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/* SPDX-License-Identifier: GPL-2.0-or-later
 * Copyright Red Hat
 * Author: David Gibson <david@gibson.dropbear.id.au>
 *
 * Tracking for logical "flows" of packets.
 */

#include <stdint.h>
#include <stdio.h>
#include <unistd.h>
#include <string.h>

#include "util.h"
#include "ip.h"
#include "passt.h"
#include "siphash.h"
#include "inany.h"
#include "flow.h"
#include "flow_table.h"

const char *flow_state_str[] = {
	[FLOW_STATE_FREE]	= "FREE",
	[FLOW_STATE_NEW]	= "NEW",
	[FLOW_STATE_INI]	= "INI",
	[FLOW_STATE_FWD]	= "FWD",
	[FLOW_STATE_TYPED]	= "TYPED",
	[FLOW_STATE_ACTIVE]	= "ACTIVE",
};
static_assert(ARRAY_SIZE(flow_state_str) == FLOW_NUM_STATES,
	      "flow_state_str[] doesn't match enum flow_state");

const char *flow_type_str[] = {
	[FLOW_TYPE_NONE]	= "<none>",
	[FLOW_TCP]		= "TCP connection",
	[FLOW_TCP_SPLICE]	= "TCP connection (spliced)",
	[FLOW_PING4]		= "ICMP ping sequence",
	[FLOW_PING6]		= "ICMPv6 ping sequence",
};
static_assert(ARRAY_SIZE(flow_type_str) == FLOW_NUM_TYPES,
	      "flow_type_str[] doesn't match enum flow_type");

const uint8_t flow_proto[] = {
	[FLOW_TCP]		= IPPROTO_TCP,
	[FLOW_TCP_SPLICE]	= IPPROTO_TCP,
	[FLOW_PING4]		= IPPROTO_ICMP,
	[FLOW_PING6]		= IPPROTO_ICMPV6,
};
static_assert(ARRAY_SIZE(flow_proto) == FLOW_NUM_TYPES,
	      "flow_proto[] doesn't match enum flow_type");

/* Global Flow Table */

/**
 * DOC: Theory of Operation - allocating and freeing flow entries
 *
 * Flows are entries in flowtab[]. We need to routinely scan the whole table to
 * perform deferred bookkeeping tasks on active entries, and sparse empty slots
 * waste time and worsen data locality.  But, keeping the table fully compact by
 * moving entries on deletion is fiddly: it requires updating hash tables, and
 * the epoll references to flows. Instead, we implement the compromise described
 * below.
 *
 * Free clusters
 *    A "free cluster" is a contiguous set of unused (FLOW_TYPE_NONE) entries in
 *    flowtab[].  The first entry in each cluster contains metadata ('free'
 *    field in union flow), specifically the number of entries in the cluster
 *    (free.n), and the index of the next free cluster (free.next).  The entries
 *    in the cluster other than the first should have n == next == 0.
 *
 * Free cluster list
 *    flow_first_free gives the index of the first (lowest index) free cluster.
 *    Each free cluster has the index of the next free cluster, or MAX_FLOW if
 *    it is the last free cluster.  Together these form a linked list of free
 *    clusters, in strictly increasing order of index.
 *
 * Allocating
 *    We always allocate a new flow into the lowest available index, i.e. the
 *    first entry of the first free cluster, that is, at index flow_first_free.
 *    We update flow_first_free and the free cluster to maintain the invariants
 *    above (so the free cluster list is still in strictly increasing order).
 *
 * Freeing
 *    It's not possible to maintain the invariants above if we allow freeing of
 *    any entry at any time.  So we only allow freeing in two cases.
 *
 *    1) flow_alloc_cancel() will free the most recent allocation.  We can
 *    maintain the invariants because we know that allocation was made in the
 *    lowest available slot, and so will become the lowest index free slot again
 *    after cancellation.
 *
 *    2) Flows can be freed by returning true from the flow type specific
 *    deferred or timer function.  These are called from flow_defer_handler()
 *    which is already scanning the whole table in index order.  We can use that
 *    to rebuild the free cluster list correctly, either merging them into
 *    existing free clusters or creating new free clusters in the list for them.
 *
 * Scanning the table
 *    Theoretically, scanning the table requires FLOW_MAX iterations.  However,
 *    when we encounter the start of a free cluster, we can immediately skip
 *    past it, meaning that in practice we only need (number of active
 *    connections) + (number of free clusters) iterations.
 */

unsigned flow_first_free;
union flow flowtab[FLOW_MAX];
static const union flow *flow_new_entry; /* = NULL */

