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� ���Yc@s�ddlZddlZddlZdZd�Zdd'd��YZdd(d��YZdd)d ��YZd d*d��YZdd+d ��YZ dd,d��YZ dd-d��YZdd.d��YZdd/d��YZ dd0d��YZdd1d��YZedkr�ddlZe �Zx-ej j�D]Zdeej efGHq5We �Zx-ejj�D]ZdeejefGHqnWe�ZdejGHx'ej�D]ZdeeefGHq�Wddd GHe eejd!��Zx:eej�D])Zd"ejej ejej!fGHqWdd GHx'ej"ejd#�D]Z#e#d$GHqPWe�Z$e$d!GHe�Z%xOe&r�ej'd!�e%j(�x#e%D]Zd%ej!ej)fGHq�Wd2GHq�WndS(3i����Ns0.3cCs0|dr$td�|d�j�S|ddS(s� Returns the process command line, if available in the given `process' class, if not available, falls back to using the comm (short process name) in its pidstat key. tcmdlinecSs|d|S(Ns %s((tatb((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyt<lambda>ststattcomm(treducetstrip(tpid_info((s1/usr/lib/python2.7/site-packages/procfs/procfs.pytprocess_cmdlines tpidstatc+Bs�eZdZdZdZdZdZdZdZdZ dZ d Zd ZdZ dZd Zd ZdZdZdZdZdZdZdZdZdZdZdZdZdZdZdZdZ dZ!dZ"dZ#dZ$d Z%d Z&d!d"d#d$d%d&d'd(d)d*d+d,d-d.d/d0d1d2d3d4d5d6d7d8d9d:d;d<d=d>d?d@dAdBdCdDdEdFdGdHdIdJdKg+Z'dLdM�Z(dN�Z)dO�Z*dP�Z+dQ�Z,dR�Z-dS�Z.dLdT�Z/dU�Z0dV�Z1RS(WsProvides a dictionary to access the fields in the per process /proc/PID/stat files. One can obtain the available fields asking for the keys of the dictionary, e.g.: >>> p = procfs.pidstat(1) >>> print p.keys() ['majflt', 'rss', 'cnswap', 'cstime', 'pid', 'session', 'startstack', 'startcode', 'cmajflt', 'blocked', 'exit_signal', 'minflt', 'nswap', 'environ', 'priority', 'state', 'delayacct_blkio_ticks', 'policy', 'rt_priority', 'ppid', 'nice', 'cutime', 'endcode', 'wchan', 'num_threads', 'sigcatch', 'comm', 'stime', 'sigignore', 'tty_nr', 'kstkeip', 'utime', 'tpgid', 'itrealvalue', 'kstkesp', 'rlim', 'signal', 'pgrp', 'flags', 'starttime', 'cminflt', 'vsize', 'processor'] And then access the various process properties using it as a dictionary: >>> print p['comm'] systemd >>> print p['priority'] 20 >>> print p['state'] S Please refer to the 'procfs(5)' man page, by using: $ man 5 procfs To see information for each of the above fields, it is part of the 'man-pages' RPM package. iiiiii i@i�iiiiii i@i�iiiiii i@i�iiiiii i@ltpidRtstatetppidtpgrptsessionttty_nrttpgidtflagstminflttcminflttmajflttcmajflttutimetstimetcutimetcstimetprioritytnicetnum_threadstitrealvaluet starttimetvsizetrsstrlimt startcodetendcodet startstacktkstkesptkstkeiptsignaltblockedt sigignoretsigcatchtwchantnswaptcnswaptexit_signalt processortrt_prioritytpolicytdelayacct_blkio_tickstenvirons/proccCs||_|j|�dS(N(Rtload(tselfRtbasedir((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyt__init__rs cCs|j|S(N(tfields(R6t fieldname((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyt__getitem__vscCs |jj�S(N(R9tkeys(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR<yscCs |jj�S(N(R9tvalues(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR=|scCs|jj|�S(N(R9thas_key(R6R:((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR>scCs|jS(N(R9(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pytitems�scCs ||jkS(N(R9(R6R:((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyt__contains__�scCstd||jf�}|j�j�jd�}|j�|djd�|dj�}i|_tt|�t|j ��}x~t |�D]p}|j |}||}|dkr�|jd�|jd<q�yt|�|j|<Wq�||j|<q�Xq�WdS(Ns %s/%d/stats) is (iRs()(topenRtreadlineRtsplittcloseR9tmintlentproc_stat_fieldstrangetint(R6R7tfR9t