core-admin/dom0/qmemman/qmemman_algo.py

import string

#untrusted meminfo size is taken from xenstore key, thus its size is limited
#so splits do not require excessive memory
def parse_meminfo(untrusted_meminfo):
    untrusted_dict = {}
#split meminfo contents into lines
    untrusted_lines = string.split(untrusted_meminfo,"\n")
    for untrusted_lines_iterator in untrusted_lines:
#split a single meminfo line into words
        untrusted_words = string.split(untrusted_lines_iterator)
        if len(untrusted_words) >= 2:
            untrusted_dict[string.rstrip(untrusted_words[0], ":")] = untrusted_words[1]

    return untrusted_dict

def is_meminfo_suspicious(dom, untrusted_meminfo):
    ret = False
    
#check whether the required keys exist and are not negative
    try:
        for i in ('MemTotal', 'MemFree', 'Buffers', 'Cached', 'SwapTotal', 'SwapFree'):
            val = int(untrusted_meminfo[i])*1024
            if (val < 0):
                ret = True
            untrusted_meminfo[i] = val
    except:
        ret = True

    if not ret and untrusted_meminfo['SwapTotal'] < untrusted_meminfo['SwapFree']:
        ret = True
    if not ret and untrusted_meminfo['MemTotal'] < untrusted_meminfo['MemFree'] + untrusted_meminfo['Cached'] + untrusted_meminfo['Buffers']:
        ret = True
#we could also impose some limits on all the above values
#but it has little purpose - all the domain can gain by passing e.g. 
#very large SwapTotal is that it will be assigned all free Xen memory
#it can be achieved with legal values, too, and it will not allow to
#starve existing domains, by design
    if ret:
        print 'suspicious meminfo for domain', dom.id, 'mem actual', dom.memory_actual, untrusted_meminfo
    return ret

def refresh_meminfo_for_domain(dom, untrusted_xenstore_key):
    untrusted_meminfo = parse_meminfo(untrusted_xenstore_key)
    if untrusted_meminfo is None:
        dom.meminfo = None
        return
#sanitize start
    if is_meminfo_suspicious(dom, untrusted_meminfo):
#sanitize end
        dom.meminfo = None
        dom.mem_used = None
    else:
#sanitized, can assign
        dom.meminfo = untrusted_meminfo
        dom.mem_used =  dom.meminfo['MemTotal'] - dom.meminfo['MemFree'] - dom.meminfo['Cached'] - dom.meminfo['Buffers'] + dom.meminfo['SwapTotal'] - dom.meminfo['SwapFree']
                        
def prefmem(dom):
    CACHE_FACTOR = 1.3
#dom0 is special, as it must have large cache, for vbds. Thus, give it a special boost
    if dom.id == '0':
        return dom.mem_used*CACHE_FACTOR + 350*1024*1024
    return dom.mem_used*CACHE_FACTOR

def memneeded(dom):
#do not change
#in balance(), "distribute totalsum proportionally to mempref" relies on this exact formula
    ret = prefmem(dom) - dom.memory_actual
    return ret
    
    
def balloon(memsize, domdict):
    REQ_SAFETY_NET_FACTOR = 1.05
    donors = list()
    request = list()
    available = 0
    for i in domdict.keys():
        if domdict[i].meminfo is None:
            continue
        if domdict[i].no_progress:
            continue
        need = memneeded(domdict[i])
        if need < 0:
            print 'balloon: dom' , i, 'has actual memory', domdict[i].memory_actual
            donors.append((i,-need))
            available-=need   
    print 'req=', memsize, 'avail=', available, 'donors', donors
    if available<memsize:
        return ()
    scale = 1.0*memsize/available
    for donors_iter in donors:
        id, mem = donors_iter
        memborrowed = mem*scale*REQ_SAFETY_NET_FACTOR
        print 'borrow' , memborrowed, 'from', id
        memtarget = int(domdict[id].memory_actual - memborrowed)
        request.append((id, memtarget))
    return request
# REQ_SAFETY_NET_FACTOR is a bit greater that 1. So that if the domain yields a bit less than requested, due
# to e.g. rounding errors, we will not get stuck. The surplus will return to the VM during "balance" call.


