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py-veosinfo

build sdist workflow

Introduction

Python bindings to libveosinfo that provides various details on the SX-Aurora Vector Engines located in the current host:

  • lists VEs in the system and their state,
  • information in the VE architecture,
  • information on caches, frequencies of each VE core,
  • load and memory statistics of VEs,
  • information on processes running on the VEs,
  • fan, temperature, voltage of VEs,
  • reading and setting the VE core affinity of processes,
  • various statistical infos,
  • a mechanism to read VE register values of own processes.

Not all calls of libveosinfo are implemented in these Python bindings.

Build / Install

When installing from PYPI the module requires the package veosinfo-devel to be installed.

pip install py-veosinfo

The module can be built from the cloned github repository, in that case you must install cython.

git clone https://github.com/sx-aurora/py-veosinfo.git
cd py-veosinfo
make install
# or
make rpm

Building inside a virtualenv is easy, but it is recommended to build RPMs from the source RPM outside the virtualenv, in order to get the paths right.

Usage

In your python program import the veosinfo python module, for example by doing:

from veosinfo import *

Call the veosinfo functions.

The semantics and results were pythonified somewhat, we're not just calling certain C library functions, but transform return structure data into dicts, etc.

Functions (from libveosinfo)

The usage example outputs have been slightly edited to fit better on screen.

acct(int nodeid, char *filename)

Enable and disable process accounting.

Parameters:

  • nodeid: specify VE node,
  • filename: file for recording accounting data.

Returns 0 on success, -1 on failure.

arch_info(int nodeid)

Return a dict with VE architecture details.

Parameter:

  • nodeid: specify VE node.

Returns 0 on success, -1 on error.

Example:

>>> arch_info(0)
{'machine': 've', 'hw_platform': 've', 'processor': 've'}

check_pid(int nodeid, int pid)

Check whether a given pid exists as process on a given VE.

Parameters:

  • nodeid: specify VE node,
  • pid: process ID to be checked.

Returns 0 or 1 on success and -1 on failure:

  • the value 0 indicates that pid is a valid process on the specified nodeid.
  • the value 1 indicates thet pid does not rexist on the specified nodeid.

core_info(int nodeid)

Returns the number of cores of a given VE specified by nodeid.

Example:

>>> core_info(0)
8

cpu_info(int nodeid)

Returns a dict with CPU information for the specified nodeid. The dict contains the attributes like modelname, vendor, family, stepping, mhz, cache_size, cores, model, cache_name.

Example:

>>> cpu_info(0)
{'modelname': 'VE_1_136', 'vendor': '0x1bcf', 'family': '1', 'bogomips': '1400', 'nnodes': 1,
 'stepping': '0', 'core_per_socket': 8, 'op_mode': '64 bit', 'socket': 1, 'thread_per_core': 1,
 'mhz': '1400', 'cache_size': [32, 32, 256, 16384], 'cores': 8, 'model': '136',
 'cache_name': ['cache_l1i', 'cache_l1d', 'cache_l2', 'cache_llc']}

cpufreq_info(int nodeid)

Returns the CPU frequency of the specified nodeid.

Example:

>>> cpufreq_info(0)
1400L

get_regvals(int nodeid, pid_t pid, list regid)

Returns an array of register values for the VE process pid running on VE nodeid. The values correspond to the array of register offsets regid. Symbolic register offsets are available, eg. USRCC, PMC00, S08, etc... At most 64 registers can be retrieved in one call.

Example:

>>> get_regvals(0, 246283, [USRCC, PMC00, PMC01])
[37939912918L, 38751941050L, 15117305941L]

loadavg_info(int nodeid)

Returns a dict with the usual Linux load averages over 1, 5 and 15 minutes of the VE specified by nodeid.

Example:

>>> loadavg_info(0)
{'av_5': 0.0, 'av_15': 0.0, 'total_proc': 0, 'av_1': 0.0, 'runnable': 0}

mem_info(int nodeid)

Retrieve memory information of the specified VE nodeid.

Example:

>>> mem_info(0)
{'kb_committed_as': 0L, 'kb_hugepage_used': 131072L, 'kb_low_total': 0L, 'kb_swap_cached': 0L,
 'kb_dirty': 0L, 'kb_main_total': 50331648L, 'kb_main_free': 50200576L, 'kb_swap_total': 0L,
 'kb_main_used': 131072L, 'kb_high_total': 0L, 'hugepage_free': 0L, 'kb_low_free': 0L,
 'kb_high_free': 0L, 'kb_active': 0L, 'kb_main_buffers': 0L, 'kb_swap_free': 0L,
 'kb_main_cached': 0L, 'kb_main_shared': 0L, 'kb_inactive': 0L, 'hugepage_total': 0L}

numa_info(int nodeid)

Return NUMA stats dict for the specified VE nodeid.

