Merge tag 'net-next-6.3' of git://git.kernel.org/pub/scm/linux/kernel/git/netdev/net-nextgrafted

Pull networking updates from Jakub Kicinski:
 "Core:

   - Add dedicated kmem_cache for typical/small skb->head, avoid having
     to access struct page at kfree time, and improve memory use.

   - Introduce sysctl to set default RPS configuration for new netdevs.

   - Define Netlink protocol specification format which can be used to
     describe messages used by each family and auto-generate parsers.
     Add tools for generating kernel data structures and uAPI headers.

   - Expose all net/core sysctls inside netns.

   - Remove 4s sleep in netpoll if carrier is instantly detected on
     boot.

   - Add configurable limit of MDB entries per port, and port-vlan.

   - Continue populating drop reasons throughout the stack.

   - Retire a handful of legacy Qdiscs and classifiers.

  Protocols:

   - Support IPv4 big TCP (TSO frames larger than 64kB).

   - Add IP_LOCAL_PORT_RANGE socket option, to control local port range
     on socket by socket basis.

   - Track and report in procfs number of MPTCP sockets used.

   - Support mixing IPv4 and IPv6 flows in the in-kernel MPTCP path
     manager.

   - IPv6: don't check net.ipv6.route.max_size and rely on garbage
     collection to free memory (similarly to IPv4).

   - Support Penultimate Segment Pop (PSP) flavor in SRv6 (RFC8986).

   - ICMP: add per-rate limit counters.

   - Add support for user scanning requests in ieee802154.

   - Remove static WEP support.

   - Support minimal Wi-Fi 7 Extremely High Throughput (EHT) rate
     reporting.

   - WiFi 7 EHT channel puncturing support (client & AP).

  BPF:

   - Add a rbtree data structure following the "next-gen data structure"
     precedent set by recently added linked list, that is, by using
     kfunc + kptr instead of adding a new BPF map type.

   - Expose XDP hints via kfuncs with initial support for RX hash and
     timestamp metadata.

   - Add BPF_F_NO_TUNNEL_KEY extension to bpf_skb_set_tunnel_key to
     better support decap on GRE tunnel devices not operating in collect
     metadata.

   - Improve x86 JIT's codegen for PROBE_MEM runtime error checks.

   - Remove the need for trace_printk_lock for bpf_trace_printk and
     bpf_trace_vprintk helpers.

   - Extend libbpf's bpf_tracing.h support for tracing arguments of
     kprobes/uprobes and syscall as a special case.

   - Significantly reduce the search time for module symbols by
     livepatch and BPF.

   - Enable cpumasks to be used as kptrs, which is useful for tracing
     programs tracking which tasks end up running on which CPUs in
     different time intervals.

   - Add support for BPF trampoline on s390x and riscv64.

   - Add capability to export the XDP features supported by the NIC.

   - Add __bpf_kfunc tag for marking kernel functions as kfuncs.

   - Add cgroup.memory=nobpf kernel parameter option to disable BPF
     memory accounting for container environments.

  Netfilter:

   - Remove the CLUSTERIP target. It has been marked as obsolete for
     years, and we still have WARN splats wrt races of the out-of-band
     /proc interface installed by this target.

   - Add 'destroy' commands to nf_tables. They are identical to the
     existing 'delete' commands, but do not return an error if the
     referenced object (set, chain, rule...) did not exist.

  Driver API:

   - Improve cpumask_local_spread() locality to help NICs set the right
     IRQ affinity on AMD platforms.

   - Separate C22 and C45 MDIO bus transactions more clearly.

   - Introduce new DCB table to control DSCP rewrite on egress.

   - Support configuration of Physical Layer Collision Avoidance (PLCA)
     Reconciliation Sublayer (RS) (802.3cg-2019). Modern version of
     shared medium Ethernet.

   - Support for MAC Merge layer (IEEE 802.3-2018 clause 99). Allowing
     preemption of low priority frames by high priority frames.

   - Add support for controlling MACSec offload using netlink SET.

   - Rework devlink instance refcounts to allow registration and
     de-registration under the instance lock. Split the code into
     multiple files, drop some of the unnecessarily granular locks and
     factor out common parts of netlink operation handling.

   - Add TX frame aggregation parameters (for USB drivers).

   - Add a new attr TCA_EXT_WARN_MSG to report TC (offload) warning
     messages with notifications for debug.

   - Allow offloading of UDP NEW connections via act_ct.

   - Add support for per action HW stats in TC.

   - Support hardware miss to TC action (continue processing in SW from
     a specific point in the action chain).

   - Warn if old Wireless Extension user space interface is used with
     modern cfg80211/mac80211 drivers. Do not support Wireless
     Extensions for Wi-Fi 7 devices at all. Everyone should switch to
     using nl80211 interface instead.