nr_fieldstitattrnametvalue((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR5�s ! cCs|jd|j@rtptS(s� Returns true if this process has a fixed smp affinity mask, not allowing it to be moved to a different set of CPUs. R(R9tPF_THREAD_BOUNDtTruetFalse(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pytis_bound_to_cpu�scCsgg}xZt|�D]L}|d dkr/qnt||�}||jd@r|j|�qqW|S(s. Returns a list with all the process flags known, details depend on kernel version, declared in the file include/linux/sched.h in the kernel sources. As of v4.2-rc7 these include (from include/linux/sched.h comments): PF_EXITING Getting shut down PF_EXITPIDONE Pi exit done on shut down PF_VCPU I'm a virtual CPU PF_WQ_WORKER I'm a workqueue worker PF_FORKNOEXEC Forked but didn't exec PF_MCE_PROCESS Process policy on mce errors PF_SUPERPRIV Used super-user privileges PF_DUMPCORE Dumped core PF_SIGNALED Killed by a signal PF_MEMALLOC Allocating memory PF_NPROC_EXCEEDED Set_user noticed that RLIMIT_NPROC was exceeded PF_USED_MATH If unset the fpu must be initialized before use PF_USED_ASYNC Used async_schedule*(), used by module init PF_NOFREEZE This thread should not be frozen PF_FROZEN Frozen for system suspend PF_FSTRANS Inside a filesystem transaction PF_KSWAPD I am kswapd PF_MEMALLOC_NOIO Allocating memory without IO involved PF_LESS_THROTTLE Throttle me less: I clean memory PF_KTHREAD I am a kernel thread PF_RANDOMIZE Randomize virtual address space PF_SWAPWRITE Allowed to write to swap PF_NO_SETAFFINITY Userland is not allowed to meddle with cpus_allowed PF_MCE_EARLY Early kill for mce process policy PF_MUTEX_TESTER Thread belongs to the rt mutex tester PF_FREEZER_SKIP Freezer should not count it as freezable PF_SUSPEND_TASK This thread called freeze_processes and should not be frozen itPF_R(tdirtgetattrR9tappend(R6tsflagstattrRN((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyt process_flags�s%(2t__name__t __module__t__doc__tPF_ALIGNWARNtPF_STARTINGt PF_EXITINGt PF_EXITPIDONEtPF_VCPUtPF_WQ_WORKERt PF_FORKNOEXECtPF_MCE_PROCESStPF_SUPERPRIVtPF_DUMPCOREtPF_SIGNALEDtPF_MEMALLOCtPF_NPROC_EXCEEDEDt PF_FLUSHERtPF_USED_MATHt PF_USED_ASYNCtPF_NOFREEZEt PF_FROZENt PF_FSTRANSt PF_KSWAPDtPF_MEMALLOC_NOIOt PF_SWAPOFFtPF_LESS_THROTTLEt PF_KTHREADtPF_RANDOMIZEtPF_SWAPWRITEtPF_SPREAD_PAGEtPF_SPREAD_SLABROtPF_NO_SETAFFINITYtPF_MCE_EARLYtPF_MEMPOLICYtPF_MUTEX_TESTERtPF_FREEZER_SKIPtPF_FREEZER_NOSIGtPF_SUSPEND_TASKRGR8R;R<R=R>R?R@R5RRRY(((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR #st t pidstatuscBs\eZdZdd�Zd�Zd�Zd�Zd�Zd�Zd�Z dd �Z RS( s� Provides a dictionary to access the fields in the per process /proc/PID/status files. This provides additional information about processes and threads to what can be obtained with the procfs.pidstat() class. One can obtain the available fields asking for the keys of the dictionary, e.g.: >>> import procfs >>> p = procfs.pidstatus(1) >>> print p.keys() ['VmExe', 'CapBnd', 'NSpgid', 'Tgid', 'NSpid', 'VmSize', 'VmPMD', 'ShdPnd', 'State', 'Gid', 'nonvoluntary_ctxt_switches', 'SigIgn', 'VmStk', 'VmData', 'SigCgt', 'CapEff', 'VmPTE', 'Groups', 'NStgid', 'Threads', 'PPid', 'VmHWM', 'NSsid', 'VmSwap', 'Name', 'SigBlk', 'Mems_allowed_list', 'VmPeak', 'Ngid', 'VmLck', 'SigQ', 'VmPin', 'Mems_allowed', 'CapPrm', 