Example:

>>> numa_info(0)
{'mem_free': [25635586048L, 25769803776L], 'mem_size': [25769803776L, 25769803776L], 've_core': ['f', 'f0'], 'tot_numa_nodes': 2}

node_info()

Return information on online and offline VE nodes in the system.

Example:

>>> node_info()
{'status': [0], 'cores': [8], 'nodeid': [0], 'total_node_count': 1}

pidstat_info(int nodeid, pid_t pid)

Returns a dict with statistics of the VE process specified by pid on the VE node nodeid.

Example:

>>> pidstat_info(0, 334575)
{'min_flt': 0L, 'cutime': 0L, 'rss': 7680000, 'endcode': 105553117303192L, 'ksteip': 139716362733200L,
 'wchan': 0L, 'cguest_time': 0, 'start_time': 2709686L, 'cstime': 0L, 'maj_delta': 0L, 'cmaj_flt': 0L,
 'nswap': 0L, 'cmin_flt': 0L, 'stime': 0L, 'startstack': 106652627894256L, 'kstesp': 106652627890808L,
 'startcode': 105553116266496L, 'guest_time': 0, 'utime': 36888115L, 'cnswap': 0L, 'min_delta': 0L,
 'rsslim': 18446744073709551615L, 'maj_flt': 0L, 'rt_priority': 0, 'cmd': 'sgemm', 'priority': 20,
 'blkio': 0L, 'state': 82, 'flags': 0L, 'whole': False, 'policy': 0, 'ppid': 1, 'vsize': 7864320000L,
 'processor': 0, 'itrealvalue': 0L, 'nice': 0}

read_fan(int nodeid)

Returns information about the fan speeds of a certain VE node.

Example:

>>> read_fan(0)
{'count': 0, 
 'fan_min': [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0], 
 'fan_speed': [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0], 
 'fan_max': [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0],
 'device_name': ['', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '']}

read_temp(int nodeid)

Returns information about the temperature sensors of the specified VE node nodeid.

Example:

>>> read_temp(0)
{'count': 19, 
 'temp_max': [125.0, 125.0, 125.0, 125.0, 125.0, 125.0, 125.0, 125.0, 2.0, 125.0, 125.0, 125.0, 125.0, 125.0, 125.0, 125.0, 125.0, 125.0, 125.0, 0.0], 
 've_temp': [36.125, 36.375, 36.0, 36.375, 36.5, 36.625, 36.125, 36.125, 29.0, 27.75, 33.5, 36.5, 25.75, 31.0, 32.0, 32.0, 31.0, 32.0, 31.0, 0.0], 
 'temp_min': [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0], 
 'device_name': ['ve_core0_temp', 've_core1_temp', 've_core2_temp', 've_core3_temp', 've_core4_temp',
                 've_core5_temp', 've_core6_temp', 've_core7_temp', 've_temp_bracket', 've_temp_adt7462',
                 've_temp_ve_diode_0', 've_temp_ve_diode_1', 've_temp_aux', 've_hbm0_temp',
                 've_hbm1_temp', 've_hbm2_temp', 've_hbm3_temp', 've_hbm4_temp', 've_hbm5_temp', '']}

read_voltage(int nodeid)

Returns voltage information of several sensors on the specified VE.

Example:

>>> read_voltage(0)
{'count': 14, 
 'cpu_volt': [0.8875, 0.9048, 1.245699, 1.243502, 1.243502, 1.245699, 2.473822, 1.770782, 11.875, 11.8125, 3.4572, 0.89, 0.89, 0.89125, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0], 
 'volt_max': [1.0, 1.0, 2.0, 2.0, 2.0, 2.0, 4.0, 2.0, 16.0, 16.0, 4.0, 2.0, 2.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0], 
 'volt_min': [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0], 
 'device_name': ['ve_vdd', 've_avdd', 've_hbm_e_vddc', 've_hbm_e_vddq', 've_hbm_w_vddc',
                 've_hbm_w_vddq', 've_vpp', 've_vddh', 've_power_edge_12v', 've_eps12v',
                 've_power_edge_3.3v', 've_core_vdd0', 've_core_vdd1', 've_pll_089',
                 '', '', '', '', '', '']}

sched_getaffinity(int nodeid, pid_t pid) and sched_setaffinity(int nodeid, pid_t pid, uint64_t mask)

A VE thread's CPU affinity mask determines the set of cores on its VE node on which it is eligible to run. These functions are equivalent to the normal Linux sched_getaffinity(2) and sched_setaffinity(2) calls but refers to a particular pid running on a particular nodeid. Setting the VE core affinity of a thread requires as third argument a bitmask that specifies the cores. For 8 cores only the lowest 8 bits are relevant.

The functions return 0 on success and -1 on failure.