   - Improve the CAN bit timing configuration. Use extack to return
     error messages directly to user space, update the SJW handling,
     including the definition of a new default value that will benefit
     CAN-FD controllers, by increasing their oscillator tolerance.

  New hardware / drivers:

   - Ethernet:
      - nVidia BlueField-3 support (control traffic driver)
      - Ethernet support for imx93 SoCs
      - Motorcomm yt8531 gigabit Ethernet PHY
      - onsemi NCN26000 10BASE-T1S PHY (with support for PLCA)
      - Microchip LAN8841 PHY (incl. cable diagnostics and PTP)
      - Amlogic gxl MDIO mux

   - WiFi:
      - RealTek RTL8188EU (rtl8xxxu)
      - Qualcomm Wi-Fi 7 devices (ath12k)

   - CAN:
      - Renesas R-Car V4H

  Drivers:

   - Bluetooth:
      - Set Per Platform Antenna Gain (PPAG) for Intel controllers.

   - Ethernet NICs:
      - Intel (1G, igc):
         - support TSN / Qbv / packet scheduling features of i226 model
      - Intel (100G, ice):
         - use GNSS subsystem instead of TTY
         - multi-buffer XDP support
         - extend support for GPIO pins to E823 devices
      - nVidia/Mellanox:
         - update the shared buffer configuration on PFC commands
         - implement PTP adjphase function for HW offset control
         - TC support for Geneve and GRE with VF tunnel offload
         - more efficient crypto key management method
         - multi-port eswitch support
      - Netronome/Corigine:
         - add DCB IEEE support
         - support IPsec offloading for NFP3800
      - Freescale/NXP (enetc):
         - support XDP_REDIRECT for XDP non-linear buffers
         - improve reconfig, avoid link flap and waiting for idle
         - support MAC Merge layer
      - Other NICs:
         - sfc/ef100: add basic devlink support for ef100
         - ionic: rx_push mode operation (writing descriptors via MMIO)
         - bnxt: use the auxiliary bus abstraction for RDMA
         - r8169: disable ASPM and reset bus in case of tx timeout
         - cpsw: support QSGMII mode for J721e CPSW9G
         - cpts: support pulse-per-second output
         - ngbe: add an mdio bus driver
         - usbnet: optimize usbnet_bh() by avoiding unnecessary queuing
         - r8152: handle devices with FW with NCM support
         - amd-xgbe: support 10Mbps, 2.5GbE speeds and rx-adaptation
         - virtio-net: support multi buffer XDP
         - virtio/vsock: replace virtio_vsock_pkt with sk_buff
         - tsnep: XDP support

   - Ethernet high-speed switches:
      - nVidia/Mellanox (mlxsw):
         - add support for latency TLV (in FW control messages)
      - Microchip (sparx5):
         - separate explicit and implicit traffic forwarding rules, make
           the implicit rules always active
         - add support for egress DSCP rewrite
         - IS0 VCAP support (Ingress Classification)
         - IS2 VCAP filters (protos, L3 addrs, L4 ports, flags, ToS
           etc.)
         - ES2 VCAP support (Egress Access Control)
         - support for Per-Stream Filtering and Policing (802.1Q,
           8.6.5.1)

   - Ethernet embedded switches:
      - Marvell (mv88e6xxx):
         - add MAB (port auth) offload support
         - enable PTP receive for mv88e6390
      - NXP (ocelot):
         - support MAC Merge layer
         - support for the the vsc7512 internal copper phys
      - Microchip:
         - lan9303: convert to PHYLINK
         - lan966x: support TC flower filter statistics
         - lan937x: PTP support for KSZ9563/KSZ8563 and LAN937x
         - lan937x: support Credit Based Shaper configuration
         - ksz9477: support Energy Efficient Ethernet
      - other:
         - qca8k: convert to regmap read/write API, use bulk operations
         - rswitch: Improve TX timestamp accuracy

   - Intel WiFi (iwlwifi):
      - EHT (Wi-Fi 7) rate reporting
      - STEP equalizer support: transfer some STEP (connection to radio
        on platforms with integrated wifi) related parameters from the
        BIOS to the firmware.