'Seccomp', 'VmLib', 'Cpus_allowed', 'Uid', 'SigPnd', 'Pid', 'Cpus_allowed_list', 'TracerPid', 'CapInh', 'voluntary_ctxt_switches', 'VmRSS', 'FDSize'] >>> print p["Pid"] 1 >>> print p["Threads"] 1 >>> print p["VmExe"] 1248 kB >>> print p["Cpus_allowed"] f >>> print p["SigQ"] 0/30698 >>> print p["VmPeak"] 320300 kB >>> Please refer to the 'procfs(5)' man page, by using: $ man 5 procfs To see information for each of the above fields, it is part of the 'man-pages' RPM package. In the man page there will be references to further documentation, like referring to the "getrlimit(2)" man page when explaining the "SigQ" line/field. s/proccCs||_|j|�dS(N(RR5(R6RR7((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR8�s cCs|j|S(N(R9(R6R:((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR;�scCs |jj�S(N(R9R<(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR<�scCs |jj�S(N(R9R=(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR=scCs|jj|�S(N(R9R>(R6R:((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR>scCs|jS(N(R9(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR?scCs ||jkS(N(R9(R6R:((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR@ scCs�td||jf�}i|_x�|j�D]u}|jd�}t|�dkr\q/n|d}|dj�}yt|�|j|<Wq/||j|<q/Xq/W|j�dS(Ns%s/%d/statust:iii( RARR9t readlinesRCRFRRIRD(R6R7RJtlineR9tnameRN((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR5 s (RZR[R\R8R;R<R=R>R?R@R5(((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR��s$ tprocesscBsYeZdZdd�Zd�Zd�Zd�Zd�Zd�Zd�Z d �Z RS( s Information about a process with a given pid, provides a dictionary with two entries, instances of different wrappers for /proc/ process related meta files: "stat" and "status", see the documentation for procfs.pidstat and procfs.pidstatus for further info about those classes. s/proccCs||_||_dS(N(RR7(R6RR7((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR8$s cCs�t||�s�|dkrX|dkr0t}nt}t||||j|j��q�|dkrq|j�q�|dkr�|j�q�|dkr�|j�q�|dkr�|j �q�nt ||�S(NRtstatusRtthreadstcgroupsR4(sstatR�(thasattrR R�tsetattrRR7tload_cmdlinetload_threadstload_cgroupstload_environRU(R6RXtsclass((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR;(s " cCs t||�S(N(R�(R6RX((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR><scCs t||�S(N(R�(R6RX((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR@?scCsCtd|j�}|j�j�jd�d |_|j�dS(Ns/proc/%d/cmdlineti����(tfileRRBRRCRRD(R6RJ((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�Bs"cCs'td|j�|_|j|j=dS(Ns/proc/%d/task/(tpidstatsRR�(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�GscCs~td|j�}d|_xQt|j��D]=}t|j�r_|jd|d |_q/|d |_q/W|j�dS(Ns/proc/%d/cgrouptt,i����(R�RR�treversedR�RFRD(R6RJR�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�Ls cCs�i|_td|j�}xV|j�jd�D]?}t|�dkr2|jd�}|d|j|d<q2q2W|j�dS(s� Loads the environment variables for this process. The entries then become available via the 'environ' member, or via the 'environ' dict key when accessing as p["environ"]. E.g.: >>> all_processes = procfs.pidstats() >>> firefox_pid = all_processes.find_by_name("firefox") >>> firefox_process = all_processes[firefox_pid[0]] >>> print firefox_process["environ"]["PWD"] /home/acme >>> print len(firefox_process.environ.keys()) 66 >>> print firefox_process["environ"]["SHELL"] /bin/bash >>> print