/* Last time the flow timers ran */
static struct timespec flow_timer_run;

/* Hash table to index it */
#define FLOW_HASH_LOAD		70		/* % */
#define FLOW_HASH_SIZE		((2 * FLOW_MAX * 100 / FLOW_HASH_LOAD))

/* Table for lookup from flowside information */
static flow_sidx_t flow_hashtab[FLOW_HASH_SIZE];

static_assert(ARRAY_SIZE(flow_hashtab) >= 2 * FLOW_MAX,
"Safe linear probing requires hash table with more entries than the number of sides in the flow table");

/** flowside_from_af() - Initialise flowside from addresses
 * @fside:	flowside to initialise
 * @af:		Address family (AF_INET or AF_INET6)
 * @eaddr:	Endpoint address (pointer to in_addr or in6_addr)
 * @eport:	Endpoint port
 * @faddr:	Forwarding address (pointer to in_addr or in6_addr)
 * @fport:	Forwarding port
 */
void flowside_from_af(struct flowside *fside, sa_family_t af,
		      const void *eaddr, in_port_t eport,
		      const void *faddr, in_port_t fport)
{
	if (faddr)
		inany_from_af(&fside->faddr, af, faddr);
	else
		fside->faddr = inany_any6;
	fside->fport = fport;

	if (eaddr)
		inany_from_af(&fside->eaddr, af, eaddr);
	else
		fside->eaddr = inany_any6;
	fside->eport = eport;
}

/** flow_log_ - Log flow-related message
 * @f:		flow the message is related to
 * @pri:	Log priority
 * @fmt:	Format string
 * @...:	printf-arguments
 */
void flow_log_(const struct flow_common *f, int pri, const char *fmt, ...)
{
	const char *typestate;
	char msg[BUFSIZ];
	va_list args;

	va_start(args, fmt);
	(void)vsnprintf(msg, sizeof(msg), fmt, args);
	va_end(args);

	/* Show type if it's set, otherwise the state */
	if (f->state < FLOW_STATE_TYPED)
		typestate = FLOW_STATE(f);
	else
		typestate = FLOW_TYPE(f);

	logmsg(pri, "Flow %u (%s): %s", flow_idx(f), typestate, msg);
}

/**
 * flow_set_state() - Change flow's state
 * @f:		Flow to update
 * @state:	New state
 */
static void flow_set_state(struct flow_common *f, enum flow_state state)
{
	char estr0[INANY_ADDRSTRLEN], fstr0[INANY_ADDRSTRLEN];
	char estr1[INANY_ADDRSTRLEN], fstr1[INANY_ADDRSTRLEN];
	const struct flowside *ini = &f->side[INISIDE];
	const struct flowside *fwd = &f->side[FWDSIDE];
	uint8_t oldstate = f->state;

	ASSERT(state < FLOW_NUM_STATES);
	ASSERT(oldstate < FLOW_NUM_STATES);

	f->state = state;
	flow_log_(f, LOG_DEBUG, "%s -> %s", flow_state_str[oldstate],
		  FLOW_STATE(f));

