tools/testing/selftests/cgroup/memcg_protection.m - linux/kernel/git/gregkh/usb - Git at Google

 % SPDX-License-Identifier: GPL-2.0
 %
 % run as: octave-cli memcg_protection.m
 %
 % This script simulates reclaim protection behavior on a single level of memcg
 % hierarchy to illustrate how overcommitted protection spreads among siblings
 % (as it depends also on their current consumption).
 %
 % Simulation assumes siblings consumed the initial amount of memory (w/out
 % reclaim) and then the reclaim starts, all memory is reclaimable, i.e. treated
 % same. It simulates only non-low reclaim and assumes all memory.min = 0.
 %
 % Input configurations
 % --------------------
 % E number	parent effective protection
 % n vector	nominal protection of siblings set at the given level (memory.low)
 % c vector	current consumption -,,- (memory.current)

 % example from testcase (values in GB)
 E = 50 / 1024;
 n = [75 25 0 500 ] / 1024;
 c = [50 50 50 0] / 1024;

 % Reclaim parameters
 % ------------------

 % Minimal reclaim amount (GB)
 cluster = 32*4 / 2**20;

 % Reclaim coefficient (think as 0.5^sc->priority)
 alpha = .1

 % Simulation parameters
 % ---------------------
 epsilon = 1e-7;
 timeout = 1000;

 % Simulation loop
 % ---------------

 ch = [];
 eh = [];
 rh = [];

 for t = 1:timeout
         % low_usage
         u = min(c, n);
         siblings = sum(u);

         % effective_protection()
         protected = min(n, c);                % start with nominal
         e = protected * min(1, E / siblings); % normalize overcommit

         % recursive protection
         unclaimed = max(0, E - siblings);
         parent_overuse = sum(c) - siblings;
         if (unclaimed > 0 && parent_overuse > 0)
                 overuse = max(0, c - protected);
                 e += unclaimed * (overuse / parent_overuse);
         endif

         % get_scan_count()
         r = alpha * c;             % assume all memory is in a single LRU list

         % commit 1bc63fb1272b ("mm, memcg: make scan aggression always exclude protection")
         sz = max(e, c);
         r .*= (1 - (e+epsilon) ./ (sz+epsilon));

         % uncomment to debug prints
         % e, c, r

         % nothing to reclaim, reached equilibrium
         if max(r) < epsilon
                 break;
         endif

         % SWAP_CLUSTER_MAX roundup
         r = max(r, (r > epsilon) .* cluster);
         % XXX here I do parallel reclaim of all siblings
         % in reality reclaim is serialized and each sibling recalculates own residual
         c = max(c - r, 0);

         ch = [ch ; c];
         eh = [eh ; e];
         rh = [rh ; r];
 endfor

 t
 c, e
	% SPDX-License-Identifier: GPL-2.0
	%
	% run as: octave-cli memcg_protection.m
	%
	% This script simulates reclaim protection behavior on a single level of memcg
	% hierarchy to illustrate how overcommitted protection spreads among siblings
	% (as it depends also on their current consumption).
	%
	% Simulation assumes siblings consumed the initial amount of memory (w/out
	% reclaim) and then the reclaim starts, all memory is reclaimable, i.e. treated
	% same. It simulates only non-low reclaim and assumes all memory.min = 0.
	%
	% Input configurations
	% --------------------
	% E number parent effective protection
	% n vector nominal protection of siblings set at the given level (memory.low)
	% c vector current consumption -,,- (memory.current)

	% example from testcase (values in GB)
	E = 50 / 1024;
	n = [75 25 0 500 ] / 1024;
	c = [50 50 50 0] / 1024;

	% Reclaim parameters
	% ------------------

	% Minimal reclaim amount (GB)
	cluster = 324 / 2*20;

	% Reclaim coefficient (think as 0.5^sc->priority)
	alpha = .1

	% Simulation parameters
	% ---------------------
	epsilon = 1e-7;
	timeout = 1000;

	% Simulation loop
	% ---------------

	ch = [];
	eh = [];
	rh = [];

	for t = 1:timeout
	% low_usage
	u = min(c, n);
	siblings = sum(u);

	% effective_protection()
	protected = min(n, c); % start with nominal
	e = protected * min(1, E / siblings); % normalize overcommit

	% recursive protection
	unclaimed = max(0, E - siblings);
	parent_overuse = sum(c) - siblings;
	if (unclaimed > 0 && parent_overuse > 0)
	overuse = max(0, c - protected);
	e += unclaimed * (overuse / parent_overuse);
	endif

	% get_scan_count()
	r = alpha * c; % assume all memory is in a single LRU list

	% commit 1bc63fb1272b ("mm, memcg: make scan aggression always exclude protection")
	sz = max(e, c);
	r .*= (1 - (e+epsilon) ./ (sz+epsilon));

	% uncomment to debug prints
	% e, c, r

	% nothing to reclaim, reached equilibrium
	if max(r) < epsilon
	break;
	endif

	% SWAP_CLUSTER_MAX roundup
	r = max(r, (r > epsilon) .* cluster);
	% XXX here I do parallel reclaim of all siblings
	% in reality reclaim is serialized and each sibling recalculates own residual
	c = max(c - r, 0);

	ch = [ch ; c];
	eh = [eh ; e];
	rh = [rh ; r];
	endfor

	t
	c, e