firefox_process["environ"]["USERNAME"] acme >>> print firefox_process["environ"]["HOME"] /home/acme >>> print firefox_process["environ"]["MAIL"] /var/spool/mail/acme >>> s/proc/%d/environR�it=iN(R4R�RRBRCRFRD(R6RJtxty((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�Vs (RZR[R\R8R;R>R@R�R�R�R�(((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�s R�cBs�eZdZdd�Zd�Zd�Zd�Zd�Zd�Zd�Z d �Z d �Zd�Zd�Z d �Zd�Zd�Zd�Zd�ZRS(s Provides access to all the processes in the system, to get a picture of how many processes there are at any given moment. The entries can be accessed as a dictionary, keyed by pid. Also there are methods to find processes that match a given COMM or regular expression. s/proccCs ||_i|_|j�dS(N(R7t processestreload(R6R7((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR8�s cCs|j|S(N(R�(R6tkey((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR;�scCsy|j|=WnnXdS(N(R�(R6R�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyt__delitem__�scCs |jj�S(N(R�R<(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR<�scCs |jj�S(N(R�R=(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR=�scCs|jj|�S(N(R�R>(R6R�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR>�scCs|jS(N(R�(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR?�scCs ||jkS(N(R�(R6R�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR@�scCsl|`i|_tj|j�}xD|D]<}yt|�}Wn q(nXt||j�|j|<q(WdS(s� This operation will throw away the current dictionary contents, if any, and read all the pid files from /proc/, instantiating a 'process' instance for each of them. This is a high overhead operation, and should be avoided if the perf python binding can be used to detect when new threads appear and existing ones terminate. In RHEL it is found in the python-perf rpm package. More information about the perf facilities can be found in the 'perf_event_open' man page. N(R�tostlistdirR7RIR�(R6tpidstspidR((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR��s cCsQxJ|jj�D]9}y|j|j�Wqtk rH|j|=qXqWdS(N(R�R<R�tOSError(R6R((s1/usr/lib/python2.7/site-packages/procfs/procfs.pytreload_threads�s cCs{|d }g}xd|jj�D]S}y/||j|ddkrT|j|�nWq tk rr|j|=q Xq W|S(NiRR(R�R<RVtIOError(R6R�R�R((s1/usr/lib/python2.7/site-packages/procfs/procfs.pytfind_by_name�s cCstg}xg|jj�D]V}y2|j|j|dd�rM|j|�nWqtk rk|j|=qXqW|S(NRR(R�R<tmatchRVR�(R6tregexR�R((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyt find_by_regex�s cCsrg}xe|jj�D]T}y0|jt|j|��rK|j|�nWqtk ri|j|=qXqW|S(N(R�R<R�R RVR�(R6R�R�R((s1/usr/lib/python2.7/site-packages/procfs/procfs.pytfind_by_cmdline_regex�s c Cs�d}d}g}x�tr�d||f}|j|�}|srtg|D]}||krK|^qK�dkrvPnxM|D]E}y!|d|j|dd7}Wq}tk r�|j|=q}Xq}W||7}|d7}qW|jd�}|S( NiR�s%s/%ds%s,RR1iR�(RPR�RFR�R�R( R6tbasenametcput prioritiestprocessed_pidsR�R�tnR((s1/usr/lib/python2.7/site-packages/procfs/procfs.pytget_per_cpu_rtprios�s" 8 ! cCs�d}d}g}x�tr�|j|�}|sbtg|D]}||kr;|^q;�dkrfPnxM|D]E}y!