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bitcoin/.appveyor.yml

69 lines
3.5 KiB

version: '{branch}.{build}'
skip_tags: true
image: Visual Studio 2019
configuration: Release
platform: x64
clone_depth: 5
environment:
PATH: 'C:\Python37-x64;C:\Python37-x64\Scripts;%PATH%'
PYTHONUTF8: 1
QT_DOWNLOAD_URL: 'https://github.com/sipsorcery/qt_win_binary/releases/download/v1.6/Qt5.9.8_x64_static_vs2019.zip'
QT_DOWNLOAD_HASH: '9a8c6eb20967873785057fdcd329a657c7f922b0af08c5fde105cc597dd37e21'
QT_LOCAL_PATH: 'C:\Qt5.9.8_x64_static_vs2019'
VCPKG_INSTALL_PATH: 'C:\tools\vcpkg\installed'
VCPKG_COMMIT_ID: 'f3f329a048eaff759c1992c458f2e12351486bc7'
install:
# Disable zmq test for now since python zmq library on Windows would cause Access violation sometimes.
# - cmd: pip install zmq
# Powershell block below is to install the c++ dependencies via vcpkg. The pseudo code is:
# a. Checkout the vcpkg source (including port files) for the specific checkout and build the vcpkg binary,
# b. Install the missing packages.
- ps: |
$env:PACKAGES = Get-Content -Path build_msvc\vcpkg-packages.txt
Write-Host "vcpkg installing packages: $env:PACKAGES"
cd c:\tools\vcpkg
$env:GIT_REDIRECT_STDERR = '2>&1' # git is writing non-errors to STDERR when doing git pull. Send to STDOUT instead.
git pull origin master > $null
git -c advice.detachedHead=false checkout $env:VCPKG_COMMIT_ID
.\bootstrap-vcpkg.bat > $null
Add-Content "C:\tools\vcpkg\triplets\$env:PLATFORM-windows-static.cmake" "set(VCPKG_BUILD_TYPE release)"
.\vcpkg install --triplet $env:PLATFORM-windows-static $env:PACKAGES.split() > $null
Write-Host "vcpkg packages installed successfully."
.\vcpkg integrate install
cd "$env:APPVEYOR_BUILD_FOLDER"
before_build:
# Powershell block below is to download and extract the Qt static libraries. The pseudo code is:
# a. Download the zip file with the prebuilt Qt static libraries.
# b. Check that the downloaded file matches the expected hash.
# c. Extract the zip file to the specific destination path expected by the msbuild projects.
- ps: |
Write-Host "Downloading Qt binaries.";
Invoke-WebRequest -Uri $env:QT_DOWNLOAD_URL -Out qtdownload.zip;
Write-Host "Qt binaries successfully downloaded, checking hash against $env:QT_DOWNLOAD_HASH...";
if((Get-FileHash qtdownload.zip).Hash -eq $env:QT_DOWNLOAD_HASH) {
Expand-Archive qtdownload.zip -DestinationPath $env:QT_LOCAL_PATH;
Write-Host "Qt binary download matched the expected hash.";
}
else {
Write-Host "ERROR: Qt binary download did not match the expected hash.";
Exit-AppveyorBuild;
}
- cmd: python build_msvc\msvc-autogen.py
build_script:
- cmd: msbuild /p:TrackFileAccess=false build_msvc\bitcoin.sln /m /v:q /nologo
after_build:
#- 7z a bitcoin-%APPVEYOR_BUILD_VERSION%.zip %APPVEYOR_BUILD_FOLDER%\build_msvc\%platform%\%configuration%\*.exe
test_script:
- cmd: src\test_bitcoin.exe -l test_suite
Replace current benchmarking framework with nanobench This replaces the current benchmarking framework with nanobench [1], an MIT licensed single-header benchmarking library, of which I am the autor. This has in my opinion several advantages, especially on Linux: * fast: Running all benchmarks takes ~6 seconds instead of 4m13s on an Intel i7-8700 CPU @ 3.20GHz. * accurate: I ran e.g. the benchmark for SipHash_32b 10 times and calculate standard deviation / mean = coefficient of variation: * 0.57% CV for old benchmarking framework * 0.20% CV for nanobench So the benchmark results with nanobench seem to vary less than with the old framework. * It automatically determines runtime based on clock precision, no need to specify number of evaluations. * measure instructions, cycles, branches, instructions per cycle, branch misses (only Linux, when performance counters are available) * output in markdown table format. * Warn about unstable