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Remove Nexus10.

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Bug: skia:7381
Change-Id: I8e151c5c57f6344c9cdf165bbb78a4ed308491c8
NoTry: true
Reviewed-on: https://skia-review.googlesource.com/82804
Reviewed-by: Kevin Lubick <kjlubick@google.com>
Commit-Queue: Ben Wagner <benjaminwagner@google.com>
This commit is contained in:
Ben Wagner 2017-12-08 15:52:06 -05:00 committed by Skia Commit-Bot
parent cca2300559
commit 2fc5322a04
35 changed files with 67 additions and 1453 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

1
infra/bots/gen_tasks.go
View File

@ -222,7 +222,6 @@ func defaultSwarmDimensions(parts map[string]string) []string {
"GalaxyS7_G930FD": {"herolte", "NRD90M_G930FXXU1DQAS"},
"MotoG4": {"athene", "NPJ25.93-14"},
"NVIDIA_Shield": {"foster", "NRD90M_1915764_848"},
"Nexus10": {"manta", "LMY49J_2640980"},
"Nexus5": {"hammerhead", "M4B30Z_3437181"},
"Nexus5x": {"bullhead", "OPR6.170623.023"},
"Nexus7": {"grouper", "LMY47V_1836172"}, // 2012 Nexus 7

4
infra/bots/jobs.json
View File

@ -103,8 +103,6 @@
"Perf-Android-Clang-NVIDIA_Shield-GPU-TegraX1-arm64-Debug-All-Android_Vulkan",
"Perf-Android-Clang-NVIDIA_Shield-GPU-TegraX1-arm64-Release-All-Android",
"Perf-Android-Clang-NVIDIA_Shield-GPU-TegraX1-arm64-Release-All-Android_Vulkan",
"Perf-Android-Clang-Nexus10-CPU-Exynos5250-arm-Debug-All-Android",
"Perf-Android-Clang-Nexus10-CPU-Exynos5250-arm-Release-All-Android",
"Perf-Android-Clang-Nexus5-CPU-Snapdragon800-arm-Debug-All-Android",
"Perf-Android-Clang-Nexus5-CPU-Snapdragon800-arm-Release-All-Android",
"Perf-Android-Clang-Nexus5-GPU-Adreno330-arm-Debug-All-Android",
@ -288,8 +286,6 @@
"Test-Android-Clang-NVIDIA_Shield-GPU-TegraX1-arm64-Debug-All-Android_Vulkan",
"Test-Android-Clang-NVIDIA_Shield-GPU-TegraX1-arm64-Release-All-Android",
"Test-Android-Clang-NVIDIA_Shield-GPU-TegraX1-arm64-Release-All-Android_Vulkan",
"Test-Android-Clang-Nexus10-CPU-Exynos5250-arm-Debug-All-Android",
"Test-Android-Clang-Nexus10-CPU-Exynos5250-arm-Release-All-Android",
"Test-Android-Clang-Nexus5-CPU-Snapdragon800-arm-Debug-All-Android",
"Test-Android-Clang-Nexus5-CPU-Snapdragon800-arm-Release-All-Android",
"Test-Android-Clang-Nexus5-GPU-Adreno330-arm-Debug-All-Android",

10
infra/bots/recipe_modules/flavor/examples/full.expected/Perf-Android-Clang-NexusPlayer-GPU-PowerVR-x86-Debug-All-Android.json
View File

@ -642,7 +642,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -671,13 +671,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipe_modules/flavor/examples/full.expected/Perf-Android-Clang-Pixel-GPU-Adreno530-arm64-Debug-All-Android.json
View File

@ -642,7 +642,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Pixel",
"0.6"
@ -671,13 +671,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipe_modules/flavor/examples/full.expected/Test-Android-Clang-Nexus5x-GPU-Adreno418-arm64-Debug-All-Android.json
View File

@ -642,7 +642,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/opt/infra-android/tools/adb",
"Nexus5x",
"1.0"
@ -671,13 +671,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipe_modules/flavor/examples/full.expected/Test-Android-Clang-Nexus7-CPU-Tegra3-arm-Release-All-Android.json
View File

@ -642,7 +642,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Nexus7",
"1.0"
@ -671,13 +671,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipe_modules/flavor/examples/full.expected/Test-Android-Clang-Pixel-GPU-Adreno530-arm64-Debug-All-Android.json
View File

@ -642,7 +642,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Pixel",
"1.0"
@ -671,13 +671,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

20
infra/bots/recipe_modules/flavor/examples/full.expected/cpu_scale_failed.json
View File

@ -642,7 +642,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -672,13 +672,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",
@ -739,7 +733,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -768,13 +762,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipe_modules/flavor/examples/full.expected/failed_infra_step.json
View File

@ -642,7 +642,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -671,13 +671,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipe_modules/flavor/examples/full.expected/failed_read_version.json
View File

@ -696,7 +696,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -725,13 +725,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipe_modules/flavor/examples/full.expected/retry_adb_command.json
View File

@ -696,7 +696,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -725,13 +725,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

8
infra/bots/recipe_modules/flavor/gn_android_flavor.py
View File

@ -94,13 +94,7 @@ print log
if 'cannot' in log:
raise Exception('adb root failed')
if model == 'Nexus10':
# Nexus10 doesn't list available frequencies, but it does give a
# min and a max and seems to round to the nearest 100khz, so a
# subset of those available are here.
available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,
1400000, 1700000]
elif model == 'Nexus7':
if model == 'Nexus7':
# Nexus7 claims to support 1300000, but only really allows 1200000
available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,
860000, 1000000, 1100000, 1200000]

10
infra/bots/recipes/perf.expected/Perf-Android-Clang-Nexus5-GPU-Adreno330-arm-Debug-All-Android.json
View File

@ -540,7 +540,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Nexus5",
"0.6"
@ -569,13 +569,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/perf.expected/Perf-Android-Clang-Nexus5x-GPU-Adreno418-arm64-Release-All-Android.json
View File

@ -576,7 +576,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/opt/infra-android/tools/adb",
"Nexus5x",
"0.6"
@ -605,13 +605,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/perf.expected/Perf-Android-Clang-Nexus7-CPU-Tegra3-arm-Release-All-Android.json
View File