	if (MAX(state, oldstate) >= FLOW_STATE_FWD)
		flow_log_(f, LOG_DEBUG,
			  "%s [%s]:%hu -> [%s]:%hu => %s [%s]:%hu -> [%s]:%hu",
			  pif_name(f->pif[INISIDE]),
			  inany_ntop(&ini->eaddr, estr0, sizeof(estr0)),
			  ini->eport,
			  inany_ntop(&ini->faddr, fstr0, sizeof(fstr0)),
			  ini->fport,
			  pif_name(f->pif[FWDSIDE]),
			  inany_ntop(&fwd->faddr, fstr1, sizeof(fstr1)),
			  ini->fport,
			  inany_ntop(&fwd->eaddr, estr1, sizeof(estr1)),
			  ini->eport);
	else if (MAX(state, oldstate) >= FLOW_STATE_INI)
		flow_log_(f, LOG_DEBUG, "%s [%s]:%hu -> [%s]:%hu => ?",
			  pif_name(f->pif[INISIDE]),
			  inany_ntop(&ini->eaddr, estr0, sizeof(estr0)),
			  ini->eport,
			  inany_ntop(&ini->faddr, fstr0, sizeof(fstr0)),
			  ini->fport);
}

/**
 * flow_initiate_() - Move flow to INI state, setting pif[INISIDE]
 * @flow:	Flow to change state
 * @pif:	pif of the initiating side
 */
static void flow_initiate_(union flow *flow, uint8_t pif)
{
	struct flow_common *f = &flow->f;

	ASSERT(pif != PIF_NONE);
	ASSERT(flow_new_entry == flow && f->state == FLOW_STATE_NEW);
	ASSERT(f->type == FLOW_TYPE_NONE);
	ASSERT(f->pif[INISIDE] == PIF_NONE && f->pif[FWDSIDE] == PIF_NONE);

	f->pif[INISIDE] = pif;
	flow_set_state(f, FLOW_STATE_INI);
}

/**
 * flow_initiate_af() - Move flow to INI state, setting INISIDE details
 * @flow:	Flow to change state
 * @pif:	pif of the initiating side
 * @af:		Address family of @eaddr and @faddr
 * @saddr:	Source address (pointer to in_addr or in6_addr)
 * @sport:	Endpoint port
 * @daddr:	Destination address (pointer to in_addr or in6_addr)
 * @dport:	Destination port
 *
 * Return: pointer to the initiating flowside information
 */
const struct flowside *flow_initiate_af(union flow *flow, uint8_t pif,
					sa_family_t af,
					const void *saddr, in_port_t sport,
					const void *daddr, in_port_t dport)
{
	struct flowside *ini = &flow->f.side[INISIDE];

	flowside_from_af(ini, af, saddr, sport, daddr, dport);
	flow_initiate_(flow, pif);
	return ini;
}

/**
 * flow_initiate_sa() - Move flow to INI state, setting INISIDE details
 * @flow:	Flow to change state
 * @pif:	pif of the initiating side
 * @ssa:	Source socket address
 * @dport:	Destination port
 *
 * Return: pointer to the initiating flowside information
 */
const struct flowside *flow_initiate_sa(union flow *flow, uint8_t pif,
					const union sockaddr_inany *ssa,
					in_port_t dport)
{
	struct flowside *ini = &flow->f.side[INISIDE];

	inany_from_sockaddr(&ini->eaddr, &ini->eport, ssa);
	ini->fport = dport;
	flow_initiate_(flow, pif);
	return ini;
}

/**
 * flow_forward_af() - Move flow to FWD state, setting FWDSIDE details
 * @flow:	Flow to change state
 * @pif:	pif of the forwarded side
 * @af:		Address family for @eaddr and @faddr
 * @saddr:	Source address (pointer to in_addr or in6_addr)
 * @sport:	Endpoint port
 * @daddr:	Destination address (pointer to in_addr or in6_addr)
 * @dport:	Destination port
 *
 * Return: pointer to the forwarded flowside information
 */
/* cppcheck-suppress unusedFunction */
const struct flowside *flow_forward_af(union flow *flow, uint8_t pif,
				       sa_family_t af,
				       const void *saddr, in_port_t sport,
				       const void *daddr, in_port_t dport)
{
	struct flow_common *f = &flow->f;
	struct flowside *fwd = &f->side[FWDSIDE];