#redistribute positive "totalsum" of memory between domains, proportionally to prefmem
def balance_when_enough_memory(domdict, xenfree, total_mem_pref, totalsum):
    donors_rq = list()
    acceptors_rq = list()
    for i in domdict.keys():
        if domdict[i].meminfo is None:
            continue
#distribute totalsum proportionally to mempref
        scale = 1.0*prefmem(domdict[i])/total_mem_pref
        target_nonint = prefmem(domdict[i]) + scale*totalsum
#prevent rounding errors
        target = int(0.999*target_nonint)
        if (target < domdict[i].memory_actual):
            donors_rq.append((i, target))
        else:
            acceptors_rq.append((i, target))
#    print 'balance(enough): xenfree=', xenfree, 'requests:', donors_rq + acceptors_rq
    return donors_rq + acceptors_rq

#when not enough mem to make everyone be above prefmem, make donors be at prefmem, and 
#redistribute anything left between acceptors
def balance_when_low_on_memory(domdict, xenfree, total_mem_pref_acceptors, donors, acceptors):
    donors_rq = list()
    acceptors_rq = list()
    squeezed_mem = xenfree
    for i in donors:
        avail = -memneeded(domdict[i])
        if avail < 10*1024*1024:
            #probably we have already tried making it exactly at prefmem, give up
            continue
        squeezed_mem -= avail
        donors_rq.append((i, prefmem(domdict[i])))
#the below can happen if initially xen free memory is below 50M
    if squeezed_mem < 0:
        return donors_rq
    for i in acceptors:
        scale = 1.0*prefmem(domdict[i])/total_mem_pref_acceptors
        target_nonint = domdict[i].memory_actual + scale*squeezed_mem
        acceptors_rq.append((i, int(target_nonint)))       
#    print 'balance(low): xenfree=', xenfree, 'requests:', donors_rq + acceptors_rq
    return donors_rq + acceptors_rq
 
def balance(xenfree, domdict):
    total_memneeded = 0
    total_mem_pref = 0
    total_mem_pref_acceptors = 0
    
    donors = list()
    acceptors = list()
#pass 1: compute the above "total" values
    for i in domdict.keys():
        if domdict[i].meminfo is None:
            continue
        need = memneeded(domdict[i])
#        print 'domain' , i, 'act/pref', domdict[i].memory_actual, prefmem(domdict[i]), 'need=', need
        if need < 0:
            donors.append(i)
        else:
            acceptors.append(i)
            total_mem_pref_acceptors += prefmem(domdict[i])
        total_memneeded += need
        total_mem_pref += prefmem(domdict[i])

    totalsum = xenfree - total_memneeded  
    if totalsum > 0:
        return balance_when_enough_memory(domdict, xenfree, total_mem_pref, totalsum)
    else:
        return balance_when_low_on_memory(domdict, xenfree, total_mem_pref_acceptors, donors, acceptors)
qmemman: move /proc/meminfo parsing to qmemman_algo Just cosmetics, to make code layout more coherent. 2010-09-09 11:24:04 +02:00			`import string`

qmemman: prefix variables read from xenstore with "untrusted_" Additionally move all already existing checks to an already existing is_meminfo_suspicious procedure. 2011-05-04 17:10:01 +02:00			`#untrusted meminfo size is taken from xenstore key, thus its size is limited`
			`#so splits do not require excessive memory`
			`def parse_meminfo(untrusted_meminfo):`
			`untrusted_dict = {}`
			`#split meminfo contents into lines`
			`untrusted_lines = string.split(untrusted_meminfo,"\n")`
			`for untrusted_lines_iterator in untrusted_lines:`
			`#split a single meminfo line into words`
			`untrusted_words = string.split(untrusted_lines_iterator)`
			`if len(untrusted_words) >= 2:`
			`untrusted_dict[string.rstrip(untrusted_words[0], ":")] = untrusted_words[1]`
qmemman: move /proc/meminfo parsing to qmemman_algo Just cosmetics, to make code layout more coherent. 2010-09-09 11:24:04 +02:00
qmemman: prefix variables read from xenstore with "untrusted_" Additionally move all already existing checks to an already existing is_meminfo_suspicious procedure. 2011-05-04 17:10:01 +02:00			`return untrusted_dict`