@ -576,7 +576,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Nexus7",
"0.6"
@ -605,13 +605,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/perf.expected/Perf-Android-Clang-Nexus7-GPU-Tegra3-arm-Release-All-Android.json
View File

@ -576,7 +576,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Nexus7",
"0.6"
@ -605,13 +605,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/perf.expected/Perf-Android-Clang-NexusPlayer-GPU-PowerVR-x86-Release-All-Android.json
View File

@ -576,7 +576,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -605,13 +605,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/perf.expected/Perf-Android-Clang-NexusPlayer-GPU-PowerVR-x86-Release-All-Android_Vulkan.json
View File

@ -576,7 +576,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -605,13 +605,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/perf.expected/Perf-Android-Clang-PixelC-GPU-TegraX1-arm64-Release-All-Android_Skpbench.json
View File

@ -576,7 +576,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"PixelC",
"0.6"
@ -605,13 +605,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

30
infra/bots/recipes/perf.expected/cpu_scale_failed.json
View File

@ -540,7 +540,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -570,13 +570,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",
@ -637,7 +631,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -667,13 +661,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",
@ -734,7 +722,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -764,13 +752,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

20
infra/bots/recipes/perf.expected/cpu_scale_failed_once.json
View File

@ -540,7 +540,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -570,13 +570,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",
@ -637,7 +631,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"0.6"
@ -666,13 +660,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/test.expected/Test-Android-Clang-AndroidOne-GPU-Mali400MP2-arm-Release-All-Android.json
View File

@ -657,7 +657,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"AndroidOne",
"1.0"
@ -686,13 +686,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

924
infra/bots/recipes/test.expected/Test-Android-Clang-Nexus10-CPU-Exynos5250-arm-Release-All-Android.json
View File