environment (frequency scaling, turbo, ...) * For better profiling, it is possible to set the environment variable NANOBENCH_ENDLESS to force endless running of a particular benchmark without the need to recompile. This makes it to e.g. run "perf top" and look at hotspots. Here is an example copy & pasted from the terminal output: | ns/byte | byte/s | err% | ins/byte | cyc/byte | IPC | bra/byte | miss% | total | benchmark |--------------------:|--------------------:|--------:|----------------:|----------------:|-------:|---------------:|--------:|----------:|:---------- | 2.52 | 396,529,415.94 | 0.6% | 25.42 | 8.02 | 3.169 | 0.06 | 0.0% | 0.03 | `bench/crypto_hash.cpp RIPEMD160` | 1.87 | 535,161,444.83 | 0.3% | 21.36 | 5.95 | 3.589 | 0.06 | 0.0% | 0.02 | `bench/crypto_hash.cpp SHA1` | 3.22 | 310,344,174.79 | 1.1% | 36.80 | 10.22 | 3.601 | 0.09 | 0.0% | 0.04 | `bench/crypto_hash.cpp SHA256` | 2.01 | 496,375,796.23 | 0.0% | 18.72 | 6.43 | 2.911 | 0.01 | 1.0% | 0.00 | `bench/crypto_hash.cpp SHA256D64_1024` | 7.23 | 138,263,519.35 | 0.1% | 82.66 | 23.11 | 3.577 | 1.63 | 0.1% | 0.00 | `bench/crypto_hash.cpp SHA256_32b` | 3.04 | 328,780,166.40 | 0.3% | 35.82 | 9.69 | 3.696 | 0.03 | 0.0% | 0.03 | `bench/crypto_hash.cpp SHA512` [1] https://github.com/martinus/nanobench * Adds support for asymptotes This adds support to calculate asymptotic complexity of a benchmark. This is similar to #17375, but currently only one asymptote is supported, and I have added support in the benchmark `ComplexMemPool` as an example. Usage is e.g. like this: ``` ./bench_bitcoin -filter=ComplexMemPool -asymptote=25,50,100,200,400,600,800 ``` This runs the benchmark `ComplexMemPool` several times but with different complexityN settings. The benchmark can extract that number and use it accordingly. Here, it's used for `childTxs`. The output is this: | complexityN | ns/op | op/s | err% | ins/op | cyc/op | IPC | total | benchmark |------------:|--------------------:|--------------------:|--------:|----------------:|----------------:|-------:|----------:|:---------- | 25 | 1,064,241.00 | 939.64 | 1.4% | 3,960,279.00 | 2,829,708.00 | 1.400 | 0.01 | `ComplexMemPool` | 50 | 1,579,530.00 | 633.10 | 1.0% | 6,231,810.00 | 4,412,674.00 | 1.412 | 0.02 | `ComplexMemPool` | 100 | 4,022,774.00 | 248.58 | 0.6% | 16,544,406.00 | 11,889,535.00 | 1.392 | 0.04 | `ComplexMemPool` | 200 | 15,390,986.00 | 64.97 | 0.2% | 63,904,254.00 | 47,731,705.00 | 1.339 | 0.17 | `ComplexMemPool` | 400 | 69,394,711.00 | 14.41 | 0.1% | 272,602,461.00 | 219,014,691.00 | 1.245 | 0.76 | `ComplexMemPool` | 600 | 168,977,165.00 | 5.92 | 0.1% | 639,108,082.00 | 535,316,887.00 | 1.194 | 1.86 | `ComplexMemPool` | 800 | 310,109,077.00 | 3.22 | 0.1% |1,149,134,246.00 | 984,620,812.00 | 1.167 | 3.41 | `ComplexMemPool` | coefficient | err% | complexity |--------------:|-------:|------------ | 4.78486e-07 | 4.5% | O(n^2) | 6.38557e-10 | 21.7% | O(n^3) | 3.42338e-05 | 38.0% | O(n log n) | 0.000313914 | 46.9% | O(n) | 0.0129823 | 114.4% | O(log n) | 0.0815055 | 133.8% | O(1) The best fitting curve is O(n^2), so the algorithm seems to scale quadratic with `childTxs` in the range 25 to 800.
4 years ago
- cmd: src\bench_bitcoin.exe > NUL
- ps: python test\util\bitcoin-util-test.py
- cmd: python test\util\rpcauth-test.py
# Fee estimation test failing on appveyor with: WinError 10048] Only one usage of each socket address (protocol/network address/port) is normally permitted.
# functional tests disabled for now. See
# https://github.com/bitcoin/bitcoin/pull/18626#issuecomment-613396202
# https://github.com/bitcoin/bitcoin/issues/18623
# - cmd: python test\functional\test_runner.py --ci --quiet --combinedlogslen=4000 --failfast --exclude feature_fee_estimation
artifacts:
#- path: bitcoin-%APPVEYOR_BUILD_VERSION%.zip
deploy: off