*Mutex).lockSlow(0xc00010e4d8)
2021-07-23T11:06:58.3744742Z 	/opt/hostedtoolcache/go/1.14.15/x64/src/sync/mutex.go:138 +0x1c1
2021-07-23T11:06:58.3745209Z sync.(*Mutex).Lock(0xc00010e4d8)
2021-07-23T11:06:58.3745692Z 	/opt/hostedtoolcache/go/1.14.15/x64/src/sync/mutex.go:81 +0x7d
2021-07-23T11:06:58.3746162Z sync.(*RWMutex).Lock(0xc00010e4d8)
2021-07-23T11:06:58.3746764Z 	/opt/hostedtoolcache/go/1.14.15/x64/src/sync/rwmutex.go:98 +0x4a
2021-07-23T11:06:58.3747699Z github.com/nspcc-dev/neo-go/pkg/services/notary.(*Notary).UpdateNotaryNodes(0xc00010e480, 0xc000105b90, 0x1, 0x1)
2021-07-23T11:06:58.3748621Z 	/home/runner/work/neo-go/neo-go/pkg/services/notary/node.go:44 +0x3ba
2021-07-23T11:06:58.3749367Z github.com/nspcc-dev/neo-go/pkg/core.TestNotary(0xc0003677a0)
2021-07-23T11:06:58.3750116Z 	/home/runner/work/neo-go/neo-go/pkg/core/notary_test.go:594 +0x2dba
2021-07-23T11:06:58.3750641Z testing.tRunner(0xc0003677a0, 0x16f3308)
2021-07-23T11:06:58.3751202Z 	/opt/hostedtoolcache/go/1.14.15/x64/src/testing/testing.go:1050 +0x1ec
2021-07-23T11:06:58.3751696Z created by testing.(*T).Run
2021-07-23T11:06:58.3752225Z 	/opt/hostedtoolcache/go/1.14.15/x64/src/testing/testing.go:1095 +0x538
2021-07-23T11:06:58.3752573Z
2021-07-23T11:06:58.3771319Z goroutine 7340 [semacquire, 9 minutes]:
2021-07-23T11:06:58.3772048Z sync.runtime_SemacquireMutex(0xc00010e504, 0x0, 0x0)
2021-07-23T11:06:58.3772889Z 	/opt/hostedtoolcache/go/1.14.15/x64/src/runtime/sema.go:71 +0x47
2021-07-23T11:06:58.3773581Z sync.(*RWMutex).RLock(0xc00010e4f8)
2021-07-23T11:06:58.3774310Z 	/opt/hostedtoolcache/go/1.14.15/x64/src/sync/rwmutex.go:50 +0xa4
2021-07-23T11:06:58.3775449Z github.com/nspcc-dev/neo-go/pkg/services/notary.(*Notary).getAccount(0xc00010e480, 0x0)
2021-07-23T11:06:58.3776626Z 	/home/runner/work/neo-go/neo-go/pkg/services/notary/node.go:51 +0x51
2021-07-23T11:06:58.3778270Z github.com/nspcc-dev/neo-go/pkg/services/notary.(*Notary).finalize(0xc00010e480, 0xc0003b2630, 0xa97df1bc78dd5787, 0xcc8a4d69e7f5d62a, 0x1a4d7981bd86b087, 0xbafdb720c93480b3, 0x0, 0x0)
2021-07-23T11:06:58.3779845Z 	/home/runner/work/neo-go/neo-go/pkg/services/notary/notary.go:306 +0x54
2021-07-23T11:06:58.3781022Z github.com/nspcc-dev/neo-go/pkg/services/notary.(*Notary).PostPersist(0xc00010e480)
2021-07-23T11:06:58.3782232Z 	/home/runner/work/neo-go/neo-go/pkg/services/notary/notary.go:297 +0x662
2021-07-23T11:06:58.3782989Z github.com/nspcc-dev/neo-go/pkg/services/notary.(*Notary).Run(0xc00010e480)
2021-07-23T11:06:58.3783941Z 	/home/runner/work/neo-go/neo-go/pkg/services/notary/notary.go:148 +0x3cb
2021-07-23T11:06:58.3784702Z created by github.com/nspcc-dev/neo-go/pkg/core.TestNotary
2021-07-23T11:06:58.3785451Z 	/home/runner/work/neo-go/neo-go/pkg/core/notary_test.go:132 +0x6e0
```

Signed-off-by: Evgeniy Stratonikov <evgeniy@nspcc.ru>
2021-07-23 14:48:00 +03:00
Evgeniy Stratonikov
3507f52c32 notary: process new transactions in a separate goroutine
Related #2063.

Signed-off-by: Evgeniy Stratonikov <evgeniy@nspcc.ru>
2021-07-23 14:48:00 +03:00
Roman Khimov
6103da8d10 context: read item key in LE
Hi, neo-project/neo#938.
2021-07-23 12:43:04 +03:00
Roman Khimov
efb67a0ea3 context: scripts and signatures are base64-encoded in C# now
So use base64 too and add compatibility test. Unfortunately this breaks
support for old (hex-based) files, but those should be completed a long time
ago.
2021-07-23 11:57:35 +03:00
Roman Khimov
cbe1eeb08c smartcontract: add support for valueless Parameters
This is fine:
            {
               "type" : "Signature"
            },
2021-07-23 11:57:13 +03:00
Roman Khimov
59b4377f90 context: support Neo.Network.P2P.Payloads.Transaction type
C# now uses this one, so use it by default, but also accept old one.
2021-07-23 11:33:51 +03:00
Roman Khimov
ad35db66b5
Merge pull request #2091 from nspcc-dev/tune-error-messages
*: simplify some error messages
2021-07-23 10:40:26 +03:00
Roman Khimov
6e2eddbeb9
Merge pull request #2090 from nspcc-dev/new-query-commands
New query commands
2021-07-23 10:39:57 +03:00
Roman Khimov
1d8ad5b84a *: simplify some error messages
Log:
2021-07-23T09:59:18.948+0300    WARN    contract invocation failed      {"tx": "de3e3c1f1d37e4528990f894dea5583fd320485ad3862a95eb0e8823eecf4a5f", "block": 9643, "error": "error encountered at instruction 1 (SYSCALL): error during call from native: error encountered at instruction 745 (CAT): invalid conversion: Map/ByteString"}

The word "error" appears 4 times here.
2021-07-23 10:08:09 +03:00
Roman Khimov
7366d45985 rpc: add GetStateHeight to client 2021-07-22 21:13:44 +03:00
Roman Khimov
a188d20fd1 rpc: fix getstateheight result compatibility
C#:
   "result" : {
      "localrootindex" : 11623,
      "validatedrootindex" : 11623
   }

Go:
   "result" : {
      "blockHeight" : 11627,
      "stateHeight" : 11627
   }
2021-07-22 21:13:44 +03:00