tools/mm/thpmaps - linux/torvalds/linux - Git at Google

 #!/usr/bin/env python3
 # SPDX-License-Identifier: GPL-2.0-only
 # Copyright (C) 2024 ARM Ltd.
 #
 # Utility providing smaps-like output detailing transparent hugepage usage.
 # For more info, run:
 # ./thpmaps --help
 #
 # Requires numpy:
 # pip3 install numpy


 import argparse
 import collections
 import math
 import os
 import re
 import resource
 import shutil
 import sys
 import textwrap
 import time
 import numpy as np


 with open('/sys/kernel/mm/transparent_hugepage/hpage_pmd_size') as f:
     PAGE_SIZE = resource.getpagesize()
     PAGE_SHIFT = int(math.log2(PAGE_SIZE))
     PMD_SIZE = int(f.read())
     PMD_ORDER = int(math.log2(PMD_SIZE / PAGE_SIZE))


 def align_forward(v, a):
     return (v + (a - 1)) & ~(a - 1)


 def align_offset(v, a):
     return v & (a - 1)


 def kbnr(kb):
     # Convert KB to number of pages.
     return (kb << 10) >> PAGE_SHIFT


 def nrkb(nr):
     # Convert number of pages to KB.
     return (nr << PAGE_SHIFT) >> 10


 def odkb(order):
     # Convert page order to KB.
     return (PAGE_SIZE << order) >> 10


 def cont_ranges_all(search, index):
     # Given a list of arrays, find the ranges for which values are monotonically
     # incrementing in all arrays. all arrays in search and index must be the
     # same size.
     sz = len(search[0])
     r = np.full(sz, 2)
     d = np.diff(search[0]) == 1
     for dd in [np.diff(arr) == 1 for arr in search[1:]]:
         d &= dd
     r[1:] -= d
     r[:-1] -= d
     return [np.repeat(arr, r).reshape(-1, 2) for arr in index]


 class ArgException(Exception):
     pass


 class FileIOException(Exception):
     pass


 class BinArrayFile:
     # Base class used to read /proc/<pid>/pagemap and /proc/kpageflags into a
     # numpy array. Use inherrited class in a with clause to ensure file is
     # closed when it goes out of scope.
     def __init__(self, filename, element_size):
         self.element_size = element_size
         self.filename = filename
         self.fd = os.open(self.filename, os.O_RDONLY)

     def cleanup(self):
         os.close(self.fd)

     def __enter__(self):
         return self

     def __exit__(self, exc_type, exc_val, exc_tb):
         self.cleanup()

     def _readin(self, offset, buffer):
         length = os.preadv(self.fd, (buffer,), offset)
         if len(buffer) != length:
             raise FileIOException('error: {} failed to read {} bytes at {:x}'
                             .format(self.filename, len(buffer), offset))

     def _toarray(self, buf):
         assert(self.element_size == 8)
         return np.frombuffer(buf, dtype=np.uint64)

     def getv(self, vec):
         vec *= self.element_size
         offsets = vec[:, 0]
         lengths = (np.diff(vec) + self.element_size).reshape(len(vec))
         buf = bytearray(int(np.sum(lengths)))
         view = memoryview(buf)
         pos = 0
         for offset, length in zip(offsets, lengths):
             offset = int(offset)
             length = int(length)
             self._readin(offset, view[pos:pos+length])
             pos += length
         return self._toarray(buf)

     def get(self, index, nr=1):
         offset = index * self.element_size
         length = nr * self.element_size
         buf = bytearray(length)
         self._readin(offset, buf)
         return self._toarray(buf)


 PM_PAGE_PRESENT = 1 << 63
 PM_PFN_MASK = (1 << 55) - 1

 class PageMap(BinArrayFile):
     # Read ranges of a given pid's pagemap into a numpy array.
     def __init__(self, pid='self'):
         super().__init__(f'/proc/{pid}/pagemap', 8)


 KPF_ANON = 1 << 12
 KPF_COMPOUND_HEAD = 1 << 15
 KPF_COMPOUND_TAIL = 1 << 16
 KPF_THP = 1 << 22

 class KPageFlags(BinArrayFile):
     # Read ranges of /proc/kpageflags into a numpy array.
     def __init__(self):
          super().__init__(f'/proc/kpageflags', 8)


 vma_all_stats = set([
     "Size",
     "Rss",
     "Pss",
     "Pss_Dirty",
     "Shared_Clean",
     "Shared_Dirty",
     "Private_Clean",
     "Private_Dirty",
     "Referenced",
     "Anonymous",
     "KSM",
     "LazyFree",
     "AnonHugePages",
     "ShmemPmdMapped",
     "FilePmdMapped",
     "Shared_Hugetlb",
     "Private_Hugetlb",
     "Swap",
     "SwapPss",
     "Locked",
 ])

 vma_min_stats = set([
     "Rss",
     "Anonymous",
     "AnonHugePages",
     "ShmemPmdMapped",
     "FilePmdMapped",
 ])

 VMA = collections.namedtuple('VMA', [
     'name',
     'start',
     'end',
     'read',
     'write',
     'execute',
     'private',
     'pgoff',
     'major',
     'minor',
     'inode',
     'stats',
 ])

 class VMAList:
     # A container for VMAs, parsed from /proc/<pid>/smaps. Iterate over the
     # instance to receive VMAs.
     def __init__(self, pid='self', stats=[]):
         self.vmas = []
         with open(f'/proc/{pid}/smaps', 'r') as file:
             for line in file:
                 elements = line.split()
                 if '-' in elements[0]:
                     start, end = map(lambda x: int(x, 16), elements[0].split('-'))
                     major, minor = map(lambda x: int(x, 16), elements[3].split(':'))
                     self.vmas.append(VMA(
                         name=elements[5] if len(elements) == 6 else '',
                         start=start,
                         end=end,
                         read=elements[1][0] == 'r',
                         write=elements[1][1] == 'w',
                         execute=elements[1][2] == 'x',
                         private=elements[1][3] == 'p',
                         pgoff=int(elements[2], 16),
                         major=major,
                         minor=minor,
                         inode=int(elements[4], 16),
                         stats={},
                     ))
                 else:
                     param = elements[0][:-1]
                     if param in stats:
                         value = int(elements[1])
                         self.vmas[-1].stats[param] = {'type': None, 'value': value}

