Build.dependencies({"git", "make", "rustc", "cargo"}) Build.metric( "nightly version", string.gsub(Build.check_output({"rustc", "--version"}).stdout, '^%s*(.*)%s*$', '%1') ) Step.start("crate") Step.push("build") Build.run({"cargo", "build"}) -- `run` automatically records stdout and stderr to log files named after the command Step.advance("test") Build.run({"cargo", "test"}, {name="test stdlib/fmt"}) -- artifacts are stored under `name` if that's present Build.run({"cargo", "test", "--no-default-features"}, {name="test nostdlib/nofmt"}) Build.run({"cargo", "test", "--no-default-features", "--features", "fmt"}, {name="test nostdlib/fmt"}) Step.start("ffi") Step.push("build") Build.run({"cargo", "+nightly", "build", "-Z", "build-std", "--release", "--no-default-features", "--target", Build.environment.vars.native_rust_triple}, {cwd="ffi/"}) Step.advance("validate") sopath = "ffi/target/" .. Build.environment.vars.native_rust_triple .. "/release/libyaxpeax_x86_ffi_long_mode.so" Build.run({"ls", sopath}) Build.metric( "libyaxpeax_x86_ffi_long_mode.so size (bytes)", Build.environment.size(sopath) ) Build.artifact(sopath) -- now run some perf numbers... Step.start("perf") Build.run({"git", "clone", "https://github.com/athre0z/disas-bench.git", "disas-bench"}) Build.run({"git", "submodule", "update", "--recursive", "--init"}, {cwd="disas-bench"}) Build.run({"git", "remote", "add", "dev", "../../.."}, {cwd="disas-bench/libs/yaxpeax"}) Build.run({"git", "fetch", "-a", "dev"}, {cwd="disas-bench/libs/yaxpeax"}) Build.run({"git", "checkout", Build.sha}, {cwd="disas-bench/libs/yaxpeax"}) Step.push("build") Build.run({"make", "make-bench-yaxpeax"}, {cwd="disas-bench/bench/yaxpeax"}) Build.metric( "bench-yaxpeax-fmt size (bytes)", Build.environment.size("disas-bench/bench/yaxpeax/bench-yaxpeax-fmt") ) Build.metric( "bench-yaxpeax-no-fmt size (bytes)", Build.environment.size("disas-bench/bench/yaxpeax/bench-yaxpeax-no-fmt") ) -- fmt Step.advance("fmt") bench_start = Build.now_ms() Build.run({"./bench-yaxpeax-fmt", "20", "0x400", "0x2460400", "../../input/xul.dll"}, {cwd="disas-bench/bench/yaxpeax"}) bench_end = Build.now_ms() Build.metric("fmt runtime (ms)", bench_end - bench_start) -- no-fmt Step.advance("no-fmt") bench_start = Build.now_ms() Build.run({"./bench-yaxpeax-no-fmt", "20", "0x400", "0x2460400", "../../input/xul.dll"}, {cwd="disas-bench/bench/yaxpeax"}) bench_end = Build.now_ms() Build.metric("no-fmt runtime (ms)", bench_end - bench_start) -- perf if Build.environment.has("perf") then perf_setting = Build.check_output({"cat", "/proc/sys/kernel/perf_event_paranoid"}) -- TODO: roll this up into some perf tools in the lua env. for now, if perf -- event paranoid is >2 then we'll probably just fail the build trying and -- failing to run perf. perf_out = Build.check_output({"perf", "stat", "-x", ";", "-e", "cycles,instructions", "./bench-yaxpeax-no-fmt", "20", "0x400", "0x2460400", "../../input/xul.dll"}, {cwd="disas-bench/bench/yaxpeax"}) measurements = {} for count, unit, name in perf_out.stderr:gmatch("([^;]*);([^;]*);([^;]*)[^\n]*\n?") do measurements[name] = tonumber(count) end insts, good, bad, ms = perf_out.stdout:match("Disassembled (%d*) instructions %((%d*) valid, (%d*) bad%), (%d*) ms") measurements["decoded"] = tonumber(insts) measurements["elapsed_ms"] = tonumber(ms) ipc = measurements["instructions:u"] / measurements["cycles:u"] Build.metric("no-fmt IPC", string.format("%.3f", ipc)) inst_per_decode = measurements["instructions:u"] / measurements["decoded"] Build.metric("no-fmt instructions/decode", string.format("%.1f", inst_per_decode)) ms_per_decode = measurements["elapsed_ms"] / measurements["decoded"] Build.metric("no-fmt ns/decode", string.format("%.2f", ms_per_decode * 1000000)) perf_out = Build.check_output({"perf", "stat", "-x", ";", "-e", "cycles,instructions", "./bench-yaxpeax-fmt", "20", "0x400", "0x2460400", "../../input/xul.dll"}, {cwd="disas-bench/bench/yaxpeax"}) measurements = {} for count, unit, name in perf_out.stderr:gmatch("([^;]*);([^;]*);([^;]*)[^\n]*\n?") do measurements[name] = tonumber(count) end insts, good, bad, ms = perf_out.stdout:match("Disassembled (%d*) instructions %((%d*) valid, (%d*) bad%), (%d*) ms") measurements["decoded"] = tonumber(insts) measurements["elapsed_ms"] = tonumber(ms) ipc = measurements["instructions:u"] / measurements["cycles:u"] Build.metric("fmt IPC", string.format("%.3f", ipc)) inst_per_decode = measurements["instructions:u"] / measurements["decoded"] Build.metric("fmt instructions/decode", string.format("%.1f", inst_per_decode)) ms_per_decode = measurements["elapsed_ms"] / measurements["decoded"] Build.metric("fmt ns/decode", string.format("%.2f", ms_per_decode * 1000000)) end