@ -1,924 +0,0 @@
[
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"mkdir",
"-p",
"/sdcard/revenge_of_the_skiabot/resources"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "mkdir /sdcard/revenge_of_the_skiabot/resources"
},
{
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nhost = sys.argv[1]\ndevice = sys.argv[2]\nfor d, _, fs in os.walk(host):\n p = os.path.relpath(d, host)\n if p != '.' and p.startswith('.'):\n continue\n for f in fs:\n print os.path.join(p,f)\n subprocess.check_call(['/usr/bin/adb.1.0.35', 'push',\n os.path.realpath(os.path.join(host, p, f)),\n os.path.join(device, p, f)])\n",
"[START_DIR]/skia/resources",
"/sdcard/revenge_of_the_skiabot/resources"
],
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "push [START_DIR]/skia/resources/* /sdcard/revenge_of_the_skiabot/resources",
"~followup_annotations": [
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@import os@@@",
"@@@STEP_LOG_LINE@python.inline@import subprocess@@@",
"@@@STEP_LOG_LINE@python.inline@import sys@@@",
"@@@STEP_LOG_LINE@python.inline@host = sys.argv[1]@@@",
"@@@STEP_LOG_LINE@python.inline@device = sys.argv[2]@@@",
"@@@STEP_LOG_LINE@python.inline@for d, _, fs in os.walk(host):@@@",
"@@@STEP_LOG_LINE@python.inline@ p = os.path.relpath(d, host)@@@",
"@@@STEP_LOG_LINE@python.inline@ if p != '.' and p.startswith('.'):@@@",
"@@@STEP_LOG_LINE@python.inline@ continue@@@",
"@@@STEP_LOG_LINE@python.inline@ for f in fs:@@@",
"@@@STEP_LOG_LINE@python.inline@ print os.path.join(p,f)@@@",
"@@@STEP_LOG_LINE@python.inline@ subprocess.check_call(['/usr/bin/adb.1.0.35', 'push',@@@",
"@@@STEP_LOG_LINE@python.inline@ os.path.realpath(os.path.join(host, p, f)),@@@",
"@@@STEP_LOG_LINE@python.inline@ os.path.join(device, p, f)])@@@",
"@@@STEP_LOG_END@python.inline@@@"
]
},
{
"cmd": [
"python",
"-u",
"RECIPE_MODULE[recipe_engine::file]/resources/fileutil.py",
"--json-output",
"/path/to/tmp/json",
"copy",
"[START_DIR]/skia/infra/bots/assets/skp/VERSION",
"/path/to/tmp/"
],
"infra_step": true,
"name": "Get downloaded SKP VERSION"
},
{
"cmd": [
"python",
"-u",
"RECIPE_MODULE[recipe_engine::file]/resources/fileutil.py",
"--json-output",
"/path/to/tmp/json",
"copy",
"42",
"[START_DIR]/tmp/SKP_VERSION"
],
"infra_step": true,
"name": "write SKP_VERSION"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"cat",
"/sdcard/revenge_of_the_skiabot/SKP_VERSION"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "read /sdcard/revenge_of_the_skiabot/SKP_VERSION",
"stdout": "/path/to/tmp/"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"rm",
"-f",
"/sdcard/revenge_of_the_skiabot/SKP_VERSION"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "rm /sdcard/revenge_of_the_skiabot/SKP_VERSION"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"rm",
"-rf",
"/sdcard/revenge_of_the_skiabot/skps"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "rm /sdcard/revenge_of_the_skiabot/skps"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"mkdir",
"-p",
"/sdcard/revenge_of_the_skiabot/skps"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "mkdir /sdcard/revenge_of_the_skiabot/skps"
},
{
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nhost = sys.argv[1]\ndevice = sys.argv[2]\nfor d, _, fs in os.walk(host):\n p = os.path.relpath(d, host)\n if p != '.' and p.startswith('.'):\n continue\n for f in fs:\n print os.path.join(p,f)\n subprocess.check_call(['/usr/bin/adb.1.0.35', 'push',\n os.path.realpath(os.path.join(host, p, f)),\n os.path.join(device, p, f)])\n",
"[START_DIR]/skp",
"/sdcard/revenge_of_the_skiabot/skps"
],
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "push [START_DIR]/skp/* /sdcard/revenge_of_the_skiabot/skps",
"~followup_annotations": [
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@import os@@@",
"@@@STEP_LOG_LINE@python.inline@import subprocess@@@",
"@@@STEP_LOG_LINE@python.inline@import sys@@@",
"@@@STEP_LOG_LINE@python.inline@host = sys.argv[1]@@@",
"@@@STEP_LOG_LINE@python.inline@device = sys.argv[2]@@@",
"@@@STEP_LOG_LINE@python.inline@for d, _, fs in os.walk(host):@@@",
"@@@STEP_LOG_LINE@python.inline@ p = os.path.relpath(d, host)@@@",
"@@@STEP_LOG_LINE@python.inline@ if p != '.' and p.startswith('.'):@@@",
"@@@STEP_LOG_LINE@python.inline@ continue@@@",
"@@@STEP_LOG_LINE@python.inline@ for f in fs:@@@",
"@@@STEP_LOG_LINE@python.inline@ print os.path.join(p,f)@@@",
"@@@STEP_LOG_LINE@python.inline@ subprocess.check_call(['/usr/bin/adb.1.0.35', 'push',@@@",
"@@@STEP_LOG_LINE@python.inline@ os.path.realpath(os.path.join(host, p, f)),@@@",
"@@@STEP_LOG_LINE@python.inline@ os.path.join(device, p, f)])@@@",
"@@@STEP_LOG_END@python.inline@@@"
]
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"push",
"[START_DIR]/tmp/SKP_VERSION",
"/sdcard/revenge_of_the_skiabot/SKP_VERSION"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "push [START_DIR]/tmp/SKP_VERSION /sdcard/revenge_of_the_skiabot/SKP_VERSION"
},
{
"cmd": [
"python",
"-u",
"RECIPE_MODULE[recipe_engine::file]/resources/fileutil.py",
"--json-output",
"/path/to/tmp/json",
"copy",
"[START_DIR]/skia/infra/bots/assets/skimage/VERSION",
"/path/to/tmp/"
],
"infra_step": true,
"name": "Get downloaded skimage VERSION"
},
{
"cmd": [
"python",
"-u",
"RECIPE_MODULE[recipe_engine::file]/resources/fileutil.py",
"--json-output",
"/path/to/tmp/json",
"copy",
"42",
"[START_DIR]/tmp/SK_IMAGE_VERSION"
],
"infra_step": true,
"name": "write SK_IMAGE_VERSION"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"cat",
"/sdcard/revenge_of_the_skiabot/SK_IMAGE_VERSION"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "read /sdcard/revenge_of_the_skiabot/SK_IMAGE_VERSION",
"stdout": "/path/to/tmp/"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"rm",
"-f",
"/sdcard/revenge_of_the_skiabot/SK_IMAGE_VERSION"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "rm /sdcard/revenge_of_the_skiabot/SK_IMAGE_VERSION"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"rm",
"-rf",
"/sdcard/revenge_of_the_skiabot/images"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "rm /sdcard/revenge_of_the_skiabot/images"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"mkdir",
"-p",
"/sdcard/revenge_of_the_skiabot/images"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "mkdir /sdcard/revenge_of_the_skiabot/images"
},
{
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nhost = sys.argv[1]\ndevice = sys.argv[2]\nfor d, _, fs in os.walk(host):\n p = os.path.relpath(d, host)\n if p != '.' and p.startswith('.'):\n continue\n for f in fs:\n print os.path.join(p,f)\n subprocess.check_call(['/usr/bin/adb.1.0.35', 'push',\n os.path.realpath(os.path.join(host, p, f)),\n os.path.join(device, p, f)])\n",
"[START_DIR]/skimage",
"/sdcard/revenge_of_the_skiabot/images"
],
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "push [START_DIR]/skimage/* /sdcard/revenge_of_the_skiabot/images",