			`def is_meminfo_suspicious(dom, untrusted_meminfo):`
			`ret = False`

			`#check whether the required keys exist and are not negative`
qmemman: move /proc/meminfo parsing to qmemman_algo Just cosmetics, to make code layout more coherent. 2010-09-09 11:24:04 +02:00			`try:`
			`for i in ('MemTotal', 'MemFree', 'Buffers', 'Cached', 'SwapTotal', 'SwapFree'):`
qmemman: prefix variables read from xenstore with "untrusted_" Additionally move all already existing checks to an already existing is_meminfo_suspicious procedure. 2011-05-04 17:10:01 +02:00			`val = int(untrusted_meminfo[i])*1024`
qmemman: move /proc/meminfo parsing to qmemman_algo Just cosmetics, to make code layout more coherent. 2010-09-09 11:24:04 +02:00			`if (val < 0):`
qmemman: prefix variables read from xenstore with "untrusted_" Additionally move all already existing checks to an already existing is_meminfo_suspicious procedure. 2011-05-04 17:10:01 +02:00			`ret = True`
			`untrusted_meminfo[i] = val`
qmemman: move /proc/meminfo parsing to qmemman_algo Just cosmetics, to make code layout more coherent. 2010-09-09 11:24:04 +02:00			`except:`
qmemman: prefix variables read from xenstore with "untrusted_" Additionally move all already existing checks to an already existing is_meminfo_suspicious procedure. 2011-05-04 17:10:01 +02:00			`ret = True`
qmemman: move /proc/meminfo parsing to qmemman_algo Just cosmetics, to make code layout more coherent. 2010-09-09 11:24:04 +02:00
qmemman: prefix variables read from xenstore with "untrusted_" Additionally move all already existing checks to an already existing is_meminfo_suspicious procedure. 2011-05-04 17:10:01 +02:00			`if not ret and untrusted_meminfo['SwapTotal'] < untrusted_meminfo['SwapFree']:`
Memory management across VMs, first release 2010-08-30 11:40:19 +02:00			`ret = True`
qmemman: prefix variables read from xenstore with "untrusted_" Additionally move all already existing checks to an already existing is_meminfo_suspicious procedure. 2011-05-04 17:10:01 +02:00			`if not ret and untrusted_meminfo['MemTotal'] < untrusted_meminfo['MemFree'] + untrusted_meminfo['Cached'] + untrusted_meminfo['Buffers']:`
Memory management across VMs, first release 2010-08-30 11:40:19 +02:00			`ret = True`
qmemman: prefix variables read from xenstore with "untrusted_" Additionally move all already existing checks to an already existing is_meminfo_suspicious procedure. 2011-05-04 17:10:01 +02:00			`#we could also impose some limits on all the above values`
			`#but it has little purpose - all the domain can gain by passing e.g.`
			`#very large SwapTotal is that it will be assigned all free Xen memory`
			`#it can be achieved with legal values, too, and it will not allow to`
			`#starve existing domains, by design`
Memory management across VMs, first release 2010-08-30 11:40:19 +02:00			`if ret:`
qmemman: prefix variables read from xenstore with "untrusted_" Additionally move all already existing checks to an already existing is_meminfo_suspicious procedure. 2011-05-04 17:10:01 +02:00			`print 'suspicious meminfo for domain', dom.id, 'mem actual', dom.memory_actual, untrusted_meminfo`
Memory management across VMs, first release 2010-08-30 11:40:19 +02:00			`return ret`

qmemman: prefix variables read from xenstore with "untrusted_" Additionally move all already existing checks to an already existing is_meminfo_suspicious procedure. 2011-05-04 17:10:01 +02:00			`def refresh_meminfo_for_domain(dom, untrusted_xenstore_key):`
			`untrusted_meminfo = parse_meminfo(untrusted_xenstore_key)`
			`if untrusted_meminfo is None:`
			`dom.meminfo = None`
qmemman: move /proc/meminfo parsing to qmemman_algo Just cosmetics, to make code layout more coherent. 2010-09-09 11:24:04 +02:00			`return`
qmemman: prefix variables read from xenstore with "untrusted_" Additionally move all already existing checks to an already existing is_meminfo_suspicious procedure. 2011-05-04 17:10:01 +02:00			`#sanitize start`
			`if is_meminfo_suspicious(dom, untrusted_meminfo):`
			`#sanitize end`
qmemman: move /proc/meminfo parsing to qmemman_algo Just cosmetics, to make code layout more coherent. 2010-09-09 11:24:04 +02:00			`dom.meminfo = None`
			`dom.mem_used = None`
			`else:`
qmemman: prefix variables read from xenstore with "untrusted_" Additionally move all already existing checks to an already existing is_meminfo_suspicious procedure. 2011-05-04 17:10:01 +02:00			`#sanitized, can assign`
			`dom.meminfo = untrusted_meminfo`
qmemman: move /proc/meminfo parsing to qmemman_algo Just cosmetics, to make code layout more coherent. 2010-09-09 11:24:04 +02:00			`dom.mem_used = dom.meminfo['MemTotal'] - dom.meminfo['MemFree'] - dom.meminfo['Cached'] - dom.meminfo['Buffers'] + dom.meminfo['SwapTotal'] - dom.meminfo['SwapFree']`