	ASSERT(pif != PIF_NONE);
	ASSERT(flow_new_entry == flow && f->state == FLOW_STATE_INI);
	ASSERT(f->type == FLOW_TYPE_NONE);
	ASSERT(f->pif[INISIDE] != PIF_NONE && f->pif[FWDSIDE] == PIF_NONE);

	flowside_from_af(fwd, af, daddr, dport, saddr, sport);
	f->pif[FWDSIDE] = pif;
	flow_set_state(f, FLOW_STATE_FWD);
	return fwd;
}


/**
 * flow_forward() - Determine where flow should forward to, and move to FWD
 * @c:		Execution context
 * @flow:	Flow to forward
 * @proto:	Protocol
 *
 * Return: pointer to the forwarded flowside information
 */
const struct flowside *flow_forward(const struct ctx *c, union flow *flow,
				    uint8_t proto)
{
	char estr[INANY_ADDRSTRLEN], fstr[INANY_ADDRSTRLEN];
	struct flow_common *f = &flow->f;
	const struct flowside *ini = &f->side[INISIDE];
	struct flowside *fwd = &f->side[FWDSIDE];
	uint8_t pif1 = PIF_NONE;

	ASSERT(flow_new_entry == flow && f->state == FLOW_STATE_INI);
	ASSERT(f->type == FLOW_TYPE_NONE);
	ASSERT(f->pif[INISIDE] != PIF_NONE && f->pif[FWDSIDE] == PIF_NONE);
	ASSERT(flow->f.state == FLOW_STATE_INI);

	switch (f->pif[INISIDE]) {
	case PIF_TAP:
		pif1 = fwd_from_tap(c, proto, ini, fwd);
		break;

	case PIF_SPLICE:
		pif1 = fwd_from_splice(c, proto, ini, fwd);
		break;

	case PIF_HOST:
		pif1 = fwd_from_host(c, proto, ini, fwd);
		break;

	default:
		flow_err(flow, "No rules to forward %s [%s]:%hu -> [%s]:%hu",
			 pif_name(f->pif[INISIDE]),
			 inany_ntop(&ini->eaddr, estr, sizeof(estr)),
			 ini->eport,
			 inany_ntop(&ini->faddr, fstr, sizeof(fstr)),
			 ini->fport);
	}

	if (pif1 == PIF_NONE)
		return NULL;

	f->pif[FWDSIDE] = pif1;
	flow_set_state(f, FLOW_STATE_FWD);
	return fwd;
}

/**
 * flow_set_type() - Set type and move to TYPED state
 * @flow:	Flow to change state
 * @pif:	pif of the initiating side
 */
union flow *flow_set_type(union flow *flow, enum flow_type type)
{
	struct flow_common *f = &flow->f;

	ASSERT(type != FLOW_TYPE_NONE);
	ASSERT(flow_new_entry == flow && f->state == FLOW_STATE_FWD);
	ASSERT(f->type == FLOW_TYPE_NONE);
	ASSERT(f->pif[INISIDE] != PIF_NONE && f->pif[FWDSIDE] != PIF_NONE);

	f->type = type;
	flow_set_state(f, FLOW_STATE_TYPED);
	return flow;
}

/**
 * flow_activate() - Move flow to ACTIVE state
 * @f:		Flow to change state
 */
void flow_activate(struct flow_common *f)
{
	ASSERT(&flow_new_entry->f == f && f->state == FLOW_STATE_TYPED);
	ASSERT(f->pif[INISIDE] != PIF_NONE && f->pif[FWDSIDE] != PIF_NONE);

	flow_set_state(f, FLOW_STATE_ACTIVE);
	flow_new_entry = NULL;
}

/**
 * flow_alloc() - Allocate a new flow
 *
 * Return: pointer to an unused flow entry, or NULL if the table is full
 */
union flow *flow_alloc(void)
{
	union flow *flow = &flowtab[flow_first_free];

	ASSERT(!flow_new_entry);

	if (flow_first_free >= FLOW_MAX)
		return NULL;

	ASSERT(flow->f.state == FLOW_STATE_FREE);
	ASSERT(flow->f.type == FLOW_TYPE_NONE);
	ASSERT(flow->free.n >= 1);
	ASSERT(flow_first_free + flow->free.n <= FLOW_MAX);

	if (flow->free.n > 1) {
		union flow *next;