     def __iter__(self):
         yield from self.vmas


 def thp_parse(vma, kpageflags, ranges, indexes, vfns, pfns, anons, heads):
     # Given 4 same-sized arrays representing a range within a page table backed
     # by THPs (vfns: virtual frame numbers, pfns: physical frame numbers, anons:
     # True if page is anonymous, heads: True if page is head of a THP), return a
     # dictionary of statistics describing the mapped THPs.
     stats = {
         'file': {
             'partial': 0,
             'aligned': [0] * (PMD_ORDER + 1),
             'unaligned': [0] * (PMD_ORDER + 1),
         },
         'anon': {
             'partial': 0,
             'aligned': [0] * (PMD_ORDER + 1),
             'unaligned': [0] * (PMD_ORDER + 1),
         },
     }

     for rindex, rpfn in zip(ranges[0], ranges[2]):
         index_next = int(rindex[0])
         index_end = int(rindex[1]) + 1
         pfn_end = int(rpfn[1]) + 1

         folios = indexes[index_next:index_end][heads[index_next:index_end]]

         # Account pages for any partially mapped THP at the front. In that case,
         # the first page of the range is a tail.
         nr = (int(folios[0]) if len(folios) else index_end) - index_next
         stats['anon' if anons[index_next] else 'file']['partial'] += nr

         # Account pages for any partially mapped THP at the back. In that case,
         # the next page after the range is a tail.
         if len(folios):
             flags = int(kpageflags.get(pfn_end)[0])
             if flags & KPF_COMPOUND_TAIL:
                 nr = index_end - int(folios[-1])
                 folios = folios[:-1]
                 index_end -= nr
                 stats['anon' if anons[index_end - 1] else 'file']['partial'] += nr

         # Account fully mapped THPs in the middle of the range.
         if len(folios):
             folio_nrs = np.append(np.diff(folios), np.uint64(index_end - folios[-1]))
             folio_orders = np.log2(folio_nrs).astype(np.uint64)
             for index, order in zip(folios, folio_orders):
                 index = int(index)
                 order = int(order)
                 nr = 1 << order
                 vfn = int(vfns[index])
                 align = 'aligned' if align_forward(vfn, nr) == vfn else 'unaligned'
                 anon = 'anon' if anons[index] else 'file'
                 stats[anon][align][order] += nr

     # Account PMD-mapped THPs spearately, so filter out of the stats. There is a
     # race between acquiring the smaps stats and reading pagemap, where memory
     # could be deallocated. So clamp to zero incase it would have gone negative.
     anon_pmd_mapped = vma.stats['AnonHugePages']['value']
     file_pmd_mapped = vma.stats['ShmemPmdMapped']['value'] + \
                       vma.stats['FilePmdMapped']['value']
     stats['anon']['aligned'][PMD_ORDER] = max(0, stats['anon']['aligned'][PMD_ORDER] - kbnr(anon_pmd_mapped))
     stats['file']['aligned'][PMD_ORDER] = max(0, stats['file']['aligned'][PMD_ORDER] - kbnr(file_pmd_mapped))

     rstats = {
         f"anon-thp-pmd-aligned-{odkb(PMD_ORDER)}kB": {'type': 'anon', 'value': anon_pmd_mapped},
         f"file-thp-pmd-aligned-{odkb(PMD_ORDER)}kB": {'type': 'file', 'value': file_pmd_mapped},
     }

     def flatten_sub(type, subtype, stats):
         param = f"{type}-thp-pte-{subtype}-{{}}kB"
         for od, nr in enumerate(stats[2:], 2):
             rstats[param.format(odkb(od))] = {'type': type, 'value': nrkb(nr)}

     def flatten_type(type, stats):
         flatten_sub(type, 'aligned', stats['aligned'])
         flatten_sub(type, 'unaligned', stats['unaligned'])
         rstats[f"{type}-thp-pte-partial"] = {'type': type, 'value': nrkb(stats['partial'])}

     flatten_type('anon', stats['anon'])
     flatten_type('file', stats['file'])

     return rstats


 def cont_parse(vma, order, ranges, anons, heads):
     # Given 4 same-sized arrays representing a range within a page table backed
     # by THPs (vfns: virtual frame numbers, pfns: physical frame numbers, anons:
     # True if page is anonymous, heads: True if page is head of a THP), return a
     # dictionary of statistics describing the contiguous blocks.
     nr_cont = 1 << order
     nr_anon = 0
     nr_file = 0

     for rindex, rvfn, rpfn in zip(*ranges):
         index_next = int(rindex[0])
         index_end = int(rindex[1]) + 1
         vfn_start = int(rvfn[0])
         pfn_start = int(rpfn[0])

         if align_offset(pfn_start, nr_cont) != align_offset(vfn_start, nr_cont):
             continue

         off = align_forward(vfn_start, nr_cont) - vfn_start
         index_next += off

         while index_next + nr_cont <= index_end:
             folio_boundary = heads[index_next+1:index_next+nr_cont].any()
             if not folio_boundary:
                 if anons[index_next]:
                     nr_anon += nr_cont
                 else:
                     nr_file += nr_cont
             index_next += nr_cont