   - Qualcomm 802.11ax WiFi (ath11k):
      - IPQ5018 support
      - Fine Timing Measurement (FTM) responder role support
      - channel 177 support

   - MediaTek WiFi (mt76):
      - per-PHY LED support
      - mt7996: EHT (Wi-Fi 7) support
      - Wireless Ethernet Dispatch (WED) reset support
      - switch to using page pool allocator

   - RealTek WiFi (rtw89):
      - support new version of Bluetooth co-existance

   - Mobile:
      - rmnet: support TX aggregation"

* tag 'net-next-6.3' of git://git.kernel.org/pub/scm/linux/kernel/git/netdev/net-next: (1872 commits)
  page_pool: add a comment explaining the fragment counter usage
  net: ethtool: fix __ethtool_dev_mm_supported() implementation
  ethtool: pse-pd: Fix double word in comments
  xsk: add linux/vmalloc.h to xsk.c
  sefltests: netdevsim: wait for devlink instance after netns removal
  selftest: fib_tests: Always cleanup before exit
  net/mlx5e: Align IPsec ASO result memory to be as required by hardware
  net/mlx5e: TC, Set CT miss to the specific ct action instance
  net/mlx5e: Rename CHAIN_TO_REG to MAPPED_OBJ_TO_REG
  net/mlx5: Refactor tc miss handling to a single function
  net/mlx5: Kconfig: Make tc offload depend on tc skb extension
  net/sched: flower: Support hardware miss to tc action
  net/sched: flower: Move filter handle initialization earlier
  net/sched: cls_api: Support hardware miss to tc action
  net/sched: Rename user cookie and act cookie
  sfc: fix builds without CONFIG_RTC_LIB
  sfc: clean up some inconsistent indentings
  net/mlx4_en: Introduce flexible array to silence overflow warning
  net: lan966x: Fix possible deadlock inside PTP
  net/ulp: Remove redundant ->clone() test in inet_clone_ulp().
  ...