|d|j|dd7}Wqmtk r�|j|=qmXqmW||7}|d7}qW|jd�}|S(NiR�s%s,RR1iR�(RPR�RFR�R�R(R6R�R�R�R�R�R�R((s1/usr/lib/python2.7/site-packages/procfs/procfs.pytget_rtprioss 8 ! cCs|j|dj�S(sE Checks if a given pid can't have its SMP affinity mask changed. R(R�RR(R6R((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyRRs(RZR[R\R8R;R�R<R=R>R?R@R�R�R�R�R�R�R�RR(((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�xs" t interruptscBszeZdZd�Zd�Zd�Zd�Zd�Zd�Zd�Z d�Z d �Zd �Zd�Z d�ZRS( s4 Information about IRQs in the system. A dictionary keyed by IRQ number will have as its value another dictionary with "cpu", "type" and "users" keys, with the SMP affinity mask, type of IRQ and the drivers associated with each interrupt. The information comes from the /proc/interrupts file, documented in 'man procfs(5)', for instance, the 'cpu' dict is an array with one entry per CPU present in the sistem, each value being the number of interrupts that took place per CPU. E.g.: >>> import procfs >>> interrupts = procfs.interrupts() >>> thunderbolt_irq = interrupts.find_by_user("thunderbolt") >>> print thunderbolt_irq 34 >>> thunderbolt = interrupts[thunderbolt_irq] >>> print thunderbolt {'affinity': [0, 1, 2, 3], 'type': 'PCI-MSI', 'cpu': [3495, 0, 81, 0], 'users': ['thunderbolt']} >>> cCsi|_|j�dS(N(R�R�(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR84s cCs|jt|�S(N(R�tstr(R6R�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR;8scCs |jj�S(N(R�R<(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR<;scCs |jj�S(N(R�R=(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR=>scCs|jjt|��S(N(R�R>R�(R6R�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR>AscCs|jS(N(R�(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR?DscCst|�|jkS(N(R�R�(R6R�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR@GscCs�|`i|_td�}x�|j�D]�}|j�}|j�}|dd dkrot|�|_q(n|djd�}i|j|<|j|d|�|j|<yt|�}Wn q(nX|j |�|j|d<q(W|j �dS(Ns/proc/interruptsiitCPUR�itaffinity(R�RAR�RRCRFtnr_cpustparse_entryRItparse_affinityRD(R6RJR�R9tirqtnirq((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�Js$ cCs�i}g|d<|djt|d��t|�}||jkr�|dcg|d|j!D]}t|�^qa7<||jkr�||j|d<||jdkr�g||djd�D]}|j�^q�|d<q�g|d<q�n|S(NR�iittypeR�tusers(RVRIRFR�RCR(R6R9R�tdictRKRLR((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�`s 37cCsYy=td|�}|j�}|j�tj||j�SWntk rTdgSXdS(Ns/proc/irq/%s/smp_affinityi(R�RBRDtutilisttbitmasklistR�R�(R6R�RJR�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�ps cCsOxH|jj�D]7}|j|jd�r||j|dkr|SqWdS(s� Looks up a interrupt number by the name of one of its users" E.g.: >>> import procfs >>> interrupts = procfs.interrupts() >>> thunderbolt_irq = interrupts.find_by_user("thunderbolt") >>> print thunderbolt_irq 34 >>> thunderbolt = interrupts[thunderbolt_irq] >>> print thunderbolt {'affinity': [0, 1, 2, 3], 'type': 'PCI-MSI', 'cpu': [3495, 0, 81, 0], 'users': ['thunderbolt']} >>> R�N(R�R<R>tNone(R6tuserRL((s1/usr/lib/python2.7/site-packages/procfs/procfs.pytfind_by_userys cCs|g}xo|jj�D]^}|j|jd�s8qnx9|j|dD]&}|j|�rJ|j|�PqJqJWqW|S(s� Looks up a interrupt number by a regex that matches names of its users" E.g.: >>> import procfs >>> import re >>> interrupts = procfs.interrupts() >>> usb_controllers = interrupts.find_by_user_regex(re.compile(".