     # Account blocks that are PMD-mapped spearately, so filter out of the stats.
     # There is a race between acquiring the smaps stats and reading pagemap,
     # where memory could be deallocated. So clamp to zero incase it would have
     # gone negative.
     anon_pmd_mapped = vma.stats['AnonHugePages']['value']
     file_pmd_mapped = vma.stats['ShmemPmdMapped']['value'] + \
                     vma.stats['FilePmdMapped']['value']
     nr_anon = max(0, nr_anon - kbnr(anon_pmd_mapped))
     nr_file = max(0, nr_file - kbnr(file_pmd_mapped))

     rstats = {
         f"anon-cont-pmd-aligned-{nrkb(nr_cont)}kB": {'type': 'anon', 'value': anon_pmd_mapped},
         f"file-cont-pmd-aligned-{nrkb(nr_cont)}kB": {'type': 'file', 'value': file_pmd_mapped},
     }

     rstats[f"anon-cont-pte-aligned-{nrkb(nr_cont)}kB"] = {'type': 'anon', 'value': nrkb(nr_anon)}
     rstats[f"file-cont-pte-aligned-{nrkb(nr_cont)}kB"] = {'type': 'file', 'value': nrkb(nr_file)}

     return rstats


 def vma_print(vma, pid):
     # Prints a VMA instance in a format similar to smaps. The main difference is
     # that the pid is included as the first value.
     print("{:010d}: {:016x}-{:016x} {}{}{}{} {:08x} {:02x}:{:02x} {:08x} {}"
         .format(
             pid, vma.start, vma.end,
             'r' if vma.read else '-', 'w' if vma.write else '-',
             'x' if vma.execute else '-', 'p' if vma.private else 's',
             vma.pgoff, vma.major, vma.minor, vma.inode, vma.name
         ))


 def stats_print(stats, tot_anon, tot_file, inc_empty):
     # Print a statistics dictionary.
     label_field = 32
     for label, stat in stats.items():
         type = stat['type']
         value = stat['value']
         if value or inc_empty:
             pad = max(0, label_field - len(label) - 1)
             if type == 'anon' and tot_anon > 0:
                 percent = f' ({value / tot_anon:3.0%})'
             elif type == 'file' and tot_file > 0:
                 percent = f' ({value / tot_file:3.0%})'
             else:
                 percent = ''
             print(f"{label}:{' ' * pad}{value:8} kB{percent}")


 def vma_parse(vma, pagemap, kpageflags, contorders):
     # Generate thp and cont statistics for a single VMA.
     start = vma.start >> PAGE_SHIFT
     end = vma.end >> PAGE_SHIFT

     pmes = pagemap.get(start, end - start)
     present = pmes & PM_PAGE_PRESENT != 0
     pfns = pmes & PM_PFN_MASK
     pfns = pfns[present]
     vfns = np.arange(start, end, dtype=np.uint64)
     vfns = vfns[present]

     pfn_vec = cont_ranges_all([pfns], [pfns])[0]
     flags = kpageflags.getv(pfn_vec)
     anons = flags & KPF_ANON != 0
     heads = flags & KPF_COMPOUND_HEAD != 0
     thps = flags & KPF_THP != 0

     vfns = vfns[thps]
     pfns = pfns[thps]
     anons = anons[thps]
     heads = heads[thps]

     indexes = np.arange(len(vfns), dtype=np.uint64)
     ranges = cont_ranges_all([vfns, pfns], [indexes, vfns, pfns])

     thpstats = thp_parse(vma, kpageflags, ranges, indexes, vfns, pfns, anons, heads)
     contstats = [cont_parse(vma, order, ranges, anons, heads) for order in contorders]

     tot_anon = vma.stats['Anonymous']['value']
     tot_file = vma.stats['Rss']['value'] - tot_anon

     return {
         **thpstats,
         **{k: v for s in contstats for k, v in s.items()}
     }, tot_anon, tot_file


 def do_main(args):
     pids = set()
     rollup = {}
     rollup_anon = 0
     rollup_file = 0

     if args.cgroup:
         strict = False
         for walk_info in os.walk(args.cgroup):
             cgroup = walk_info[0]
             with open(f'{cgroup}/cgroup.procs') as pidfile:
                 for line in pidfile.readlines():
                     pids.add(int(line.strip()))
     elif args.pid:
         strict = True
         pids = pids.union(args.pid)
     else:
         strict = False
         for pid in os.listdir('/proc'):
             if pid.isdigit():
                 pids.add(int(pid))

     if not args.rollup:
         print("       PID             START              END PROT   OFFSET   DEV    INODE OBJECT")

     for pid in pids:
         try:
             with PageMap(pid) as pagemap:
                 with KPageFlags() as kpageflags:
                     for vma in VMAList(pid, vma_all_stats if args.inc_smaps else vma_min_stats):
                         if (vma.read or vma.write or vma.execute) and vma.stats['Rss']['value'] > 0:
                             stats, vma_anon, vma_file = vma_parse(vma, pagemap, kpageflags, args.cont)
                         else:
                             stats = {}
                             vma_anon = 0
                             vma_file = 0
                         if args.inc_smaps:
                             stats = {**vma.stats, **stats}
                         if args.rollup:
                             for k, v in stats.items():
                                 if k in rollup:
                                     assert(rollup[k]['type'] == v['type'])
                                     rollup[k]['value'] += v['value']
                                 else:
                                     rollup[k] = v
                             rollup_anon += vma_anon
                             rollup_file += vma_file
                         else:
                             vma_print(vma, pid)
                             stats_print(stats, vma_anon, vma_file, args.inc_empty)
         except (FileNotFoundError, ProcessLookupError, FileIOException):
             if strict:
                 raise

     if args.rollup:
         stats_print(rollup, rollup_anon, rollup_file, args.inc_empty)


 def main():
     docs_width = shutil.get_terminal_size().columns
     docs_width -= 2
     docs_width = min(80, docs_width)

     def format(string):
         text = re.sub(r'\s+', ' ', string)
         text = re.sub(r'\s*\\n\s*', '\n', text)
         paras = text.split('\n')
         paras = [textwrap.fill(p, width=docs_width) for p in paras]
         return '\n'.join(paras)

     def formatter(prog):
         return argparse.RawDescriptionHelpFormatter(prog, width=docs_width)

     def size2order(human):
         units = {
             "K": 2**10, "M": 2**20, "G": 2**30,
             "k": 2**10, "m": 2**20, "g": 2**30,
         }
         unit = 1
         if human[-1] in units:
             unit = units[human[-1]]
             human = human[:-1]
         try:
             size = int(human)
         except ValueError:
             raise ArgException('error: --cont value must be integer size with optional KMG unit')
         size *= unit
         order = int(math.log2(size / PAGE_SIZE))
         if order < 1:
             raise ArgException('error: --cont value must be size of at least 2 pages')
         if (1 << order) * PAGE_SIZE != size:
             raise ArgException('error: --cont value must be size of power-of-2 pages')
         if order > PMD_ORDER:
             raise ArgException('error: --cont value must be less than or equal to PMD order')
         return order