"~followup_annotations": [
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@import os@@@",
"@@@STEP_LOG_LINE@python.inline@import subprocess@@@",
"@@@STEP_LOG_LINE@python.inline@import sys@@@",
"@@@STEP_LOG_LINE@python.inline@host = sys.argv[1]@@@",
"@@@STEP_LOG_LINE@python.inline@device = sys.argv[2]@@@",
"@@@STEP_LOG_LINE@python.inline@for d, _, fs in os.walk(host):@@@",
"@@@STEP_LOG_LINE@python.inline@ p = os.path.relpath(d, host)@@@",
"@@@STEP_LOG_LINE@python.inline@ if p != '.' and p.startswith('.'):@@@",
"@@@STEP_LOG_LINE@python.inline@ continue@@@",
"@@@STEP_LOG_LINE@python.inline@ for f in fs:@@@",
"@@@STEP_LOG_LINE@python.inline@ print os.path.join(p,f)@@@",
"@@@STEP_LOG_LINE@python.inline@ subprocess.check_call(['/usr/bin/adb.1.0.35', 'push',@@@",
"@@@STEP_LOG_LINE@python.inline@ os.path.realpath(os.path.join(host, p, f)),@@@",
"@@@STEP_LOG_LINE@python.inline@ os.path.join(device, p, f)])@@@",
"@@@STEP_LOG_END@python.inline@@@"
]
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"push",
"[START_DIR]/tmp/SK_IMAGE_VERSION",
"/sdcard/revenge_of_the_skiabot/SK_IMAGE_VERSION"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "push [START_DIR]/tmp/SK_IMAGE_VERSION /sdcard/revenge_of_the_skiabot/SK_IMAGE_VERSION"
},
{
"cmd": [
"python",
"-u",
"RECIPE_MODULE[recipe_engine::file]/resources/fileutil.py",
"--json-output",
"/path/to/tmp/json",
"copy",
"[START_DIR]/skia/infra/bots/assets/svg/VERSION",
"/path/to/tmp/"
],
"infra_step": true,
"name": "Get downloaded SVG VERSION"
},
{
"cmd": [
"python",
"-u",
"RECIPE_MODULE[recipe_engine::file]/resources/fileutil.py",
"--json-output",
"/path/to/tmp/json",
"copy",
"42",
"[START_DIR]/tmp/SVG_VERSION"
],
"infra_step": true,
"name": "write SVG_VERSION"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"cat",
"/sdcard/revenge_of_the_skiabot/SVG_VERSION"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "read /sdcard/revenge_of_the_skiabot/SVG_VERSION",
"stdout": "/path/to/tmp/"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"rm",
"-f",
"/sdcard/revenge_of_the_skiabot/SVG_VERSION"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "rm /sdcard/revenge_of_the_skiabot/SVG_VERSION"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"rm",
"-rf",
"/sdcard/revenge_of_the_skiabot/svgs"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "rm /sdcard/revenge_of_the_skiabot/svgs"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"mkdir",
"-p",
"/sdcard/revenge_of_the_skiabot/svgs"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "mkdir /sdcard/revenge_of_the_skiabot/svgs"
},
{
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nhost = sys.argv[1]\ndevice = sys.argv[2]\nfor d, _, fs in os.walk(host):\n p = os.path.relpath(d, host)\n if p != '.' and p.startswith('.'):\n continue\n for f in fs:\n print os.path.join(p,f)\n subprocess.check_call(['/usr/bin/adb.1.0.35', 'push',\n os.path.realpath(os.path.join(host, p, f)),\n os.path.join(device, p, f)])\n",
"[START_DIR]/svg",
"/sdcard/revenge_of_the_skiabot/svgs"
],
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "push [START_DIR]/svg/* /sdcard/revenge_of_the_skiabot/svgs",
"~followup_annotations": [
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@import os@@@",
"@@@STEP_LOG_LINE@python.inline@import subprocess@@@",
"@@@STEP_LOG_LINE@python.inline@import sys@@@",
"@@@STEP_LOG_LINE@python.inline@host = sys.argv[1]@@@",
"@@@STEP_LOG_LINE@python.inline@device = sys.argv[2]@@@",
"@@@STEP_LOG_LINE@python.inline@for d, _, fs in os.walk(host):@@@",
"@@@STEP_LOG_LINE@python.inline@ p = os.path.relpath(d, host)@@@",
"@@@STEP_LOG_LINE@python.inline@ if p != '.' and p.startswith('.'):@@@",
"@@@STEP_LOG_LINE@python.inline@ continue@@@",
"@@@STEP_LOG_LINE@python.inline@ for f in fs:@@@",
"@@@STEP_LOG_LINE@python.inline@ print os.path.join(p,f)@@@",
"@@@STEP_LOG_LINE@python.inline@ subprocess.check_call(['/usr/bin/adb.1.0.35', 'push',@@@",
"@@@STEP_LOG_LINE@python.inline@ os.path.realpath(os.path.join(host, p, f)),@@@",
"@@@STEP_LOG_LINE@python.inline@ os.path.join(device, p, f)])@@@",
"@@@STEP_LOG_END@python.inline@@@"
]
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"push",
"[START_DIR]/tmp/SVG_VERSION",
"/sdcard/revenge_of_the_skiabot/SVG_VERSION"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "push [START_DIR]/tmp/SVG_VERSION /sdcard/revenge_of_the_skiabot/SVG_VERSION"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"rm",
"-rf",
"/sdcard/revenge_of_the_skiabot/dm_out"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "rm /sdcard/revenge_of_the_skiabot/dm_out"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"shell",
"mkdir",
"-p",
"/sdcard/revenge_of_the_skiabot/dm_out"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "mkdir /sdcard/revenge_of_the_skiabot/dm_out"
},
{
"cmd": [
"python",
"-u",
"RECIPE_MODULE[recipe_engine::file]/resources/fileutil.py",
"--json-output",
"/path/to/tmp/json",
"ensure-directory",
"--mode",
"0777",
"[START_DIR]/tmp"
],
"infra_step": true,
"name": "makedirs tmp_dir"
},
{
"cmd": [
"python",
"-u",
"\nimport contextlib\nimport math\nimport socket\nimport sys\nimport time\nimport urllib2\n\nHASHES_URL = 'https://storage.googleapis.com/skia-infra-gm/hash_files/gold-prod-hashes.txt'\nRETRIES = 5\nTIMEOUT = 60\nWAIT_BASE = 15\n\nsocket.setdefaulttimeout(TIMEOUT)\nfor retry in range(RETRIES):\n try:\n with contextlib.closing(\n urllib2.urlopen(HASHES_URL, timeout=TIMEOUT)) as w:\n hashes = w.read()\n with open(sys.argv[1], 'w') as f:\n f.write(hashes)\n break\n except Exception as e:\n print 'Failed to get uninteresting hashes from %s:' % HASHES_URL\n print e\n if retry == RETRIES:\n raise\n waittime = WAIT_BASE * math.pow(2, retry)\n print 'Retry in %d seconds.' % waittime\n time.sleep(waittime)\n",
"[START_DIR]/tmp/uninteresting_hashes.txt"
],
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "get uninteresting hashes",
"~followup_annotations": [
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@import contextlib@@@",
"@@@STEP_LOG_LINE@python.inline@import math@@@",
"@@@STEP_LOG_LINE@python.inline@import socket@@@",
"@@@STEP_LOG_LINE@python.inline@import sys@@@",
"@@@STEP_LOG_LINE@python.inline@import time@@@",
"@@@STEP_LOG_LINE@python.inline@import urllib2@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@HASHES_URL = 'https://storage.googleapis.com/skia-infra-gm/hash_files/gold-prod-hashes.txt'@@@",
"@@@STEP_LOG_LINE@python.inline@RETRIES = 5@@@",
"@@@STEP_LOG_LINE@python.inline@TIMEOUT = 60@@@",
"@@@STEP_LOG_LINE@python.inline@WAIT_BASE = 15@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@socket.setdefaulttimeout(TIMEOUT)@@@",
"@@@STEP_LOG_LINE@python.inline@for retry in range(RETRIES):@@@",
"@@@STEP_LOG_LINE@python.inline@ try:@@@",
"@@@STEP_LOG_LINE@python.inline@ with contextlib.closing(@@@",
"@@@STEP_LOG_LINE@python.inline@ urllib2.urlopen(HASHES_URL, timeout=TIMEOUT)) as w:@@@",