3 files changed, 3505 insertions, 0 deletions

diff --git a/tools/testing/selftests/filesystems/epoll/.gitignore b/tools/testing/selftests/filesystems/epoll/.gitignore
new file mode 100644
index 000000000..909015725
--- /dev/null
+++ b/tools/testing/selftests/filesystems/epoll/.gitignore
@@ -0,0 +1,2 @@
+# SPDX-License-Identifier: GPL-2.0-only
+epoll_wakeup_test
diff --git a/tools/testing/selftests/filesystems/epoll/Makefile b/tools/testing/selftests/filesystems/epoll/Makefile
new file mode 100644
index 000000000..78ae4aaf7
--- /dev/null
+++ b/tools/testing/selftests/filesystems/epoll/Makefile
@@ -0,0 +1,7 @@
+# SPDX-License-Identifier: GPL-2.0
+
+CFLAGS += -I../../../../../usr/include/
+LDLIBS += -lpthread
+TEST_GEN_PROGS := epoll_wakeup_test
+
+include ../../lib.mk
diff --git a/tools/testing/selftests/filesystems/epoll/epoll_wakeup_test.c b/tools/testing/selftests/filesystems/epoll/epoll_wakeup_test.c
new file mode 100644
index 000000000..65ede5063
--- /dev/null
+++ b/tools/testing/selftests/filesystems/epoll/epoll_wakeup_test.c
@@ -0,0 +1,3496 @@
+// SPDX-License-Identifier: GPL-2.0
+
+#define _GNU_SOURCE
+#include <asm/unistd.h>
+#include <linux/time_types.h>
+#include <poll.h>
+#include <unistd.h>
+#include <assert.h>
+#include <signal.h>
+#include <pthread.h>
+#include <sys/epoll.h>
+#include <sys/socket.h>
+#include <sys/eventfd.h>
+#include "../../kselftest_harness.h"
+
+struct epoll_mtcontext
+{
+	int efd[3];
+	int sfd[4];
+	volatile int count;
+
+	pthread_t main;
+	pthread_t waiter;
+};
+
+#ifndef __NR_epoll_pwait2
+#define __NR_epoll_pwait2 -1
+#endif
+
+static inline int sys_epoll_pwait2(int fd, struct epoll_event *events,
+				   int maxevents,
+				   const struct __kernel_timespec *timeout,
+				   const sigset_t *sigset, size_t sigsetsize)
+{
+	return syscall(__NR_epoll_pwait2, fd, events, maxevents, timeout,
+		       sigset, sigsetsize);
+}
+
+static void signal_handler(int signum)
+{
+}
+
+static void kill_timeout(struct epoll_mtcontext *ctx)
+{
+	usleep(1000000);
+	pthread_kill(ctx->main, SIGUSR1);
+	pthread_kill(ctx->waiter, SIGUSR1);
+}
+
+static void *waiter_entry1a(void *data)
+{
+	struct epoll_event e;
+	struct epoll_mtcontext *ctx = data;
+
+	if (epoll_wait(ctx->efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx->count, 1);
+
+	return NULL;
+}
+
+static void *waiter_entry1ap(void *data)
+{
+	struct pollfd pfd;
+	struct epoll_event e;
+	struct epoll_mtcontext *ctx = data;
+
+	pfd.fd = ctx->efd[0];
+	pfd.events = POLLIN;
+	if (poll(&pfd, 1, -1) > 0) {
+		if (epoll_wait(ctx->efd[0], &e, 1, 0) > 0)
+			__sync_fetch_and_add(&ctx->count, 1);
+	}
+
+	return NULL;
+}
+
+static void *waiter_entry1o(void *data)
+{
+	struct epoll_event e;
+	struct epoll_mtcontext *ctx = data;
+
+	if (epoll_wait(ctx->efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_or(&ctx->count, 1);
+
+	return NULL;
+}
+
+static void *waiter_entry1op(void *data)
+{
+	struct pollfd pfd;
+	struct epoll_event e;
+	struct epoll_mtcontext *ctx = data;
+
+	pfd.fd = ctx->efd[0];
+	pfd.events = POLLIN;
+	if (poll(&pfd, 1, -1) > 0) {
+		if (epoll_wait(ctx->efd[0], &e, 1, 0) > 0)
+			__sync_fetch_and_or(&ctx->count, 1);
+	}
+
+	return NULL;
+}
+
+static void *waiter_entry2a(void *data)
+{
+	struct epoll_event events[2];
+	struct epoll_mtcontext *ctx = data;
+
+	if (epoll_wait(ctx->efd[0], events, 2, -1) > 0)
+		__sync_fetch_and_add(&ctx->count, 1);
+
+	return NULL;
+}
+
+static void *waiter_entry2ap(void *data)
+{
+	struct pollfd pfd;
+	struct epoll_event events[2];
+	struct epoll_mtcontext *ctx = data;
+
+	pfd.fd = ctx->efd[0];
+	pfd.events = POLLIN;
+	if (poll(&pfd, 1, -1) > 0) {
+		if (epoll_wait(ctx->efd[0], events, 2, 0) > 0)
+			__sync_fetch_and_add(&ctx->count, 1);
+	}
+
+	return NULL;
+}
+
+static void *emitter_entry1(void *data)
+{
+	struct epoll_mtcontext *ctx = data;
+
+	usleep(100000);
+	write(ctx->sfd[1], "w", 1);
+
+	kill_timeout(ctx);
+
+	return NULL;
+}
+
+static void *emitter_entry2(void *data)
+{
+	struct epoll_mtcontext *ctx = data;
+
+	usleep(100000);
+	write(ctx->sfd[1], "w", 1);
+	write(ctx->sfd[3], "w", 1);
+
+	kill_timeout(ctx);
+
+	return NULL;
+}
+
+/*
+ *          t0
+ *           | (ew)
+ *          e0
+ *           | (lt)
+ *          s0
+ */
+TEST(epoll1)
+{
+	int efd;
+	int sfd[2];
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, sfd), 0);
+
+	efd = epoll_create(1);
+	ASSERT_GE(efd, 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	EXPECT_EQ(epoll_wait(efd, &e, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd, &e, 1, 0), 1);
+
+	close(efd);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *          t0
+ *           | (ew)
+ *          e0
+ *           | (et)
+ *          s0
+ */
+TEST(epoll2)
+{
+	int efd;
+	int sfd[2];
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, sfd), 0);
+
+	efd = epoll_create(1);
+	ASSERT_GE(efd, 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	EXPECT_EQ(epoll_wait(efd, &e, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd, &e, 1, 0), 0);
+
+	close(efd);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *           t0
+ *            | (ew)
+ *           e0
+ *     (lt) /  \ (lt)
+ *        s0    s2
+ */
+TEST(epoll3)
+{
+	int efd;
+	int sfd[4];
+	struct epoll_event events[2];
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[2]), 0);
+
+	efd = epoll_create(1);
+	ASSERT_GE(efd, 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[0], events), 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[2], events), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+	ASSERT_EQ(write(sfd[3], "w", 1), 1);
+
+	EXPECT_EQ(epoll_wait(efd, events, 2, 0), 2);
+	EXPECT_EQ(epoll_wait(efd, events, 2, 0), 2);
+
+	close(efd);
+	close(sfd[0]);
+	close(sfd[1]);
+	close(sfd[2]);
+	close(sfd[3]);
+}
+
+/*
+ *           t0