     parser = argparse.ArgumentParser(formatter_class=formatter,
         description=format("""Prints information about how transparent huge
                     pages are mapped, either system-wide, or for a specified
                     process or cgroup.\\n
                     \\n
                     When run with --pid, the user explicitly specifies the set
                     of pids to scan. e.g. "--pid 10 [--pid 134 ...]". When run
                     with --cgroup, the user passes either a v1 or v2 cgroup and
                     all pids that belong to the cgroup subtree are scanned. When
                     run with neither --pid nor --cgroup, the full set of pids on
                     the system is gathered from /proc and scanned as if the user
                     had provided "--pid 1 --pid 2 ...".\\n
                     \\n
                     A default set of statistics is always generated for THP
                     mappings. However, it is also possible to generate
                     additional statistics for "contiguous block mappings" where
                     the block size is user-defined.\\n
                     \\n
                     Statistics are maintained independently for anonymous and
                     file-backed (pagecache) memory and are shown both in kB and
                     as a percentage of either total anonymous or total
                     file-backed memory as appropriate.\\n
                     \\n
                     THP Statistics\\n
                     --------------\\n
                     \\n
                     Statistics are always generated for fully- and
                     contiguously-mapped THPs whose mapping address is aligned to
                     their size, for each <size> supported by the system.
                     Separate counters describe THPs mapped by PTE vs those
                     mapped by PMD. (Although note a THP can only be mapped by
                     PMD if it is PMD-sized):\\n
                     \\n
                     - anon-thp-pte-aligned-<size>kB\\n
                     - file-thp-pte-aligned-<size>kB\\n
                     - anon-thp-pmd-aligned-<size>kB\\n
                     - file-thp-pmd-aligned-<size>kB\\n
                     \\n
                     Similarly, statistics are always generated for fully- and
                     contiguously-mapped THPs whose mapping address is *not*
                     aligned to their size, for each <size> supported by the
                     system. Due to the unaligned mapping, it is impossible to
                     map by PMD, so there are only PTE counters for this case:\\n
                     \\n
                     - anon-thp-pte-unaligned-<size>kB\\n
                     - file-thp-pte-unaligned-<size>kB\\n
                     \\n
                     Statistics are also always generated for mapped pages that
                     belong to a THP but where the is THP is *not* fully- and
                     contiguously- mapped. These "partial" mappings are all
                     counted in the same counter regardless of the size of the
                     THP that is partially mapped:\\n
                     \\n
                     - anon-thp-pte-partial\\n
                     - file-thp-pte-partial\\n
                     \\n
                     Contiguous Block Statistics\\n
                     ---------------------------\\n
                     \\n
                     An optional, additional set of statistics is generated for
                     every contiguous block size specified with `--cont <size>`.
                     These statistics show how much memory is mapped in
                     contiguous blocks of <size> and also aligned to <size>. A
                     given contiguous block must all belong to the same THP, but
                     there is no requirement for it to be the *whole* THP.
                     Separate counters describe contiguous blocks mapped by PTE
                     vs those mapped by PMD:\\n
                     \\n
                     - anon-cont-pte-aligned-<size>kB\\n
                     - file-cont-pte-aligned-<size>kB\\n
                     - anon-cont-pmd-aligned-<size>kB\\n
                     - file-cont-pmd-aligned-<size>kB\\n
                     \\n
                     As an example, if monitoring 64K contiguous blocks (--cont
                     64K), there are a number of sources that could provide such
                     blocks: a fully- and contiguously-mapped 64K THP that is
                     aligned to a 64K boundary would provide 1 block. A fully-
                     and contiguously-mapped 128K THP that is aligned to at least
                     a 64K boundary would provide 2 blocks. Or a 128K THP that
                     maps its first 100K, but contiguously and starting at a 64K
                     boundary would provide 1 block. A fully- and
                     contiguously-mapped 2M THP would provide 32 blocks. There
                     are many other possible permutations.\\n"""),
         epilog=format("""Requires root privilege to access pagemap and
                     kpageflags."""))

     group = parser.add_mutually_exclusive_group(required=False)
     group.add_argument('--pid',
         metavar='pid', required=False, type=int, default=[], action='append',
         help="""Process id of the target process. Maybe issued multiple times to
             scan multiple processes. --pid and --cgroup are mutually exclusive.
             If neither are provided, all processes are scanned to provide
             system-wide information.""")

     group.add_argument('--cgroup',
         metavar='path', required=False,
         help="""Path to the target cgroup in sysfs. Iterates over every pid in
             the cgroup and its children. --pid and --cgroup are mutually
             exclusive. If neither are provided, all processes are scanned to
             provide system-wide information.""")

     parser.add_argument('--rollup',
         required=False, default=False, action='store_true',
         help="""Sum the per-vma statistics to provide a summary over the whole
             system, process or cgroup.""")

     parser.add_argument('--cont',
         metavar='size[KMG]', required=False, default=[], action='append',
         help="""Adds stats for memory that is mapped in contiguous blocks of
             <size> and also aligned to <size>. May be issued multiple times to
             track multiple sized blocks. Useful to infer e.g. arm64 contpte and
             hpa mappings. Size must be a power-of-2 number of pages.""")

     parser.add_argument('--inc-smaps',
         required=False, default=False, action='store_true',
         help="""Include all numerical, additive /proc/<pid>/smaps stats in the
             output.""")

     parser.add_argument('--inc-empty',
         required=False, default=False, action='store_true',
         help="""Show all statistics including those whose value is 0.""")

     parser.add_argument('--periodic',
         metavar='sleep_ms', required=False, type=int,
         help="""Run in a loop, polling every sleep_ms milliseconds.""")