"@@@STEP_LOG_LINE@python.inline@ hashes = w.read()@@@",
"@@@STEP_LOG_LINE@python.inline@ with open(sys.argv[1], 'w') as f:@@@",
"@@@STEP_LOG_LINE@python.inline@ f.write(hashes)@@@",
"@@@STEP_LOG_LINE@python.inline@ break@@@",
"@@@STEP_LOG_LINE@python.inline@ except Exception as e:@@@",
"@@@STEP_LOG_LINE@python.inline@ print 'Failed to get uninteresting hashes from %s:' % HASHES_URL@@@",
"@@@STEP_LOG_LINE@python.inline@ print e@@@",
"@@@STEP_LOG_LINE@python.inline@ if retry == RETRIES:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise@@@",
"@@@STEP_LOG_LINE@python.inline@ waittime = WAIT_BASE * math.pow(2, retry)@@@",
"@@@STEP_LOG_LINE@python.inline@ print 'Retry in %d seconds.' % waittime@@@",
"@@@STEP_LOG_LINE@python.inline@ time.sleep(waittime)@@@",
"@@@STEP_LOG_END@python.inline@@@"
]
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"push",
"[START_DIR]/tmp/uninteresting_hashes.txt",
"/sdcard/revenge_of_the_skiabot/uninteresting_hashes.txt"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "push [START_DIR]/tmp/uninteresting_hashes.txt /sdcard/revenge_of_the_skiabot/uninteresting_hashes.txt"
},
{
"cmd": [
"python",
"-u",
"import os\nprint os.environ.get('SWARMING_BOT_ID', '')\n"
],
"name": "get swarming bot id",
"stdout": "/path/to/tmp/",
"~followup_annotations": [
"@@@STEP_LOG_LINE@python.inline@import os@@@",
"@@@STEP_LOG_LINE@python.inline@print os.environ.get('SWARMING_BOT_ID', '')@@@",
"@@@STEP_LOG_END@python.inline@@@"
]
},
{
"cmd": [
"python",
"-u",
"import os\nprint os.environ.get('SWARMING_TASK_ID', '')\n"
],
"name": "get swarming task id",
"stdout": "/path/to/tmp/",
"~followup_annotations": [
"@@@STEP_LOG_LINE@python.inline@import os@@@",
"@@@STEP_LOG_LINE@python.inline@print os.environ.get('SWARMING_TASK_ID', '')@@@",
"@@@STEP_LOG_END@python.inline@@@"
]
},
{
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Nexus10",
"1.0"
],
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "Scale CPU to 1.000000",
"timeout": 30,
"~followup_annotations": [
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@import os@@@",
"@@@STEP_LOG_LINE@python.inline@import subprocess@@@",
"@@@STEP_LOG_LINE@python.inline@import sys@@@",
"@@@STEP_LOG_LINE@python.inline@import time@@@",
"@@@STEP_LOG_LINE@python.inline@ADB = sys.argv[1]@@@",
"@@@STEP_LOG_LINE@python.inline@model = sys.argv[2]@@@",
"@@@STEP_LOG_LINE@python.inline@target_percent = float(sys.argv[3])@@@",
"@@@STEP_LOG_LINE@python.inline@log = subprocess.check_output([ADB, 'root'])@@@",
"@@@STEP_LOG_LINE@python.inline@# check for message like 'adbd cannot run as root in production builds'@@@",
"@@@STEP_LOG_LINE@python.inline@print log@@@",
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",
"@@@STEP_LOG_LINE@python.inline@else:@@@",
"@@@STEP_LOG_LINE@python.inline@ # Temporary logging to get a sense of what devices have multiple cpus@@@",
"@@@STEP_LOG_LINE@python.inline@ try:@@@",
"@@@STEP_LOG_LINE@python.inline@ print subprocess.check_output([ADB, 'shell', 'cat ',@@@",
"@@@STEP_LOG_LINE@python.inline@ '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])@@@",
"@@@STEP_LOG_LINE@python.inline@ print subprocess.check_output([ADB, 'shell', 'cat ',@@@",
"@@@STEP_LOG_LINE@python.inline@ '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])@@@",
"@@@STEP_LOG_LINE@python.inline@ except Exception as e:@@@",
"@@@STEP_LOG_LINE@python.inline@ print e.output.strip()@@@",
"@@@STEP_LOG_LINE@python.inline@ # Most devices give a list of their available frequencies.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = subprocess.check_output([ADB, 'shell', 'cat '@@@",
"@@@STEP_LOG_LINE@python.inline@ '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@ # Check for message like '/system/bin/sh: file not found'@@@",
"@@@STEP_LOG_LINE@python.inline@ if available_freqs and '/system/bin/sh' not in available_freqs:@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = sorted(@@@",
"@@@STEP_LOG_LINE@python.inline@ int(i) for i in available_freqs.strip().split())@@@",
"@@@STEP_LOG_LINE@python.inline@ else:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('Could not get list of available frequencies: %s' %@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs)@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@maxfreq = available_freqs[-1]@@@",
"@@@STEP_LOG_LINE@python.inline@target = int(round(maxfreq * target_percent))@@@",
"@@@STEP_LOG_LINE@python.inline@freq = maxfreq@@@",
"@@@STEP_LOG_LINE@python.inline@for f in reversed(available_freqs):@@@",
"@@@STEP_LOG_LINE@python.inline@ if f <= target:@@@",
"@@@STEP_LOG_LINE@python.inline@ freq = f@@@",
"@@@STEP_LOG_LINE@python.inline@ break@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@print 'Setting frequency to %d' % freq@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@subprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '@@@",
"@@@STEP_LOG_LINE@python.inline@ '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])@@@",
"@@@STEP_LOG_LINE@python.inline@# If scaling_max_freq is lower than our attempted setting, it won't take.@@@",
"@@@STEP_LOG_LINE@python.inline@# We must set min first, because if we try to set max to be less than min@@@",
"@@@STEP_LOG_LINE@python.inline@# (which sometimes happens after certain devices reboot) it returns a@@@",
"@@@STEP_LOG_LINE@python.inline@# perplexing permissions error.@@@",
"@@@STEP_LOG_LINE@python.inline@subprocess.check_output([ADB, 'shell', 'echo 0 > '@@@",
"@@@STEP_LOG_LINE@python.inline@ '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])@@@",
"@@@STEP_LOG_LINE@python.inline@subprocess.check_output([ADB, 'shell', 'echo %d > '@@@",
"@@@STEP_LOG_LINE@python.inline@ '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])@@@",
"@@@STEP_LOG_LINE@python.inline@subprocess.check_output([ADB, 'shell', 'echo %d > '@@@",
"@@@STEP_LOG_LINE@python.inline@ '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])@@@",
"@@@STEP_LOG_LINE@python.inline@time.sleep(5)@@@",
"@@@STEP_LOG_LINE@python.inline@actual_freq = subprocess.check_output([ADB, 'shell', 'cat '@@@",
"@@@STEP_LOG_LINE@python.inline@ '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()@@@",
"@@@STEP_LOG_LINE@python.inline@if actual_freq != str(freq):@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('(actual, expected) (%s, %d)'@@@",
"@@@STEP_LOG_LINE@python.inline@ % (actual_freq, freq))@@@",
"@@@STEP_LOG_END@python.inline@@@"
]
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"push",
"[START_DIR]/out/Release/dm",
"/data/local/tmp/"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "push dm"
},
{
"cmd": [
"python",
"-u",
"RECIPE_MODULE[recipe_engine::file]/resources/fileutil.py",
"--json-output",
"/path/to/tmp/json",
"copy",