*hcd")) >>> print usb_controllers ['22', '23', '31'] >>> print [ interrupts[irq]["users"] for irq in usb_controllers ] [['ehci_hcd:usb4'], ['ehci_hcd:usb3'], ['xhci_hcd']] >>> R�(R�R<R>R�RV(R6R�tirqsRLR�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pytfind_by_user_regex�s (RZR[R\R8R;R<R=R>R?R@R�R�R�R�R�(((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�s RcBsDeZdZd�Zd�Zd�Zd�Zd�Zd�ZRS(s Parses the kernel command line (/proc/cmdline), turning it into a dictionary." Useful to figure out if some kernel boolean knob has been turned on, as well as to find the value associated to other kernel knobs. It can also be used to find out about parameters passed to the init process, such as 'BOOT_IMAGE', etc. E.g.: >>> import procfs >>> kcmd = procfs.cmdline() >>> print kcmd.keys() ['LANG', 'BOOT_IMAGE', 'quiet', 'rhgb', 'rd.lvm.lv', 'ro', 'root'] >>> print kcmd["BOOT_IMAGE"] /vmlinuz-4.3.0-rc1+ >>> cCsi|_|j�dS(N(toptionstparse(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR8�s cCs�td�}xj|j�j�j�D]P}|jd�}t|�dkr`t|j|d<q%|d|j|d<q%W|j�dS(Ns /proc/cmdlineR�ii(R�RBRRCRFRPR�RD(R6RJtoptionR9((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR��scCs|j|S(N(R�(R6R�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR;�scCs |jj�S(N(R�R<(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR<�scCs |jj�S(N(R�R=(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR=�scCs|jS(N(R�(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR?�s( RZR[R\R8R�R;R<R=R?(((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�s tcpuinfocBsGeZdZdd�Zd�Zd�Zd�Zd�Zd�ZRS(s� Dictionary with information about CPUs in the system. Please refer to 'man procfs(5)' for further information about the '/proc/cpuinfo' file, that is the source of the information provided by this class. The 'man lscpu(1)' also has information about a program that uses the '/proc/cpuinfo' file. Using this class one can obtain the number of CPUs in a system: >>> cpus = procfs.cpuinfo() >>> print cpus.nr_cpus 4 It is also possible to figure out aspects of the CPU topology, such as how many CPU physical sockets exists, i.e. groups of CPUs sharing components such as CPU memory caches: >>> print len(cpus.sockets) 1 Additionally dictionary with information common to all CPUs in the system is available: >>> print cpus["model name"] Intel(R) Core(TM) i7-3667U CPU @ 2.00GHz >>> print cpus["cache size"] 4096 KB >>> s /proc/cpuinfocCs,i|_d|_g|_|j|�dS(Ni(ttagsR�tsocketsR�(R6tfilename((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR8�s cCs|j|j�S(N(R�tlower(R6R�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR;�scCs |jj�S(N(R�R<(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR<scCs |jj�S(N(R�R=(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR=scCs|jS(N(R�(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR?scCs~t|�}x�|j�D]�}|j�}t|�dkrCqn|jd�}|dj�j�}|dkr�|jd7_qn|dkr�qn|dj�|j|<|dkr|j|}||jkr�|jj |�q�qqW|j �|jrt|j�pB|jd|jkr>t|jd�pAd|_d|jkrjt|jd�pmd|j|_ dS( NiR�R0iscore idsphysical idtsiblingss cpu cores(R�R�RRFRCR�R�R�R�RVRDRIt nr_socketstnr_cores(R6R�RJR�R9ttagnamet socket_id((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR� s* 2( RZR[R\R8R;R<R=R?R�(((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR��s t smaps_libcBs;eZdZd�Zd�Zd�Zd�Zd�ZRS(s^ Representation of an mmap in place for a process. Can be used to figure out which processes have an library mapped, etc. The 'perm' member can be used to figure out executable mmaps, i.e. libraries. The 'vm_start' and 'vm_end' in turn can be used when trying to resolve processor instruction pointer addresses to a symbol name in a library. cCs/|dj�}td�|djd��\|_|_|d|_t|dd�|_|djd�\|_|_t|d �|_ t |�d