     args = parser.parse_args()

     try:
         args.cont = [size2order(cont) for cont in args.cont]
     except ArgException as e:
         parser.print_usage()
         raise

     if args.periodic:
         while True:
             do_main(args)
             print()
             time.sleep(args.periodic / 1000)
     else:
         do_main(args)


 if __name__ == "__main__":
     try:
         main()
     except Exception as e:
         prog = os.path.basename(sys.argv[0])
         print(f'{prog}: {e}')
         exit(1)
	#!/usr/bin/env python3
	# SPDX-License-Identifier: GPL-2.0-only
	# Copyright (C) 2024 ARM Ltd.
	#
	# Utility providing smaps-like output detailing transparent hugepage usage.
	# For more info, run:
	# ./thpmaps --help
	#
	# Requires numpy:
	# pip3 install numpy


	import argparse
	import collections
	import math
	import os
	import re
	import resource
	import shutil
	import sys
	import textwrap
	import time
	import numpy as np


	with open('/sys/kernel/mm/transparent_hugepage/hpage_pmd_size') as f:
	PAGE_SIZE = resource.getpagesize()
	PAGE_SHIFT = int(math.log2(PAGE_SIZE))
	PMD_SIZE = int(f.read())
	PMD_ORDER = int(math.log2(PMD_SIZE / PAGE_SIZE))


	def align_forward(v, a):
	return (v + (a - 1)) & ~(a - 1)


	def align_offset(v, a):
	return v & (a - 1)


	def kbnr(kb):
	# Convert KB to number of pages.
	return (kb << 10) >> PAGE_SHIFT


	def nrkb(nr):
	# Convert number of pages to KB.
	return (nr << PAGE_SHIFT) >> 10


	def odkb(order):
	# Convert page order to KB.
	return (PAGE_SIZE << order) >> 10


	def cont_ranges_all(search, index):
	# Given a list of arrays, find the ranges for which values are monotonically
	# incrementing in all arrays. all arrays in search and index must be the
	# same size.
	sz = len(search[0])
	r = np.full(sz, 2)
	d = np.diff(search[0]) == 1
	for dd in [np.diff(arr) == 1 for arr in search[1:]]:
	d &= dd
	r[1:] -= d
	r[:-1] -= d
	return [np.repeat(arr, r).reshape(-1, 2) for arr in index]


	class ArgException(Exception):
	pass


	class FileIOException(Exception):
	pass


	class BinArrayFile:
	# Base class used to read /proc/<pid>/pagemap and /proc/kpageflags into a
	# numpy array. Use inherrited class in a with clause to ensure file is
	# closed when it goes out of scope.
	def __init__(self, filename, element_size):
	self.element_size = element_size
	self.filename = filename
	self.fd = os.open(self.filename, os.O_RDONLY)

	def cleanup(self):
	os.close(self.fd)

	def __enter__(self):
	return self

	def __exit__(self, exc_type, exc_val, exc_tb):
	self.cleanup()

	def _readin(self, offset, buffer):
	length = os.preadv(self.fd, (buffer,), offset)
	if len(buffer) != length:
	raise FileIOException('error: {} failed to read {} bytes at {:x}'
	.format(self.filename, len(buffer), offset))

	def _toarray(self, buf):
	assert(self.element_size == 8)
	return np.frombuffer(buf, dtype=np.uint64)

	def getv(self, vec):
	vec *= self.element_size
	offsets = vec[:, 0]
	lengths = (np.diff(vec) + self.element_size).reshape(len(vec))
	buf = bytearray(int(np.sum(lengths)))
	view = memoryview(buf)
	pos = 0
	for offset, length in zip(offsets, lengths):
	offset = int(offset)
	length = int(length)
	self._readin(offset, view[pos:pos+length])
	pos += length
	return self._toarray(buf)

	def get(self, index, nr=1):
	offset = index * self.element_size
	length = nr * self.element_size
	buf = bytearray(length)
	self._readin(offset, buf)
	return self._toarray(buf)


	PM_PAGE_PRESENT = 1 << 63
	PM_PFN_MASK = (1 << 55) - 1

	class PageMap(BinArrayFile):
	# Read ranges of a given pid's pagemap into a numpy array.
	def __init__(self, pid='self'):
	super().__init__(f'/proc/{pid}/pagemap', 8)


	KPF_ANON = 1 << 12
	KPF_COMPOUND_HEAD = 1 << 15
	KPF_COMPOUND_TAIL = 1 << 16
	KPF_THP = 1 << 22

	class KPageFlags(BinArrayFile):
	# Read ranges of /proc/kpageflags into a numpy array.
	def __init__(self):
	super().__init__(f'/proc/kpageflags', 8)


	vma_all_stats = set([
	"Size",
	"Rss",
	"Pss",
	"Pss_Dirty",
	"Shared_Clean",
	"Shared_Dirty",
	"Private_Clean",
	"Private_Dirty",
	"Referenced",
	"Anonymous",
	"KSM",
	"LazyFree",
	"AnonHugePages",
	"ShmemPmdMapped",
	"FilePmdMapped",
	"Shared_Hugetlb",
	"Private_Hugetlb",
	"Swap",
	"SwapPss",
	"Locked",
	])

	vma_min_stats = set([
	"Rss",
	"Anonymous",
	"AnonHugePages",
	"ShmemPmdMapped",
	"FilePmdMapped",
	])

	VMA = collections.namedtuple('VMA', [
	'name',
	'start',
	'end',
	'read',
	'write',
	'execute',
	'private',
	'pgoff',
	'major',
	'minor',
	'inode',
	'stats',
	])

	class VMAList:
	# A container for VMAs, parsed from /proc/<pid>/smaps. Iterate over the
	# instance to receive VMAs.
	def __init__(self, pid='self', stats=[]):
	self.vmas = []
	with open(f'/proc/{pid}/smaps', 'r') as file:
	for line in file:
	elements = line.split()
	if '-' in elements[0]:
	start, end = map(lambda x: int(x, 16), elements[0].split('-'))
	major, minor = map(lambda x: int(x, 16), elements[3].split(':'))
	self.vmas.append(VMA(
	name=elements[5] if len(elements) == 6 else '',
	start=start,
	end=end,
	read=elements[1][0] == 'r',
	write=elements[1][1] == 'w',
	execute=elements[1][2] == 'x',
	private=elements[1][3] == 'p',
	pgoff=int(elements[2], 16),
	major=major,
	minor=minor,
	inode=int(elements[4], 16),
	stats={},
	))
	else:
	param = elements[0][:-1]
	if param in stats:
	value = int(elements[1])
	self.vmas[-1].stats[param] = {'type': None, 'value': value}