Memory management across VMs, first release 2010-08-30 11:40:19 +02:00			`def prefmem(dom):`
			`CACHE_FACTOR = 1.3`
			`#dom0 is special, as it must have large cache, for vbds. Thus, give it a special boost`
			`if dom.id == '0':`
			`return dom.mem_usedCACHE_FACTOR + 3501024*1024`
			`return dom.mem_used*CACHE_FACTOR`

			`def memneeded(dom):`
			`#do not change`
			`#in balance(), "distribute totalsum proportionally to mempref" relies on this exact formula`
			`ret = prefmem(dom) - dom.memory_actual`
			`return ret`


			`def balloon(memsize, domdict):`
			`REQ_SAFETY_NET_FACTOR = 1.05`
			`donors = list()`
			`request = list()`
			`available = 0`
			`for i in domdict.keys():`
			`if domdict[i].meminfo is None:`
			`continue`
			`if domdict[i].no_progress:`
			`continue`
			`need = memneeded(domdict[i])`
			`if need < 0:`
			`print 'balloon: dom' , i, 'has actual memory', domdict[i].memory_actual`
			`donors.append((i,-need))`
			`available-=need`
			`print 'req=', memsize, 'avail=', available, 'donors', donors`
			`if available<memsize:`
			`return ()`
			`scale = 1.0*memsize/available`
			`for donors_iter in donors:`
			`id, mem = donors_iter`
			`memborrowed = memscaleREQ_SAFETY_NET_FACTOR`
			`print 'borrow' , memborrowed, 'from', id`
			`memtarget = int(domdict[id].memory_actual - memborrowed)`
			`request.append((id, memtarget))`
			`return request`
			`# REQ_SAFETY_NET_FACTOR is a bit greater that 1. So that if the domain yields a bit less than requested, due`
			`# to e.g. rounding errors, we will not get stuck. The surplus will return to the VM during "balance" call.`
qmemman: when low on memory, do not make a VM go below prefmem Now the balance() has two different cases: enough memory and low_on_memory. In the former, distribute memory proportianally; in the former, dont do this, as this makes a VM go below prefmem. 2010-09-01 12:40:02 +02:00

			`#redistribute positive "totalsum" of memory between domains, proportionally to prefmem`
			`def balance_when_enough_memory(domdict, xenfree, total_mem_pref, totalsum):`
			`donors_rq = list()`
			`acceptors_rq = list()`
			`for i in domdict.keys():`
			`if domdict[i].meminfo is None:`
			`continue`
			`#distribute totalsum proportionally to mempref`
			`scale = 1.0*prefmem(domdict[i])/total_mem_pref`
			`target_nonint = prefmem(domdict[i]) + scale*totalsum`
			`#prevent rounding errors`
qmemman: do not trim the mem-set value too much We used to mem-set the domain to 0.995*calculated_value; 5 promils of 4GB is ca 19MB, and it is too visible. Use 0.999 instead of 0.995 2010-09-16 16:40:09 +02:00			`target = int(0.999*target_nonint)`
qmemman: when low on memory, do not make a VM go below prefmem Now the balance() has two different cases: enough memory and low_on_memory. In the former, distribute memory proportianally; in the former, dont do this, as this makes a VM go below prefmem. 2010-09-01 12:40:02 +02:00			`if (target < domdict[i].memory_actual):`
			`donors_rq.append((i, target))`
			`else:`
			`acceptors_rq.append((i, target))`
qmemman: print balance stats only when updating 2010-09-09 10:29:35 +02:00			`# print 'balance(enough): xenfree=', xenfree, 'requests:', donors_rq + acceptors_rq`
qmemman: when low on memory, do not make a VM go below prefmem Now the balance() has two different cases: enough memory and low_on_memory. In the former, distribute memory proportianally; in the former, dont do this, as this makes a VM go below prefmem. 2010-09-01 12:40:02 +02:00			`return donors_rq + acceptors_rq`