kr�|d |_n d|_i|_ xd|dD]X}|j�}|dd j�}yt|d�|j |<Wq�||j |<q�Xq�WdS(NicSs t|d�S(Ni(RI(R((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR-st-iiiiR�iii����(RCtmaptvm_starttvm_endtpermsRItoffsettmajortminortinodeRFR�R�R�R�(R6tlinesR9R�ttag((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR8+s"+ cCs|j|j�S(N(R�R�(R6R�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR;@scCs |jj�S(N(R�R<(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR<CscCs |jj�S(N(R�R=(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR=FscCs|jS(N(R�(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR?Is(RZR[R\R8R;R<R=R?(((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�!s tsmapscBsDeZdZd�Zd�Zd�Zd�Zd�Zd�ZRS(sl List of libraries mapped by a process. Parses the lines in the /proc/PID/smaps file, that is further documented in the procfs(5) man page. Example: Listing the executable maps for the 'sshd' process: >>> import procfs >>> processes = procfs.pidstats() >>> sshd = processes.find_by_name("sshd") >>> sshd_maps = procfs.smaps(sshd[0]) >>> for i in range(len(sshd_maps)): ... if 'x' in sshd_maps[i].perms: ... print "%s: %s" % (sshd_maps[i].name, sshd_maps[i].perms) ... /usr/sbin/sshd: r-xp /usr/lib64/libnss_files-2.20.so: r-xp /usr/lib64/librt-2.20.so: r-xp /usr/lib64/libkeyutils.so.1.5: r-xp /usr/lib64/libkrb5support.so.0.1: r-xp /usr/lib64/libfreebl3.so: r-xp /usr/lib64/libpthread-2.20.so: r-xp ... cCs ||_g|_|j�dS(N(RtentriesR�(R6R((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR8fs cCs�g}|s!|j�j�}n|s+dS|j|�xWtr�|j�}|sWPn|j�}|j�dddkr�|j|�q;Pq;W|jjt|��|S(Nii����R�(RBRRVRPRCR�R�(R6RJR�R�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�ks cCs t|j�S(N(RFR�(R6((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyt__len__~scCs|j|S(N(R�(R6tindex((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR;�scCsbtd|j�}d}x&trA|j||�}|sPqqW|j�t|j�|_dS(Ns/proc/%d/smaps( R�RR�RPR�RDRFR�t nr_entries(R6RJR�((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR��s cCsjg}x]t|j�D]L}|j|jr|j|jj|�dkr|j|j|�qqW|S(Ni(RHR�R�R�tfindRV(R6tfragmenttresultRL((s1/usr/lib/python2.7/site-packages/procfs/procfs.pytfind_by_name_fragment�s( RZR[R\R8R�R�R;R�R�(((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR�Ms tcpustatcBs eZdZd�Zd�ZRS(s� CPU statistics, obtained from a line in the '/proc/stat' file, Please refer to 'man procfs(5)' for further information about the '/proc/stat' file, that is the source of the information provided by this class. cCs�|d|_g|dd!D]}t|�^q\|_|_|_|_|_|_|_t |�dkr�t|d�|_ t |�dkr�t|d�|_q�ndS(Niiii(R�RIR�RtsystemtidletiowaitR�tsoftirqRFtstealtguest(R6R9RL((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR8�s PcCs�d|j|j|j|j|j|j|jf}t|d�rW|d|j7}nt|d�rz|d|j 7}n|dS(NsL< user: %s, nice: %s, system: %s, idle: %s, iowait: %s, irq: %s, softirq: %sR�s, steal: %dR�s, guest: %dt>( R�RR�R�R�R�R�R�R�R�(R6ts((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyt__repr__�s1(RZR[R\R8R�(((s1/usr/lib/python2.7/site-packages/procfs/procfs.pyR��s t cpusstatscBsYeZdZdd�Zd�Zd�Zd�Zd�Zd�Zd�Z d �Z RS( s< Dictionary with information about CPUs in the system. First entry in the dictionary gives an aggregate view of all CPUs, each other entry is about separate CPUs. 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