	def __iter__(self):
	yield from self.vmas


	def thp_parse(vma, kpageflags, ranges, indexes, vfns, pfns, anons, heads):
	# Given 4 same-sized arrays representing a range within a page table backed
	# by THPs (vfns: virtual frame numbers, pfns: physical frame numbers, anons:
	# True if page is anonymous, heads: True if page is head of a THP), return a
	# dictionary of statistics describing the mapped THPs.
	stats = {
	'file': {
	'partial': 0,
	'aligned': [0] * (PMD_ORDER + 1),
	'unaligned': [0] * (PMD_ORDER + 1),
	},
	'anon': {
	'partial': 0,
	'aligned': [0] * (PMD_ORDER + 1),
	'unaligned': [0] * (PMD_ORDER + 1),
	},
	}

	for rindex, rpfn in zip(ranges[0], ranges[2]):
	index_next = int(rindex[0])
	index_end = int(rindex[1]) + 1
	pfn_end = int(rpfn[1]) + 1

	folios = indexes[index_next:index_end][heads[index_next:index_end]]

	# Account pages for any partially mapped THP at the front. In that case,
	# the first page of the range is a tail.
	nr = (int(folios[0]) if len(folios) else index_end) - index_next
	stats['anon' if anons[index_next] else 'file']['partial'] += nr

	# Account pages for any partially mapped THP at the back. In that case,
	# the next page after the range is a tail.
	if len(folios):
	flags = int(kpageflags.get(pfn_end)[0])
	if flags & KPF_COMPOUND_TAIL:
	nr = index_end - int(folios[-1])
	folios = folios[:-1]
	index_end -= nr
	stats['anon' if anons[index_end - 1] else 'file']['partial'] += nr

	# Account fully mapped THPs in the middle of the range.
	if len(folios):
	folio_nrs = np.append(np.diff(folios), np.uint64(index_end - folios[-1]))
	folio_orders = np.log2(folio_nrs).astype(np.uint64)
	for index, order in zip(folios, folio_orders):
	index = int(index)
	order = int(order)
	nr = 1 << order
	vfn = int(vfns[index])
	align = 'aligned' if align_forward(vfn, nr) == vfn else 'unaligned'
	anon = 'anon' if anons[index] else 'file'
	stats[anon][align][order] += nr

	# Account PMD-mapped THPs spearately, so filter out of the stats. There is a
	# race between acquiring the smaps stats and reading pagemap, where memory
	# could be deallocated. So clamp to zero incase it would have gone negative.
	anon_pmd_mapped = vma.stats['AnonHugePages']['value']
	file_pmd_mapped = vma.stats['ShmemPmdMapped']['value'] + \
	vma.stats['FilePmdMapped']['value']
	stats['anon']['aligned'][PMD_ORDER] = max(0, stats['anon']['aligned'][PMD_ORDER] - kbnr(anon_pmd_mapped))
	stats['file']['aligned'][PMD_ORDER] = max(0, stats['file']['aligned'][PMD_ORDER] - kbnr(file_pmd_mapped))

	rstats = {
	f"anon-thp-pmd-aligned-{odkb(PMD_ORDER)}kB": {'type': 'anon', 'value': anon_pmd_mapped},
	f"file-thp-pmd-aligned-{odkb(PMD_ORDER)}kB": {'type': 'file', 'value': file_pmd_mapped},
	}

	def flatten_sub(type, subtype, stats):
	param = f"{type}-thp-pte-{subtype}-{{}}kB"
	for od, nr in enumerate(stats[2:], 2):
	rstats[param.format(odkb(od))] = {'type': type, 'value': nrkb(nr)}

	def flatten_type(type, stats):
	flatten_sub(type, 'aligned', stats['aligned'])
	flatten_sub(type, 'unaligned', stats['unaligned'])
	rstats[f"{type}-thp-pte-partial"] = {'type': type, 'value': nrkb(stats['partial'])}

	flatten_type('anon', stats['anon'])
	flatten_type('file', stats['file'])

	return rstats


	def cont_parse(vma, order, ranges, anons, heads):
	# Given 4 same-sized arrays representing a range within a page table backed
	# by THPs (vfns: virtual frame numbers, pfns: physical frame numbers, anons:
	# True if page is anonymous, heads: True if page is head of a THP), return a
	# dictionary of statistics describing the contiguous blocks.
	nr_cont = 1 << order
	nr_anon = 0
	nr_file = 0

	for rindex, rvfn, rpfn in zip(*ranges):
	index_next = int(rindex[0])
	index_end = int(rindex[1]) + 1
	vfn_start = int(rvfn[0])
	pfn_start = int(rpfn[0])

	if align_offset(pfn_start, nr_cont) != align_offset(vfn_start, nr_cont):
	continue

	off = align_forward(vfn_start, nr_cont) - vfn_start
	index_next += off

	while index_next + nr_cont <= index_end:
	folio_boundary = heads[index_next+1:index_next+nr_cont].any()
	if not folio_boundary:
	if anons[index_next]:
	nr_anon += nr_cont
	else:
	nr_file += nr_cont
	index_next += nr_cont