"set -x; /data/local/tmp/dm --resourcePath /sdcard/revenge_of_the_skiabot/resources --skps /sdcard/revenge_of_the_skiabot/skps --images /sdcard/revenge_of_the_skiabot/images/dm --colorImages /sdcard/revenge_of_the_skiabot/images/colorspace --nameByHash --properties gitHash abc123 builder Test-Android-Clang-Nexus10-CPU-Exynos5250-arm-Release-All-Android buildbucket_build_id 123454321 swarming_bot_id skia-bot-123 swarming_task_id 123456 --svgs /sdcard/revenge_of_the_skiabot/svgs --key arch arm compiler Clang configuration Release cpu_or_gpu CPU cpu_or_gpu_value Exynos5250 extra_config Android model Nexus10 os Android --uninterestingHashesFile /sdcard/revenge_of_the_skiabot/uninteresting_hashes.txt --writePath /sdcard/revenge_of_the_skiabot/dm_out --dont_write pdf --ignoreSigInt --nogpu --config 8888 srgb serialize-8888 tiles_rt-8888 pic-8888 --src tests gm image colorImage --blacklist _ test _ GrShape serialize-8888 gm _ bleed_image serialize-8888 gm _ c_gms serialize-8888 gm _ colortype serialize-8888 gm _ colortype_xfermodes serialize-8888 gm _ drawfilter serialize-8888 gm _ fontmgr_bounds_0.75_0 serialize-8888 gm _ fontmgr_bounds_1_-0.25 serialize-8888 gm _ fontmgr_bounds serialize-8888 gm _ fontmgr_match serialize-8888 gm _ fontmgr_iter serialize-8888 gm _ imagemasksubset serialize-8888 gm _ bitmapfilters serialize-8888 gm _ bitmapshaders serialize-8888 gm _ bleed serialize-8888 gm _ bleed_alpha_bmp serialize-8888 gm _ bleed_alpha_bmp_shader serialize-8888 gm _ convex_poly_clip serialize-8888 gm _ extractalpha serialize-8888 gm _ filterbitmap_checkerboard_32_32_g8 serialize-8888 gm _ filterbitmap_image_mandrill_64 serialize-8888 gm _ shadows serialize-8888 gm _ simpleaaclip_aaclip serialize-8888 gm _ composeshader_bitmap serialize-8888 gm _ scaled_tilemodes_npot serialize-8888 gm _ scaled_tilemodes serialize-8888 gm _ typefacerendering_pfaMac serialize-8888 gm _ parsedpaths serialize-8888 gm _ ImageGeneratorExternal_rect serialize-8888 gm _ ImageGeneratorExternal_shader serialize-8888 gm _ shadow_utils serialize-8888 gm _ all_bitmap_configs serialize-8888 gm _ makecolorspace serialize-8888 gm _ analytic_antialias_convex serialize-8888 gm _ bleed_alpha_image serialize-8888 gm _ bleed_alpha_image_shader serialize-8888 gm _ verylargebitmap serialize-8888 gm _ verylarge_picture_image pic-8888 gm _ drawfilter pic-8888 gm _ image-cacherator-from-picture serialize-8888 gm _ image-cacherator-from-picture pic-8888 gm _ image-cacherator-from-raster serialize-8888 gm _ image-cacherator-from-raster pic-8888 gm _ image-cacherator-from-ctable serialize-8888 gm _ image-cacherator-from-ctable pic-8888 gm _ gamut serialize-8888 gm _ gamut pic-8888 gm _ complexclip4_bw serialize-8888 gm _ complexclip4_bw pic-8888 gm _ complexclip4_aa serialize-8888 gm _ complexclip4_aa tiles_rt-8888 gm _ complexclip4_bw tiles_rt-8888 gm _ complexclip4_aa --match ~CopySurface ~SRGBReadWritePixels --nonativeFonts --verbose; echo $? >/data/local/tmp/rc",
"[START_DIR]/tmp/dm.sh"
],
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "write dm.sh"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"push",
"[START_DIR]/tmp/dm.sh",
"/data/local/tmp/"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "push dm.sh"
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"logcat",
"-c"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "clear log"
},
{
"cmd": [
"python",
"-u",
"\nimport subprocess\nimport sys\nbin_dir = sys.argv[1]\nsh = sys.argv[2]\nsubprocess.check_call(['/usr/bin/adb.1.0.35', 'shell', 'sh', bin_dir + sh])\ntry:\n sys.exit(int(subprocess.check_output(['/usr/bin/adb.1.0.35', 'shell', 'cat',\n bin_dir + 'rc'])))\nexcept ValueError:\n print \"Couldn't read the return code. Probably killed for OOM.\"\n sys.exit(1)\n",
"/data/local/tmp/",
"dm.sh"
],
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"name": "dm",
"~followup_annotations": [
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@import subprocess@@@",
"@@@STEP_LOG_LINE@python.inline@import sys@@@",
"@@@STEP_LOG_LINE@python.inline@bin_dir = sys.argv[1]@@@",
"@@@STEP_LOG_LINE@python.inline@sh = sys.argv[2]@@@",
"@@@STEP_LOG_LINE@python.inline@subprocess.check_call(['/usr/bin/adb.1.0.35', 'shell', 'sh', bin_dir + sh])@@@",
"@@@STEP_LOG_LINE@python.inline@try:@@@",
"@@@STEP_LOG_LINE@python.inline@ sys.exit(int(subprocess.check_output(['/usr/bin/adb.1.0.35', 'shell', 'cat',@@@",
"@@@STEP_LOG_LINE@python.inline@ bin_dir + 'rc'])))@@@",
"@@@STEP_LOG_LINE@python.inline@except ValueError:@@@",
"@@@STEP_LOG_LINE@python.inline@ print \"Couldn't read the return code. Probably killed for OOM.\"@@@",
"@@@STEP_LOG_LINE@python.inline@ sys.exit(1)@@@",
"@@@STEP_LOG_END@python.inline@@@"
]
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"pull",
"/sdcard/revenge_of_the_skiabot/dm_out",
"[CUSTOM_[SWARM_OUT_DIR]]/dm"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "pull /sdcard/revenge_of_the_skiabot/dm_out [CUSTOM_[SWARM_OUT_DIR]]/dm"
},
{
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nout = sys.argv[1]\nlog = subprocess.check_output(['/usr/bin/adb.1.0.35', 'logcat', '-d'])\nfor line in log.split('\\n'):\n tokens = line.split()\n if len(tokens) == 11 and tokens[-7] == 'F' and tokens[-3] == 'pc':\n addr, path = tokens[-2:]\n local = os.path.join(out, os.path.basename(path))\n if os.path.exists(local):\n sym = subprocess.check_output(['addr2line', '-Cfpe', local, addr])\n line = line.replace(addr, addr + ' ' + sym.strip())\n print line\n",
"[START_DIR]/out/Release"
],
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "dump log",
"timeout": 300,
"~followup_annotations": [
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@import os@@@",
"@@@STEP_LOG_LINE@python.inline@import subprocess@@@",
"@@@STEP_LOG_LINE@python.inline@import sys@@@",
"@@@STEP_LOG_LINE@python.inline@out = sys.argv[1]@@@",
"@@@STEP_LOG_LINE@python.inline@log = subprocess.check_output(['/usr/bin/adb.1.0.35', 'logcat', '-d'])@@@",
"@@@STEP_LOG_LINE@python.inline@for line in log.split('\\n'):@@@",
"@@@STEP_LOG_LINE@python.inline@ tokens = line.split()@@@",
"@@@STEP_LOG_LINE@python.inline@ if len(tokens) == 11 and tokens[-7] == 'F' and tokens[-3] == 'pc':@@@",
"@@@STEP_LOG_LINE@python.inline@ addr, path = tokens[-2:]@@@",
"@@@STEP_LOG_LINE@python.inline@ local = os.path.join(out, os.path.basename(path))@@@",
"@@@STEP_LOG_LINE@python.inline@ if os.path.exists(local):@@@",
"@@@STEP_LOG_LINE@python.inline@ sym = subprocess.check_output(['addr2line', '-Cfpe', local, addr])@@@",
"@@@STEP_LOG_LINE@python.inline@ line = line.replace(addr, addr + ' ' + sym.strip())@@@",
"@@@STEP_LOG_LINE@python.inline@ print line@@@",
"@@@STEP_LOG_END@python.inline@@@"
]
},
{
"cmd": [
"/usr/bin/adb.1.0.35",
"kill-server"
],
"cwd": "[START_DIR]/skia",
"env": {
"BUILDTYPE": "Release",
"CHROME_HEADLESS": "1",
"PATH": "<PATH>:RECIPE_PACKAGE_REPO[depot_tools]",
"SKIA_OUT": "[START_DIR]/out"
},
"infra_step": true,
"name": "kill adb server"
},
{
"name": "$result",
"recipe_result": null,
"status_code": 0
}
]