		/* Use one entry from the cluster */
		ASSERT(flow_first_free <= FLOW_MAX - 2);
		next = &flowtab[++flow_first_free];

		ASSERT(FLOW_IDX(next) < FLOW_MAX);
		ASSERT(next->f.type == FLOW_TYPE_NONE);
		ASSERT(next->free.n == 0);

		next->free.n = flow->free.n - 1;
		next->free.next = flow->free.next;
	} else {
		/* Use the entire cluster */
		flow_first_free = flow->free.next;
	}

	flow_new_entry = flow;
	memset(flow, 0, sizeof(*flow));
	flow_set_state(&flow->f, FLOW_STATE_NEW);

	return flow;
}

/**
 * flow_alloc_cancel() - Free a newly allocated flow
 * @flow:	Flow to deallocate
 *
 * @flow must be the last flow allocated by flow_alloc()
 */
void flow_alloc_cancel(union flow *flow)
{
	ASSERT(flow_new_entry == flow);
	ASSERT(flow->f.state == FLOW_STATE_NEW ||
	       flow->f.state == FLOW_STATE_INI ||
	       flow->f.state == FLOW_STATE_FWD ||
	       flow->f.state == FLOW_STATE_TYPED);
	ASSERT(flow_first_free > FLOW_IDX(flow));

	flow_set_state(&flow->f, FLOW_STATE_FREE);
	memset(flow, 0, sizeof(*flow));

	/* Put it back in a length 1 free cluster, don't attempt to fully
	 * reverse flow_alloc()s steps.  This will get folded together the next
	 * time flow_defer_handler runs anyway() */
	flow->free.n = 1;
	flow->free.next = flow_first_free;
	flow_first_free = FLOW_IDX(flow);
	flow_new_entry = NULL;
}

/**
 * flow_hash() - Calculate hash value for one side of a flow
 * @c:		Execution context
 * @proto:	Protocol of this flow (IP L4 protocol number)
 * @pif:	pif of the side to hash
 * @fside:	Flowside (must not have unspecified parts)
 *
 * Return: hash value
 */
static uint64_t flow_hash(const struct ctx *c, uint8_t proto, uint8_t pif,
			  const struct flowside *fside)
{
	struct siphash_state state = SIPHASH_INIT(c->hash_secret);

	/* For the hash table to work, we need complete information in the
	 * flowside.
	 */
	ASSERT(pif != PIF_NONE &&
	       !inany_is_unspecified(&fside->faddr) && fside->fport != 0 &&
	       !inany_is_unspecified(&fside->eaddr) && fside->eport != 0);

	inany_siphash_feed(&state, &fside->faddr);
	inany_siphash_feed(&state, &fside->eaddr);

	return siphash_final(&state, 38, (uint64_t)proto << 40 |
			     (uint64_t)pif << 32 |
			     fside->fport << 16 | fside->eport);
}

/**
 * flow_sidx_hash() - Calculate hash value for given side of a given flow
 * @c:		Execution context
 * @sidx:	Flow & side index to get hash for
 *
 * Return: hash value, of the flow & side represented by @sidx
 */
static uint64_t flow_sidx_hash(const struct ctx *c, flow_sidx_t sidx)
{
	const struct flow_common *f = &flow_at_sidx(sidx)->f;
	return flow_hash(c, FLOW_PROTO(f),
			 f->pif[sidx.side], &f->side[sidx.side]);
}

/**
 * flow_hash_probe_() - Find hash bucket for a flow, given hash
 * @hash:	Raw hash value for flow & side
 * @sidx:	Flow and side to find bucket for
 *
 * Return: If @sidx is in the hash table, its current bucket, otherwise a
 *         suitable free bucket for it.
 */
static inline unsigned flow_hash_probe_(uint64_t hash, flow_sidx_t sidx)
{
	unsigned b = hash % FLOW_HASH_SIZE;