			`#when not enough mem to make everyone be above prefmem, make donors be at prefmem, and`
			`#redistribute anything left between acceptors`
			`def balance_when_low_on_memory(domdict, xenfree, total_mem_pref_acceptors, donors, acceptors):`
			`donors_rq = list()`
			`acceptors_rq = list()`
			`squeezed_mem = xenfree`
			`for i in donors:`
			`avail = -memneeded(domdict[i])`
			`if avail < 1010241024:`
			`#probably we have already tried making it exactly at prefmem, give up`
			`continue`
			`squeezed_mem -= avail`
			`donors_rq.append((i, prefmem(domdict[i])))`
Leave XEN_FREE_MEM_LEFT of Xen free memory. Needed for driver domain, to be able to get contiguous memory for its drivers. 2010-09-16 15:57:11 +02:00			`#the below can happen if initially xen free memory is below 50M`
			`if squeezed_mem < 0:`
			`return donors_rq`
qmemman: when low on memory, do not make a VM go below prefmem Now the balance() has two different cases: enough memory and low_on_memory. In the former, distribute memory proportianally; in the former, dont do this, as this makes a VM go below prefmem. 2010-09-01 12:40:02 +02:00			`for i in acceptors:`
			`scale = 1.0*prefmem(domdict[i])/total_mem_pref_acceptors`
			`target_nonint = domdict[i].memory_actual + scale*squeezed_mem`
			`acceptors_rq.append((i, int(target_nonint)))`
qmemman: print balance stats only when updating 2010-09-09 10:29:35 +02:00			`# print 'balance(low): xenfree=', xenfree, 'requests:', donors_rq + acceptors_rq`
qmemman: when low on memory, do not make a VM go below prefmem Now the balance() has two different cases: enough memory and low_on_memory. In the former, distribute memory proportianally; in the former, dont do this, as this makes a VM go below prefmem. 2010-09-01 12:40:02 +02:00			`return donors_rq + acceptors_rq`
Memory management across VMs, first release 2010-08-30 11:40:19 +02:00
			`def balance(xenfree, domdict):`
			`total_memneeded = 0`
			`total_mem_pref = 0`
qmemman: when low on memory, do not make a VM go below prefmem Now the balance() has two different cases: enough memory and low_on_memory. In the former, distribute memory proportianally; in the former, dont do this, as this makes a VM go below prefmem. 2010-09-01 12:40:02 +02:00			`total_mem_pref_acceptors = 0`

			`donors = list()`
			`acceptors = list()`
Memory management across VMs, first release 2010-08-30 11:40:19 +02:00			`#pass 1: compute the above "total" values`
			`for i in domdict.keys():`
			`if domdict[i].meminfo is None:`
			`continue`
			`need = memneeded(domdict[i])`
qmemman: print balance stats only when updating 2010-09-09 10:29:35 +02:00			`# print 'domain' , i, 'act/pref', domdict[i].memory_actual, prefmem(domdict[i]), 'need=', need`
qmemman: when low on memory, do not make a VM go below prefmem Now the balance() has two different cases: enough memory and low_on_memory. In the former, distribute memory proportianally; in the former, dont do this, as this makes a VM go below prefmem. 2010-09-01 12:40:02 +02:00			`if need < 0:`
			`donors.append(i)`
			`else:`
			`acceptors.append(i)`
			`total_mem_pref_acceptors += prefmem(domdict[i])`
Memory management across VMs, first release 2010-08-30 11:40:19 +02:00			`total_memneeded += need`
			`total_mem_pref += prefmem(domdict[i])`

			`totalsum = xenfree - total_memneeded`
qmemman: when low on memory, do not make a VM go below prefmem Now the balance() has two different cases: enough memory and low_on_memory. In the former, distribute memory proportianally; in the former, dont do this, as this makes a VM go below prefmem. 2010-09-01 12:40:02 +02:00			`if totalsum > 0:`
			`return balance_when_enough_memory(domdict, xenfree, total_mem_pref, totalsum)`
			`else:`
			`return balance_when_low_on_memory(domdict, xenfree, total_mem_pref_acceptors, donors, acceptors)`