+ *            | (ew)
+ *           e0
+ *     (et) /  \ (et)
+ *        s0    s2
+ */
+TEST(epoll4)
+{
+	int efd;
+	int sfd[4];
+	struct epoll_event events[2];
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[2]), 0);
+
+	efd = epoll_create(1);
+	ASSERT_GE(efd, 0);
+
+	events[0].events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[0], events), 0);
+
+	events[0].events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[2], events), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+	ASSERT_EQ(write(sfd[3], "w", 1), 1);
+
+	EXPECT_EQ(epoll_wait(efd, events, 2, 0), 2);
+	EXPECT_EQ(epoll_wait(efd, events, 2, 0), 0);
+
+	close(efd);
+	close(sfd[0]);
+	close(sfd[1]);
+	close(sfd[2]);
+	close(sfd[3]);
+}
+
+/*
+ *          t0
+ *           | (p)
+ *          e0
+ *           | (lt)
+ *          s0
+ */
+TEST(epoll5)
+{
+	int efd;
+	int sfd[2];
+	struct pollfd pfd;
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[0]), 0);
+
+	efd = epoll_create(1);
+	ASSERT_GE(efd, 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	pfd.fd = efd;
+	pfd.events = POLLIN;
+	ASSERT_EQ(poll(&pfd, 1, 0), 1);
+	ASSERT_EQ(epoll_wait(efd, &e, 1, 0), 1);
+
+	pfd.fd = efd;
+	pfd.events = POLLIN;
+	ASSERT_EQ(poll(&pfd, 1, 0), 1);
+	ASSERT_EQ(epoll_wait(efd, &e, 1, 0), 1);
+
+	close(efd);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *          t0
+ *           | (p)
+ *          e0
+ *           | (et)
+ *          s0
+ */
+TEST(epoll6)
+{
+	int efd;
+	int sfd[2];
+	struct pollfd pfd;
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[0]), 0);
+
+	efd = epoll_create(1);
+	ASSERT_GE(efd, 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	pfd.fd = efd;
+	pfd.events = POLLIN;
+	ASSERT_EQ(poll(&pfd, 1, 0), 1);
+	ASSERT_EQ(epoll_wait(efd, &e, 1, 0), 1);
+
+	pfd.fd = efd;
+	pfd.events = POLLIN;
+	ASSERT_EQ(poll(&pfd, 1, 0), 0);
+	ASSERT_EQ(epoll_wait(efd, &e, 1, 0), 0);
+
+	close(efd);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *           t0
+ *            | (p)
+ *           e0
+ *     (lt) /  \ (lt)
+ *        s0    s2
+ */
+
+TEST(epoll7)
+{
+	int efd;
+	int sfd[4];
+	struct pollfd pfd;
+	struct epoll_event events[2];
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[2]), 0);
+
+	efd = epoll_create(1);
+	ASSERT_GE(efd, 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[0], events), 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[2], events), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+	ASSERT_EQ(write(sfd[3], "w", 1), 1);
+
+	pfd.fd = efd;
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd, events, 2, 0), 2);
+
+	pfd.fd = efd;
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd, events, 2, 0), 2);
+
+	close(efd);
+	close(sfd[0]);
+	close(sfd[1]);
+	close(sfd[2]);
+	close(sfd[3]);
+}
+
+/*
+ *           t0
+ *            | (p)
+ *           e0
+ *     (et) /  \ (et)
+ *        s0    s2
+ */
+TEST(epoll8)
+{
+	int efd;
+	int sfd[4];
+	struct pollfd pfd;
+	struct epoll_event events[2];
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[2]), 0);
+
+	efd = epoll_create(1);
+	ASSERT_GE(efd, 0);
+
+	events[0].events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[0], events), 0);
+
+	events[0].events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[2], events), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+	ASSERT_EQ(write(sfd[3], "w", 1), 1);
+
+	pfd.fd = efd;
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd, events, 2, 0), 2);
+
+	pfd.fd = efd;
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 0);
+	EXPECT_EQ(epoll_wait(efd, events, 2, 0), 0);
+
+	close(efd);
+	close(sfd[0]);
+	close(sfd[1]);
+	close(sfd[2]);
+	close(sfd[3]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (ew)
+ *           e0
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll9)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (ew)
+ *           e0
+ *            | (et)
+ *           s0
+ */
+TEST(epoll10)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 1);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (ew)
+ *           e0
+ *     (lt) /  \ (lt)
+ *        s0    s2
+ */
+TEST(epoll11)
+{
+	pthread_t emitter;
+	struct epoll_event events[2];
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[2]), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[0], events), 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[2], events), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry2a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry2, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], events, 2, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+	close(ctx.sfd[2]);
+	close(ctx.sfd[3]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (ew)
+ *           e0
+ *     (et) /  \ (et)
+ *        s0    s2
+ */
+TEST(epoll12)
+{
+	pthread_t emitter;
+	struct epoll_event events[2];
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[2]), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	events[0].events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[0], events), 0);
+
+	events[0].events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[2], events), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry2, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], events, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+	close(ctx.sfd[2]);
+	close(ctx.sfd[3]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (p)
+ *           e0
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll13)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (p)
+ *           e0
+ *            | (et)
+ *           s0
+ */
+TEST(epoll14)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 1);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (p)
+ *           e0
+ *     (lt) /  \ (lt)
+ *        s0    s2
+ */
+TEST(epoll15)
+{
+	pthread_t emitter;