Example:

>>> from veosinfo import *
>>> sched_getaffinity(0, 23360)
255L
>>> sched_setaffinity(0, 23360, 0x4)
4L
>>> sched_getaffinity(0, 23360)
4L

stat_info(int nodeid)

Returns CPU statistics information of each code of the specified VE.

Example:

>>> stat_info(0)
{'btime': 1519312224282053L, 'processes': 270, 'softirq': [0L, 0L, 0L, 0L, 0L, 0L, 0L, 0L],
 'iowait': [0L, 0L, 0L, 0L, 0L, 0L, 0L, 0L], 'hardirq': [0L, 0L, 0L, 0L, 0L, 0L, 0L, 0L],
 'running': 0, 'guest': [0L, 0L, 0L, 0L, 0L, 0L, 0L, 0L], 'sys': [0L, 0L, 0L, 0L, 0L, 0L, 0L, 0L],
 'idle': [18035571395L, 18381719995L, 18381772644L, 18381423124L, 18381746994L, 18381771739L, 18169013077L, 18381422057L],
 'user': [449605113L, 103456497L, 103403842L, 103753357L, 103429482L, 103404732L, 316163387L, 103754403L],
 'guest_nice': [0L, 0L, 0L, 0L, 0L, 0L, 0L, 0L], 'intr': 0, 'blocked': 0,
 'steal': [0L, 0L, 0L, 0L, 0L, 0L, 0L, 0L], 'ctxt': 262, 'nice': [0L, 0L, 0L, 0L, 0L, 0L, 0L, 0L]}

uptime_info(int nodeid)

Uptime in seconds of the specified VE nodeid. This is the time since the latest boot of VEOS for that VE.

Example:

>>> uptime_info(0)
386214.28571428574

vmstat_info(int nodeid)

Returns virtual memory statistics information of the specified VE node.

Example:

>>> vmstat_info(0)
{'pswpout': 0L, 'pgscan_direct': 0L, 'pswpin': 0L, 'pgmajfault': 0L,
 'pgfault': 0L, 'pgscan_kswapd': 0L, 'pgsteal': 0L, 'pgfree': 0L}

ve_sysfs_path(int nodeid)

Return VE sysfs path corresponding to a certain VE nodeid.

Example:

>>> ve_sysfs_path(0)
'/sys/devices/pci0000:64/0000:64:00.0/0000:65:00.0/ve/ve1'

Added functionality beyond libveosinfo

VE Register Offsets

The VE registers readable with get_regvals() must be addressed with their offsets in the register "file". These offsets are available in the Python veosinfo module as constants. Their names are the symbolic names used inside VEOS:

  • USRCC: User Clock Counter.
  • PMC00 - PMC15: Performance Monitoring Counters.
  • PSW: Process Status Word.
  • EXS: Execution Status and Control Register.
  • IC: Instruction Counter or instruction pointer.
  • ICE: Exception IC Register, approximate instruction counter at an exception.
  • VIXR: Vector Index Register, used for indirect access to vector registers.
  • VL: Vector Length Register.
  • SAR: Store Address Register, holds an address for generating address match interrupts for store operations to it.
  • PMMR: Performance Monitoring Mode Register.
  • PMCR00 - PMCR04: Performance Monitoring Configuration Registers.
  • SR00 - SR63: Scalar Registers.

ve_pids(int nodeid)

List of task IDs running on a certain VE node. This is created by reading the file task_id_all from the directory returned by ve_sysfs_path().

Example:

>>> ve_pids(0)
[298038, 298002]

ve_pid_perf(int nodeid, int pid)

Create a dict with performance counter values for a certain pid on a VE nodeid. The counters correspond to the settings in the PMMR register, which decide upon the counters actually measured in the various PMC registers. ve_pid_perf() also adds the key "T" which contains the epoch (time in seconds since January 1, 12:00am 1970) at the measurement.

Consecutive calls of ve_pid_perf() are used to calculate performance metrics of running VE programs in the tools veperf.

Example:

>>> ve_pid_perf(0, 298002)
{'VLEC': 474579296208L, 'VLCME': 19891534L, 'VE2': 8062493240158L, 'VE': 8062492910686L,
 'PCCC': 37961384L, 'VECC': 79381274156L, 'VLDEC': 212519229L, 'USRCC': 79385051298L,
 'FPEC': 15167113230887L, 'FMAEC': 7583557736960L, 'EX': 81071288934L, 'TTCC': 0L,
 'VX': 31640583719L, 'L1MCC': 270252L, 'VAREC': 79167929328L, 'VLDCC': 30875413736L,
 'PTCC': 0L, 'T': 1544384688.252721}

For an explanation of the meaning of the performance counters, please consult the "SX-Aurora TSUBASA Architectur Guide".