	/* Linear probing */
	while (!flow_sidx_eq(flow_hashtab[b], FLOW_SIDX_NONE) &&
	       !flow_sidx_eq(flow_hashtab[b], sidx))
		b = mod_sub(b, 1, FLOW_HASH_SIZE);

	return b;
}

/**
 * flow_hash_probe() - Find hash bucket for a flow
 * @c:		Execution context
 * @sidx:	Flow and side to find bucket for
 *
 * Return: If @sidx is in the hash table, its current bucket, otherwise a
 *         suitable free bucket for it.
 */
static inline unsigned flow_hash_probe(const struct ctx *c, flow_sidx_t sidx)
{
	return flow_hash_probe_(flow_sidx_hash(c, sidx), sidx);
}

/**
 * flow_hash_insert() - Insert side of a flow into into hash table
 * @c:		Execution context
 * @sidx:	Flow & side index
 *
 * Return: raw (un-modded) hash value of side of flow
 */
uint64_t flow_hash_insert(const struct ctx *c, flow_sidx_t sidx)
{
	uint64_t hash = flow_sidx_hash(c, sidx);
	unsigned b = flow_hash_probe_(hash, sidx);

	flow_hashtab[b] = sidx;
	flow_dbg(flow_at_sidx(sidx), "hash table insert: bucket: %u", b);

	return hash;
}

/**
 * flow_hash_remove() - Drop side of a flow from the hash table
 * @c:		Execution context
 * @sidx:	Side of flow to remove
 */
void flow_hash_remove(const struct ctx *c, flow_sidx_t sidx)
{
	unsigned b = flow_hash_probe(c, sidx), s;

	if (flow_sidx_eq(flow_hashtab[b], FLOW_SIDX_NONE))
		return; /* Redundant remove */

	flow_dbg(flow_at_sidx(sidx), "hash table remove: bucket: %u", b);

	/* Scan the remainder of the cluster */
	for (s = mod_sub(b, 1, FLOW_HASH_SIZE);
	     !flow_sidx_eq(flow_hashtab[s], FLOW_SIDX_NONE);
	     s = mod_sub(s, 1, FLOW_HASH_SIZE)) {
		unsigned h = flow_sidx_hash(c, flow_hashtab[s]) % FLOW_HASH_SIZE;

		if (!mod_between(h, s, b, FLOW_HASH_SIZE)) {
			/* flow_hashtab[s] can live in flow_hashtab[b]'s slot */
			debug("hash table remove: shuffle %u -> %u", s, b);
			flow_hashtab[b] = flow_hashtab[s];
			b = s;
		}
	}

	flow_hashtab[b] = FLOW_SIDX_NONE;
}

/**
 * flowside_lookup() - Look for a matching flowside in the flow table
 * @c:		Execution context
 * @proto:	Protocol of the flow (IP L4 protocol number)
 * @pif:	pif to look for in the table
 * @fside:	Flowside to look for in the table
 *
 * Return: sidx of the matching flow & side, FLOW_SIDX_NONE if not found
 */
static flow_sidx_t flowside_lookup(const struct ctx *c, uint8_t proto,
				   uint8_t pif, const struct flowside *fside)
{
	union flow *flow;
	int b;

	b = flow_hash(c, proto, pif, fside) % FLOW_HASH_SIZE;
	while ((flow = flow_at_sidx(flow_hashtab[b])) &&
	       FLOW_PROTO(&flow->f) == proto &&
	       !(flow->f.pif[flow_hashtab[b].side] == pif &&
		 flowside_eq(&flow->f.side[flow_hashtab[b].side], fside)))
		b = (b + 1) % FLOW_HASH_SIZE;

	return flow_hashtab[b];
}

/**
 * flow_lookup_af() - Look up a flow given addressing information
 * @c:		Execution context
 * @proto:	Protocol of the flow (IP L4 protocol number)
 * @pif:	Interface of the flow
 * @af:		Address family, AF_INET or AF_INET6
 * @eaddr:	Guest side endpoint address (guest local address)
 * @faddr:	Guest side forwarding address (guest remote address)
 * @eport:	Guest side endpoint port (guest local port)
 * @fport:	Guest side forwarding port (guest remote port)
 *
 * Return: sidx of the matching flow & side, FLOW_SIDX_NONE if not found
 */
flow_sidx_t flow_lookup_af(const struct ctx *c,
			   uint8_t proto, uint8_t pif, sa_family_t af,
			   const void *eaddr, const void *faddr,
			   in_port_t eport, in_port_t fport)
{
	struct flowside fside;

	flowside_from_af(&fside, af, eaddr, eport, faddr, fport);
	return flowside_lookup(c, proto, pif, &fside);
}