10
infra/bots/recipes/test.expected/Test-Android-Clang-Nexus5-GPU-Adreno330-arm-Release-All-Android.json
View File

@ -657,7 +657,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Nexus5",
"1.0"
@ -686,13 +686,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/test.expected/Test-Android-Clang-Nexus7-CPU-Tegra3-arm-Release-All-Android.json
View File

@ -657,7 +657,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Nexus7",
"1.0"
@ -686,13 +686,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/test.expected/Test-Android-Clang-Nexus7-GPU-Tegra3-arm-Debug-All-Android.json
View File

@ -657,7 +657,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Nexus7",
"1.0"
@ -686,13 +686,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/test.expected/Test-Android-Clang-NexusPlayer-CPU-Moorefield-x86-Release-All-Android.json
View File

@ -657,7 +657,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"1.0"
@ -686,13 +686,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/test.expected/Test-Android-Clang-NexusPlayer-GPU-PowerVR-x86-Release-All-Android_Vulkan.json
View File

@ -657,7 +657,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"NexusPlayer",
"1.0"
@ -686,13 +686,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/test.expected/Test-Android-Clang-Pixel-GPU-Adreno530-arm64-Debug-All-Android_CCPR.json
View File

@ -657,7 +657,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Pixel",
"1.0"
@ -686,13 +686,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/test.expected/Test-Android-Clang-Pixel-GPU-Adreno530-arm64-Debug-All-Android_Vulkan.json
View File

@ -657,7 +657,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Pixel",
"1.0"
@ -686,13 +686,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/test.expected/Test-Android-Clang-PixelC-CPU-TegraX1-arm64-Debug-All-Android.json
View File

@ -657,7 +657,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"PixelC",
"1.0"
@ -686,13 +686,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/test.expected/failed_get_hashes.json
View File

@ -659,7 +659,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Nexus7",
"1.0"
@ -688,13 +688,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