+	struct epoll_event events[2];
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[2]), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[0], events), 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[2], events), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry2ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry2, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], events, 2, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+	close(ctx.sfd[2]);
+	close(ctx.sfd[3]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (p)
+ *           e0
+ *     (et) /  \ (et)
+ *        s0    s2
+ */
+TEST(epoll16)
+{
+	pthread_t emitter;
+	struct epoll_event events[2];
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[2]), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	events[0].events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[0], events), 0);
+
+	events[0].events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[2], events), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry2, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], events, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+	close(ctx.sfd[2]);
+	close(ctx.sfd[3]);
+}
+
+/*
+ *          t0
+ *           | (ew)
+ *          e0
+ *           | (lt)
+ *          e1
+ *           | (lt)
+ *          s0
+ */
+TEST(epoll17)
+{
+	int efd[2];
+	int sfd[2];
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, sfd), 0);
+
+	efd[0] = epoll_create(1);
+	ASSERT_GE(efd[0], 0);
+
+	efd[1] = epoll_create(1);
+	ASSERT_GE(efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[1], EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[1], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 1);
+
+	close(efd[0]);
+	close(efd[1]);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *          t0
+ *           | (ew)
+ *          e0
+ *           | (lt)
+ *          e1
+ *           | (et)
+ *          s0
+ */
+TEST(epoll18)
+{
+	int efd[2];
+	int sfd[2];
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, sfd), 0);
+
+	efd[0] = epoll_create(1);
+	ASSERT_GE(efd[0], 0);
+
+	efd[1] = epoll_create(1);
+	ASSERT_GE(efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd[1], EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[1], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 1);
+
+	close(efd[0]);
+	close(efd[1]);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *           t0
+ *            | (ew)
+ *           e0
+ *            | (et)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll19)
+{
+	int efd[2];
+	int sfd[2];
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, sfd), 0);
+
+	efd[0] = epoll_create(1);
+	ASSERT_GE(efd[0], 0);
+
+	efd[1] = epoll_create(1);
+	ASSERT_GE(efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[1], EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[1], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 0);
+
+	close(efd[0]);
+	close(efd[1]);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *           t0
+ *            | (ew)
+ *           e0
+ *            | (et)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll20)
+{
+	int efd[2];
+	int sfd[2];
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, sfd), 0);
+
+	efd[0] = epoll_create(1);
+	ASSERT_GE(efd[0], 0);
+
+	efd[1] = epoll_create(1);
+	ASSERT_GE(efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd[1], EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[1], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 0);
+
+	close(efd[0]);
+	close(efd[1]);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *          t0
+ *           | (p)
+ *          e0
+ *           | (lt)
+ *          e1
+ *           | (lt)
+ *          s0
+ */
+TEST(epoll21)
+{
+	int efd[2];
+	int sfd[2];
+	struct pollfd pfd;
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, sfd), 0);
+
+	efd[0] = epoll_create(1);
+	ASSERT_GE(efd[0], 0);
+
+	efd[1] = epoll_create(1);
+	ASSERT_GE(efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[1], EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[1], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	pfd.fd = efd[0];
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 1);
+
+	pfd.fd = efd[0];
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 1);
+
+	close(efd[0]);
+	close(efd[1]);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *          t0
+ *           | (p)
+ *          e0
+ *           | (lt)
+ *          e1
+ *           | (et)
+ *          s0
+ */
+TEST(epoll22)
+{
+	int efd[2];
+	int sfd[2];
+	struct pollfd pfd;
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, sfd), 0);
+
+	efd[0] = epoll_create(1);
+	ASSERT_GE(efd[0], 0);
+
+	efd[1] = epoll_create(1);
+	ASSERT_GE(efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd[1], EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[1], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	pfd.fd = efd[0];
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 1);
+
+	pfd.fd = efd[0];
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 1);
+
+	close(efd[0]);
+	close(efd[1]);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *          t0
+ *           | (p)
+ *          e0
+ *           | (et)
+ *          e1
+ *           | (lt)
+ *          s0
+ */
+TEST(epoll23)
+{
+	int efd[2];
+	int sfd[2];
+	struct pollfd pfd;
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, sfd), 0);
+
+	efd[0] = epoll_create(1);
+	ASSERT_GE(efd[0], 0);
+
+	efd[1] = epoll_create(1);
+	ASSERT_GE(efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[1], EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[1], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	pfd.fd = efd[0];
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 1);
+
+	pfd.fd = efd[0];
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 0);