	# Account blocks that are PMD-mapped spearately, so filter out of the stats.
	# There is a race between acquiring the smaps stats and reading pagemap,
	# where memory could be deallocated. So clamp to zero incase it would have
	# gone negative.
	anon_pmd_mapped = vma.stats['AnonHugePages']['value']
	file_pmd_mapped = vma.stats['ShmemPmdMapped']['value'] + \
	vma.stats['FilePmdMapped']['value']
	nr_anon = max(0, nr_anon - kbnr(anon_pmd_mapped))
	nr_file = max(0, nr_file - kbnr(file_pmd_mapped))

	rstats = {
	f"anon-cont-pmd-aligned-{nrkb(nr_cont)}kB": {'type': 'anon', 'value': anon_pmd_mapped},
	f"file-cont-pmd-aligned-{nrkb(nr_cont)}kB": {'type': 'file', 'value': file_pmd_mapped},
	}

	rstats[f"anon-cont-pte-aligned-{nrkb(nr_cont)}kB"] = {'type': 'anon', 'value': nrkb(nr_anon)}
	rstats[f"file-cont-pte-aligned-{nrkb(nr_cont)}kB"] = {'type': 'file', 'value': nrkb(nr_file)}

	return rstats


	def vma_print(vma, pid):
	# Prints a VMA instance in a format similar to smaps. The main difference is
	# that the pid is included as the first value.
	print("{:010d}: {:016x}-{:016x} {}{}{}{} {:08x} {:02x}:{:02x} {:08x} {}"
	.format(
	pid, vma.start, vma.end,
	'r' if vma.read else '-', 'w' if vma.write else '-',
	'x' if vma.execute else '-', 'p' if vma.private else 's',
	vma.pgoff, vma.major, vma.minor, vma.inode, vma.name
	))


	def stats_print(stats, tot_anon, tot_file, inc_empty):
	# Print a statistics dictionary.
	label_field = 32
	for label, stat in stats.items():
	type = stat['type']
	value = stat['value']
	if value or inc_empty:
	pad = max(0, label_field - len(label) - 1)
	if type == 'anon' and tot_anon > 0:
	percent = f' ({value / tot_anon:3.0%})'
	elif type == 'file' and tot_file > 0:
	percent = f' ({value / tot_file:3.0%})'
	else:
	percent = ''
	print(f"{label}:{' ' * pad}{value:8} kB{percent}")


	def vma_parse(vma, pagemap, kpageflags, contorders):
	# Generate thp and cont statistics for a single VMA.
	start = vma.start >> PAGE_SHIFT
	end = vma.end >> PAGE_SHIFT

	pmes = pagemap.get(start, end - start)
	present = pmes & PM_PAGE_PRESENT != 0
	pfns = pmes & PM_PFN_MASK
	pfns = pfns[present]
	vfns = np.arange(start, end, dtype=np.uint64)
	vfns = vfns[present]

	pfn_vec = cont_ranges_all([pfns], [pfns])[0]
	flags = kpageflags.getv(pfn_vec)
	anons = flags & KPF_ANON != 0
	heads = flags & KPF_COMPOUND_HEAD != 0
	thps = flags & KPF_THP != 0

	vfns = vfns[thps]
	pfns = pfns[thps]
	anons = anons[thps]
	heads = heads[thps]

	indexes = np.arange(len(vfns), dtype=np.uint64)
	ranges = cont_ranges_all([vfns, pfns], [indexes, vfns, pfns])

	thpstats = thp_parse(vma, kpageflags, ranges, indexes, vfns, pfns, anons, heads)
	contstats = [cont_parse(vma, order, ranges, anons, heads) for order in contorders]

	tot_anon = vma.stats['Anonymous']['value']
	tot_file = vma.stats['Rss']['value'] - tot_anon

	return {
	**thpstats,
	**{k: v for s in contstats for k, v in s.items()}
	}, tot_anon, tot_file


	def do_main(args):
	pids = set()
	rollup = {}
	rollup_anon = 0
	rollup_file = 0

	if args.cgroup:
	strict = False
	for walk_info in os.walk(args.cgroup):
	cgroup = walk_info[0]
	with open(f'{cgroup}/cgroup.procs') as pidfile:
	for line in pidfile.readlines():
	pids.add(int(line.strip()))
	elif args.pid:
	strict = True
	pids = pids.union(args.pid)
	else:
	strict = False
	for pid in os.listdir('/proc'):
	if pid.isdigit():
	pids.add(int(pid))

	if not args.rollup:
	print(" PID START END PROT OFFSET DEV INODE OBJECT")

	for pid in pids:
	try:
	with PageMap(pid) as pagemap:
	with KPageFlags() as kpageflags:
	for vma in VMAList(pid, vma_all_stats if args.inc_smaps else vma_min_stats):
	if (vma.read or vma.write or vma.execute) and vma.stats['Rss']['value'] > 0:
	stats, vma_anon, vma_file = vma_parse(vma, pagemap, kpageflags, args.cont)
	else:
	stats = {}
	vma_anon = 0
	vma_file = 0
	if args.inc_smaps:
	stats = {vma.stats, stats}
	if args.rollup:
	for k, v in stats.items():
	if k in rollup:
	assert(rollup[k]['type'] == v['type'])
	rollup[k]['value'] += v['value']
	else:
	rollup[k] = v
	rollup_anon += vma_anon
	rollup_file += vma_file
	else:
	vma_print(vma, pid)
	stats_print(stats, vma_anon, vma_file, args.inc_empty)
	except (FileNotFoundError, ProcessLookupError, FileIOException):
	if strict:
	raise

	if args.rollup:
	stats_print(rollup, rollup_anon, rollup_file, args.inc_empty)


	def main():
	docs_width = shutil.get_terminal_size().columns
	docs_width -= 2
	docs_width = min(80, docs_width)

	def format(string):
	text = re.sub(r'\s+', ' ', string)
	text = re.sub(r'\s\\n\s', '\n', text)
	paras = text.split('\n')
	paras = [textwrap.fill(p, width=docs_width) for p in paras]
	return '\n'.join(paras)

	def formatter(prog):
	return argparse.RawDescriptionHelpFormatter(prog, width=docs_width)

	def size2order(human):
	units = {
	"K": 210, "M": 220, "G": 2**30,
	"k": 210, "m": 220, "g": 2**30,
	}
	unit = 1
	if human[-1] in units:
	unit = units[human[-1]]
	human = human[:-1]
	try:
	size = int(human)
	except ValueError:
	raise ArgException('error: --cont value must be integer size with optional KMG unit')
	size *= unit
	order = int(math.log2(size / PAGE_SIZE))
	if order < 1:
	raise ArgException('error: --cont value must be size of at least 2 pages')
	if (1 << order) * PAGE_SIZE != size:
	raise ArgException('error: --cont value must be size of power-of-2 pages')
	if order > PMD_ORDER:
	raise ArgException('error: --cont value must be less than or equal to PMD order')
	return order