10
infra/bots/recipes/test.expected/failed_pull.json
View File

@ -657,7 +657,7 @@
"cmd": [
"python",
"-u",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus10':\n # Nexus10 doesn't list available frequencies, but it does give a\n # min and a max and seems to round to the nearest 100khz, so a\n # subset of those available are here.\n available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,\n 1400000, 1700000]\nelif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"\nimport os\nimport subprocess\nimport sys\nimport time\nADB = sys.argv[1]\nmodel = sys.argv[2]\ntarget_percent = float(sys.argv[3])\nlog = subprocess.check_output([ADB, 'root'])\n# check for message like 'adbd cannot run as root in production builds'\nprint log\nif 'cannot' in log:\n raise Exception('adb root failed')\n\nif model == 'Nexus7':\n # Nexus7 claims to support 1300000, but only really allows 1200000\n available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,\n 860000, 1000000, 1100000, 1200000]\nelse:\n # Temporary logging to get a sense of what devices have multiple cpus\n try:\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/affected_cpus'])\n print subprocess.check_output([ADB, 'shell', 'cat ',\n '/sys/devices/system/cpu/cpu?/cpufreq/scaling_available_frequencies'])\n except Exception as e:\n print e.output.strip()\n # Most devices give a list of their available frequencies.\n available_freqs = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies'])\n\n # Check for message like '/system/bin/sh: file not found'\n if available_freqs and '/system/bin/sh' not in available_freqs:\n available_freqs = sorted(\n int(i) for i in available_freqs.strip().split())\n else:\n raise Exception('Could not get list of available frequencies: %s' %\n available_freqs)\n\nmaxfreq = available_freqs[-1]\ntarget = int(round(maxfreq * target_percent))\nfreq = maxfreq\nfor f in reversed(available_freqs):\n if f <= target:\n freq = f\n break\n\nprint 'Setting frequency to %d' % freq\n\nsubprocess.check_output([ADB, 'shell', 'echo \"userspace\" > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor'])\n# If scaling_max_freq is lower than our attempted setting, it won't take.\n# We must set min first, because if we try to set max to be less than min\n# (which sometimes happens after certain devices reboot) it returns a\n# perplexing permissions error.\nsubprocess.check_output([ADB, 'shell', 'echo 0 > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq'])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq' % freq])\nsubprocess.check_output([ADB, 'shell', 'echo %d > '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_setspeed' % freq])\ntime.sleep(5)\nactual_freq = subprocess.check_output([ADB, 'shell', 'cat '\n '/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq']).strip()\nif actual_freq != str(freq):\n raise Exception('(actual, expected) (%s, %d)'\n % (actual_freq, freq))\n",
"/usr/bin/adb.1.0.35",
"Nexus7",
"1.0"
@ -686,13 +686,7 @@
"@@@STEP_LOG_LINE@python.inline@if 'cannot' in log:@@@",
"@@@STEP_LOG_LINE@python.inline@ raise Exception('adb root failed')@@@",
"@@@STEP_LOG_LINE@python.inline@@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus10':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus10 doesn't list available frequencies, but it does give a@@@",
"@@@STEP_LOG_LINE@python.inline@ # min and a max and seems to round to the nearest 100khz, so a@@@",
"@@@STEP_LOG_LINE@python.inline@ # subset of those available are here.@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [200000, 400000, 600000, 800000, 1000000, 1200000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 1400000, 1700000]@@@",
"@@@STEP_LOG_LINE@python.inline@elif model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@if model == 'Nexus7':@@@",
"@@@STEP_LOG_LINE@python.inline@ # Nexus7 claims to support 1300000, but only really allows 1200000@@@",
"@@@STEP_LOG_LINE@python.inline@ available_freqs = [51000, 102000, 204000, 340000, 475000, 640000, 760000,@@@",
"@@@STEP_LOG_LINE@python.inline@ 860000, 1000000, 1100000, 1200000]@@@",

6
infra/bots/recipes/test.py
View File

@ -79,7 +79,6 @@ def dm_flags(api, bot):
# is ignored and dm will keep attempting to proceed until we actually
# exhaust the available resources.
if ('NexusPlayer' in bot or
'Nexus10' in bot or
'PixelC' in bot):
args.append('--ignoreSigInt')
@ -525,10 +524,6 @@ def dm_flags(api, bot):
match.append('~blur_0.01')
match.append('~GM_animated-image-blurs')
if 'Nexus10' in bot:
match.append('~CopySurface') # skia:5509
match.append('~SRGBReadWritePixels') # skia:6097
if 'GalaxyS6' in bot:
match.append('~SpecialImage') # skia:6338
match.append('~skbug6653') # skia:6653
@ -904,7 +899,6 @@ TEST_BUILDERS = [
'Test-Android-Clang-GalaxyS7_G930A-GPU-Adreno530-arm64-Debug-All-Android',
'Test-Android-Clang-NVIDIA_Shield-GPU-TegraX1-arm64-Debug-All-Android',
'Test-Android-Clang-NVIDIA_Shield-GPU-TegraX1-arm64-Debug-All-Android_CCPR',
'Test-Android-Clang-Nexus10-CPU-Exynos5250-arm-Release-All-Android',
'Test-Android-Clang-Nexus5-GPU-Adreno330-arm-Release-All-Android',
'Test-Android-Clang-Nexus7-CPU-Tegra3-arm-Release-All-Android',
'Test-Android-Clang-Nexus7-GPU-Tegra3-arm-Debug-All-Android',

247
infra/bots/tasks.json
View File

@ -632,18 +632,6 @@
"Upload-Perf-Android-Clang-NVIDIA_Shield-GPU-TegraX1-arm64-Release-All-Android_Vulkan"
]
},
"Perf-Android-Clang-Nexus10-CPU-Exynos5250-arm-Debug-All-Android": {
"priority": 0.8,
"tasks": [
"Perf-Android-Clang-Nexus10-CPU-Exynos5250-arm-Debug-All-Android"
]
},
"Perf-Android-Clang-Nexus10-CPU-Exynos5250-arm-Release-All-Android": {
"priority": 0.8,
"tasks": [
"Upload-Perf-Android-Clang-Nexus10-CPU-Exynos5250-arm-Release-All-Android"
]
},
"Perf-Android-Clang-Nexus5-CPU-Snapdragon800-arm-Debug-All-Android": {
"priority": 0.8,
"tasks": [
@ -1743,18 +1731,6 @@
"Upload-Test-Android-Clang-NVIDIA_Shield-GPU-TegraX1-arm64-Release-All-Android_Vulkan"
]
},
"Test-Android-Clang-Nexus10-CPU-Exynos5250-arm-Debug-All-Android": {
"priority": 0.8,
"tasks": [
"Upload-Test-Android-Clang-Nexus10-CPU-Exynos5250-arm-Debug-All-Android"
]
},
"Test-Android-Clang-Nexus10-CPU-Exynos5250-arm-Release-All-Android": {
"priority": 0.8,
"tasks": [
"Upload-Test-Android-Clang-Nexus10-CPU-Exynos5250-arm-Release-All-Android"
]
},
"Test-Android-Clang-Nexus5-CPU-Snapdragon800-arm-Debug-All-Android": {
"priority": 0.8,
"tasks": [
@ -6002,76 +5978,6 @@
"max_attempts": 1,
"priority": 0.8
},
"Perf-Android-Clang-Nexus10-CPU-Exynos5250-arm-Debug-All-Android": {
"dependencies": [
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@ -13854,78 +13760,6 @@
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@ -23676,33 +23510,6 @@
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@ -26268,60 +26075,6 @@
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