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 0);
+
+	close(efd[0]);
+	close(efd[1]);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *          t0
+ *           | (p)
+ *          e0
+ *           | (et)
+ *          e1
+ *           | (et)
+ *          s0
+ */
+TEST(epoll24)
+{
+	int efd[2];
+	int sfd[2];
+	struct pollfd pfd;
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, sfd), 0);
+
+	efd[0] = epoll_create(1);
+	ASSERT_GE(efd[0], 0);
+
+	efd[1] = epoll_create(1);
+	ASSERT_GE(efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd[1], EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[1], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	pfd.fd = efd[0];
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 1);
+
+	pfd.fd = efd[0];
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 0);
+	EXPECT_EQ(epoll_wait(efd[0], &e, 1, 0), 0);
+
+	close(efd[0]);
+	close(efd[1]);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (ew)
+ *           e0
+ *            | (lt)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll25)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (ew)
+ *           e0
+ *            | (lt)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll26)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (ew)
+ *           e0
+ *            | (et)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll27)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 1);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (ew)
+ *           e0
+ *            | (et)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll28)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 1);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (p)
+ *           e0
+ *            | (lt)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll29)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (p)
+ *           e0
+ *            | (lt)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll30)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (p)
+ *           e0
+ *            | (et)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll31)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 1);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (p)
+ *           e0
+ *            | (et)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll32)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 1);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *    (ew) |    | (ew)
+ *         |   e0
+ *          \  / (lt)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll33)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[1], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *    (ew) |    | (ew)
+ *         |   e0
+ *          \  / (lt)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll34)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1o, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[1], &e, 1, -1) > 0)
+		__sync_fetch_and_or(&ctx.count, 2);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_TRUE((ctx.count == 2) || (ctx.count == 3));
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *    (ew) |    | (ew)
+ *         |   e0
+ *          \  / (et)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll35)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[1], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *    (ew) |    | (ew)
+ *         |   e0
+ *          \  / (et)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll36)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1o, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[1], &e, 1, -1) > 0)
+		__sync_fetch_and_or(&ctx.count, 2);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_TRUE((ctx.count == 2) || (ctx.count == 3));
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *     (p) |    | (ew)
+ *         |   e0
+ *          \  / (lt)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll37)
+{
+	pthread_t emitter;
+	struct pollfd pfd;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	pfd.fd = ctx.efd[1];
+	pfd.events = POLLIN;
+	if (poll(&pfd, 1, -1) > 0) {
+		if (epoll_wait(ctx.efd[1], &e, 1, 0) > 0)
+			__sync_fetch_and_add(&ctx.count, 1);
+	}
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *     (p) |    | (ew)
+ *         |   e0
+ *          \  / (lt)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll38)
+{
+	pthread_t emitter;
+	struct pollfd pfd;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1o, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	pfd.fd = ctx.efd[1];
+	pfd.events = POLLIN;
+	if (poll(&pfd, 1, -1) > 0) {
+		if (epoll_wait(ctx.efd[1], &e, 1, 0) > 0)
+			__sync_fetch_and_or(&ctx.count, 2);
+	}
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_TRUE((ctx.count == 2) || (ctx.count == 3));
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *     (p) |    | (ew)
+ *         |   e0
+ *          \  / (et)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll39)
+{
+	pthread_t emitter;
+	struct pollfd pfd;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	pfd.fd = ctx.efd[1];
+	pfd.events = POLLIN;
+	if (poll(&pfd, 1, -1) > 0) {
+		if (epoll_wait(ctx.efd[1], &e, 1, 0) > 0)
+			__sync_fetch_and_add(&ctx.count, 1);
+	}
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *     (p) |    | (ew)
+ *         |   e0
+ *          \  / (et)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll40)
+{
+	pthread_t emitter;
+	struct pollfd pfd;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1o, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	pfd.fd = ctx.efd[1];
+	pfd.events = POLLIN;
+	if (poll(&pfd, 1, -1) > 0) {
+		if (epoll_wait(ctx.efd[1], &e, 1, 0) > 0)
+			__sync_fetch_and_or(&ctx.count, 2);
+	}
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_TRUE((ctx.count == 2) || (ctx.count == 3));