/**
 * flow_defer_handler() - Handler for per-flow deferred and timed tasks
 * @c:		Execution context
 * @now:	Current timestamp
 */
void flow_defer_handler(const struct ctx *c, const struct timespec *now)
{
	struct flow_free_cluster *free_head = NULL;
	unsigned *last_next = &flow_first_free;
	bool timer = false;
	unsigned idx;

	if (timespec_diff_ms(now, &flow_timer_run) >= FLOW_TIMER_INTERVAL) {
		timer = true;
		flow_timer_run = *now;
	}

	for (idx = 0; idx < FLOW_MAX; idx++) {
		union flow *flow = &flowtab[idx];
		bool closed = false;

		switch (flow->f.state) {
		case FLOW_STATE_FREE: {
			unsigned skip = flow->free.n;

			/* First entry of a free cluster must have n >= 1 */
			ASSERT(skip);

			if (free_head) {
				/* Merge into preceding free cluster */
				free_head->n += flow->free.n;
				flow->free.n = flow->free.next = 0;
			} else {
				/* New free cluster, add to chain */
				free_head = &flow->free;
				*last_next = idx;
				last_next = &free_head->next;
			}

			/* Skip remaining empty entries */
			idx += skip - 1;
			continue;
		}

		case FLOW_STATE_NEW:
		case FLOW_STATE_TYPED:
			flow_err(flow, "Incomplete flow at end of cycle");
			ASSERT(false);
			break;

		case FLOW_STATE_ACTIVE:
			/* Nothing to do */
			break;

		default:
			ASSERT(false);
		}

		switch (flow->f.type) {
		case FLOW_TYPE_NONE:
			ASSERT(false);
			break;
		case FLOW_TCP:
			closed = tcp_flow_defer(flow);
			break;
		case FLOW_TCP_SPLICE:
			closed = tcp_splice_flow_defer(flow);
			if (!closed && timer)
				tcp_splice_timer(c, flow);
			break;
		case FLOW_PING4:
		case FLOW_PING6:
			if (timer)
				closed = icmp_ping_timer(c, flow, now);
			break;
		default:
			/* Assume other flow types don't need any handling */
			;
		}

		if (closed) {
			flow_set_state(&flow->f, FLOW_STATE_FREE);
			memset(flow, 0, sizeof(*flow));

			if (free_head) {
				/* Add slot to current free cluster */
				ASSERT(idx == FLOW_IDX(free_head) + free_head->n);
				free_head->n++;
				flow->free.n = flow->free.next = 0;
			} else {
				/* Create new free cluster */
				free_head = &flow->free;
				free_head->n = 1;
				*last_next = idx;
				last_next = &free_head->next;
			}
		} else {
			free_head = NULL;
		}
	}

	*last_next = FLOW_MAX;
}

/**
 * flow_init() - Initialise flow related data structures
 */
void flow_init(void)
{
	unsigned b;

	/* Initial state is a single free cluster containing the whole table */
	flowtab[0].free.n = FLOW_MAX;
	flowtab[0].free.next = FLOW_MAX;

	for (b = 0; b < FLOW_HASH_SIZE; b++)
		flow_hashtab[b] = FLOW_SIDX_NONE;
}

debug log:

solving b43a079 ...
found b43a079 in https://archives.passt.top/passt-dev/20240514010337.1104606-20-david@gibson.dropbear.id.au/
found a6afe39 in https://archives.passt.top/passt-dev/20240514010337.1104606-19-david@gibson.dropbear.id.au/
found 4942075 in https://archives.passt.top/passt-dev/20240514010337.1104606-15-david@gibson.dropbear.id.au/
found 30a6904 in https://archives.passt.top/passt-dev/20240514010337.1104606-14-david@gibson.dropbear.id.au/
found fdd22b7 in https://archives.passt.top/passt-dev/20240514010337.1104606-13-david@gibson.dropbear.id.au/
found aff077b in https://archives.passt.top/passt-dev/20240514010337.1104606-8-david@gibson.dropbear.id.au/
found 3d5b3a5 in https://archives.passt.top/passt-dev/20240514010337.1104606-7-david@gibson.dropbear.id.au/
found aee2736 in https://archives.passt.top/passt-dev/20240514010337.1104606-4-david@gibson.dropbear.id.au/
found 7456021 in https://archives.passt.top/passt-dev/20240514010337.1104606-3-david@gibson.dropbear.id.au/
found 768e0f6 in https://archives.passt.top/passt-dev/20240514010337.1104606-2-david@gibson.dropbear.id.au/
found 80dd269 in https://passt.top/passt
preparing index
index prepared:
100644 80dd269e675744cc025dc39ca297da7a7bbfdb6c	flow.c

applying [1/10] https://archives.passt.top/passt-dev/20240514010337.1104606-2-david@gibson.dropbear.id.au/
diff --git a/flow.c b/flow.c
index 80dd269..768e0f6 100644


applying [2/10] https://archives.passt.top/passt-dev/20240514010337.1104606-3-david@gibson.dropbear.id.au/
diff --git a/flow.c b/flow.c
index 768e0f6..7456021 100644


applying [3/10] https://archives.passt.top/passt-dev/20240514010337.1104606-4-david@gibson.dropbear.id.au/
diff --git a/flow.c b/flow.c
index 7456021..aee2736 100644


applying [4/10] https://archives.passt.top/passt-dev/20240514010337.1104606-7-david@gibson.dropbear.id.au/
diff --git a/flow.c b/flow.c
index aee2736..3d5b3a5 100644


applying [5/10] https://archives.passt.top/passt-dev/20240514010337.1104606-8-david@gibson.dropbear.id.au/
diff --git a/flow.c b/flow.c
index 3d5b3a5..aff077b 100644


applying [6/10] https://archives.passt.top/passt-dev/20240514010337.1104606-13-david@gibson.dropbear.id.au/
diff --git a/flow.c b/flow.c
index aff077b..fdd22b7 100644


applying [7/10] https://archives.passt.top/passt-dev/20240514010337.1104606-14-david@gibson.dropbear.id.au/
diff --git a/flow.c b/flow.c
index fdd22b7..30a6904 100644


applying [8/10] https://archives.passt.top/passt-dev/20240514010337.1104606-15-david@gibson.dropbear.id.au/
diff --git a/flow.c b/flow.c
index 30a6904..4942075 100644


applying [9/10] https://archives.passt.top/passt-dev/20240514010337.1104606-19-david@gibson.dropbear.id.au/
diff --git a/flow.c b/flow.c
index 4942075..a6afe39 100644


applying [10/10] https://archives.passt.top/passt-dev/20240514010337.1104606-20-david@gibson.dropbear.id.au/
diff --git a/flow.c b/flow.c
index a6afe39..b43a079 100644

Checking patch flow.c...
Applied patch flow.c cleanly.
Checking patch flow.c...
Applied patch flow.c cleanly.
Checking patch flow.c...
Applied patch flow.c cleanly.
Checking patch flow.c...
Applied patch flow.c cleanly.
Checking patch flow.c...
Applied patch flow.c cleanly.
Checking patch flow.c...
Applied patch flow.c cleanly.
Checking patch flow.c...
Applied patch flow.c cleanly.
Checking patch flow.c...
Applied patch flow.c cleanly.
Checking patch flow.c...
Applied patch flow.c cleanly.
Checking patch flow.c...
Applied patch flow.c cleanly.

index at:
100644 b43a0793adb60db3d49bb16885e43abad11a25ba	flow.c

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