	parser = argparse.ArgumentParser(formatter_class=formatter,
	description=format("""Prints information about how transparent huge
	pages are mapped, either system-wide, or for a specified
	process or cgroup.\\n
	\\n
	When run with --pid, the user explicitly specifies the set
	of pids to scan. e.g. "--pid 10 [--pid 134 ...]". When run
	with --cgroup, the user passes either a v1 or v2 cgroup and
	all pids that belong to the cgroup subtree are scanned. When
	run with neither --pid nor --cgroup, the full set of pids on
	the system is gathered from /proc and scanned as if the user
	had provided "--pid 1 --pid 2 ...".\\n
	\\n
	A default set of statistics is always generated for THP
	mappings. However, it is also possible to generate
	additional statistics for "contiguous block mappings" where
	the block size is user-defined.\\n
	\\n
	Statistics are maintained independently for anonymous and
	file-backed (pagecache) memory and are shown both in kB and
	as a percentage of either total anonymous or total
	file-backed memory as appropriate.\\n
	\\n
	THP Statistics\\n
	--------------\\n
	\\n
	Statistics are always generated for fully- and
	contiguously-mapped THPs whose mapping address is aligned to
	their size, for each <size> supported by the system.
	Separate counters describe THPs mapped by PTE vs those
	mapped by PMD. (Although note a THP can only be mapped by
	PMD if it is PMD-sized):\\n
	\\n
	- anon-thp-pte-aligned-<size>kB\\n
	- file-thp-pte-aligned-<size>kB\\n
	- anon-thp-pmd-aligned-<size>kB\\n
	- file-thp-pmd-aligned-<size>kB\\n
	\\n
	Similarly, statistics are always generated for fully- and
	contiguously-mapped THPs whose mapping address is not
	aligned to their size, for each <size> supported by the
	system. Due to the unaligned mapping, it is impossible to
	map by PMD, so there are only PTE counters for this case:\\n
	\\n
	- anon-thp-pte-unaligned-<size>kB\\n
	- file-thp-pte-unaligned-<size>kB\\n
	\\n
	Statistics are also always generated for mapped pages that
	belong to a THP but where the is THP is not fully- and
	contiguously- mapped. These "partial" mappings are all
	counted in the same counter regardless of the size of the
	THP that is partially mapped:\\n
	\\n
	- anon-thp-pte-partial\\n
	- file-thp-pte-partial\\n
	\\n
	Contiguous Block Statistics\\n
	---------------------------\\n
	\\n
	An optional, additional set of statistics is generated for
	every contiguous block size specified with `--cont <size>`.
	These statistics show how much memory is mapped in
	contiguous blocks of <size> and also aligned to <size>. A
	given contiguous block must all belong to the same THP, but
	there is no requirement for it to be the whole THP.
	Separate counters describe contiguous blocks mapped by PTE
	vs those mapped by PMD:\\n
	\\n
	- anon-cont-pte-aligned-<size>kB\\n
	- file-cont-pte-aligned-<size>kB\\n
	- anon-cont-pmd-aligned-<size>kB\\n
	- file-cont-pmd-aligned-<size>kB\\n
	\\n
	As an example, if monitoring 64K contiguous blocks (--cont
	64K), there are a number of sources that could provide such
	blocks: a fully- and contiguously-mapped 64K THP that is
	aligned to a 64K boundary would provide 1 block. A fully-
	and contiguously-mapped 128K THP that is aligned to at least
	a 64K boundary would provide 2 blocks. Or a 128K THP that
	maps its first 100K, but contiguously and starting at a 64K
	boundary would provide 1 block. A fully- and
	contiguously-mapped 2M THP would provide 32 blocks. There
	are many other possible permutations.\\n"""),
	epilog=format("""Requires root privilege to access pagemap and
	kpageflags."""))

	group = parser.add_mutually_exclusive_group(required=False)
	group.add_argument('--pid',
	metavar='pid', required=False, type=int, default=[], action='append',
	help="""Process id of the target process. Maybe issued multiple times to
	scan multiple processes. --pid and --cgroup are mutually exclusive.
	If neither are provided, all processes are scanned to provide
	system-wide information.""")

	group.add_argument('--cgroup',
	metavar='path', required=False,
	help="""Path to the target cgroup in sysfs. Iterates over every pid in
	the cgroup and its children. --pid and --cgroup are mutually
	exclusive. If neither are provided, all processes are scanned to
	provide system-wide information.""")

	parser.add_argument('--rollup',
	required=False, default=False, action='store_true',
	help="""Sum the per-vma statistics to provide a summary over the whole
	system, process or cgroup.""")

	parser.add_argument('--cont',
	metavar='size[KMG]', required=False, default=[], action='append',
	help="""Adds stats for memory that is mapped in contiguous blocks of
	<size> and also aligned to <size>. May be issued multiple times to
	track multiple sized blocks. Useful to infer e.g. arm64 contpte and
	hpa mappings. Size must be a power-of-2 number of pages.""")

	parser.add_argument('--inc-smaps',
	required=False, default=False, action='store_true',
	help="""Include all numerical, additive /proc/<pid>/smaps stats in the
	output.""")

	parser.add_argument('--inc-empty',
	required=False, default=False, action='store_true',
	help="""Show all statistics including those whose value is 0.""")

	parser.add_argument('--periodic',
	metavar='sleep_ms', required=False, type=int,
	help="""Run in a loop, polling every sleep_ms milliseconds.""")

	args = parser.parse_args()

	try:
	args.cont = [size2order(cont) for cont in args.cont]
	except ArgException as e:
	parser.print_usage()
	raise

	if args.periodic:
	while True:
	do_main(args)
	print()
	time.sleep(args.periodic / 1000)
	else:
	do_main(args)


	if __name__ == "__main__":
	try:
	main()
	except Exception as e:
	prog = os.path.basename(sys.argv[0])
	print(f'{prog}: {e}')
	exit(1)