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *    (ew) |    | (p)
+ *         |   e0
+ *          \  / (lt)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll41)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[1], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *    (ew) |    | (p)
+ *         |   e0
+ *          \  / (lt)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll42)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1op, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[1], &e, 1, -1) > 0)
+		__sync_fetch_and_or(&ctx.count, 2);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_TRUE((ctx.count == 2) || (ctx.count == 3));
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *    (ew) |    | (p)
+ *         |   e0
+ *          \  / (et)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll43)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[1], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *    (ew) |    | (p)
+ *         |   e0
+ *          \  / (et)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll44)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1op, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[1], &e, 1, -1) > 0)
+		__sync_fetch_and_or(&ctx.count, 2);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_TRUE((ctx.count == 2) || (ctx.count == 3));
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *     (p) |    | (p)
+ *         |   e0
+ *          \  / (lt)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll45)
+{
+	pthread_t emitter;
+	struct pollfd pfd;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	pfd.fd = ctx.efd[1];
+	pfd.events = POLLIN;
+	if (poll(&pfd, 1, -1) > 0) {
+		if (epoll_wait(ctx.efd[1], &e, 1, 0) > 0)
+			__sync_fetch_and_add(&ctx.count, 1);
+	}
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *     (p) |    | (p)
+ *         |   e0
+ *          \  / (lt)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll46)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1op, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[1], &e, 1, -1) > 0)
+		__sync_fetch_and_or(&ctx.count, 2);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_TRUE((ctx.count == 2) || (ctx.count == 3));
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *     (p) |    | (p)
+ *         |   e0
+ *          \  / (et)
+ *           e1
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll47)
+{
+	pthread_t emitter;
+	struct pollfd pfd;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	pfd.fd = ctx.efd[1];
+	pfd.events = POLLIN;
+	if (poll(&pfd, 1, -1) > 0) {
+		if (epoll_wait(ctx.efd[1], &e, 1, 0) > 0)
+			__sync_fetch_and_add(&ctx.count, 1);
+	}
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *        t0   t1
+ *     (p) |    | (p)
+ *         |   e0
+ *          \  / (et)
+ *           e1
+ *            | (et)
+ *           s0
+ */
+TEST(epoll48)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1op, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry1, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[1], &e, 1, -1) > 0)
+		__sync_fetch_and_or(&ctx.count, 2);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_TRUE((ctx.count == 2) || (ctx.count == 3));
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+/*
+ *           t0
+ *            | (ew)
+ *           e0
+ *     (lt) /  \ (lt)
+ *        e1    e2
+ *    (lt) |     | (lt)
+ *        s0    s2
+ */
+TEST(epoll49)
+{
+	int efd[3];
+	int sfd[4];
+	struct epoll_event events[2];
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[2]), 0);
+
+	efd[0] = epoll_create(1);
+	ASSERT_GE(efd[0], 0);
+
+	efd[1] = epoll_create(1);
+	ASSERT_GE(efd[1], 0);
+
+	efd[2] = epoll_create(1);
+	ASSERT_GE(efd[2], 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[1], EPOLL_CTL_ADD, sfd[0], events), 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[2], EPOLL_CTL_ADD, sfd[2], events), 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[1], events), 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[2], events), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+	ASSERT_EQ(write(sfd[3], "w", 1), 1);
+
+	EXPECT_EQ(epoll_wait(efd[0], events, 2, 0), 2);
+	EXPECT_EQ(epoll_wait(efd[0], events, 2, 0), 2);
+
+	close(efd[0]);
+	close(efd[1]);
+	close(efd[2]);
+	close(sfd[0]);
+	close(sfd[1]);
+	close(sfd[2]);
+	close(sfd[3]);
+}
+
+/*
+ *           t0
+ *            | (ew)
+ *           e0
+ *     (et) /  \ (et)
+ *        e1    e2
+ *    (lt) |     | (lt)
+ *        s0    s2
+ */
+TEST(epoll50)
+{
+	int efd[3];
+	int sfd[4];
+	struct epoll_event events[2];
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[2]), 0);
+
+	efd[0] = epoll_create(1);
+	ASSERT_GE(efd[0], 0);
+
+	efd[1] = epoll_create(1);
+	ASSERT_GE(efd[1], 0);
+
+	efd[2] = epoll_create(1);
+	ASSERT_GE(efd[2], 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[1], EPOLL_CTL_ADD, sfd[0], events), 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[2], EPOLL_CTL_ADD, sfd[2], events), 0);
+
+	events[0].events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[1], events), 0);
+
+	events[0].events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[2], events), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+	ASSERT_EQ(write(sfd[3], "w", 1), 1);
+
+	EXPECT_EQ(epoll_wait(efd[0], events, 2, 0), 2);
+	EXPECT_EQ(epoll_wait(efd[0], events, 2, 0), 0);
+
+	close(efd[0]);
+	close(efd[1]);
+	close(efd[2]);
+	close(sfd[0]);
+	close(sfd[1]);
+	close(sfd[2]);
+	close(sfd[3]);
+}
+
+/*
+ *           t0
+ *            | (p)
+ *           e0
+ *     (lt) /  \ (lt)
+ *        e1    e2
+ *    (lt) |     | (lt)
+ *        s0    s2
+ */
+TEST(epoll51)
+{
+	int efd[3];
+	int sfd[4];
+	struct pollfd pfd;
+	struct epoll_event events[2];
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[2]), 0);
+
+	efd[0] = epoll_create(1);
+	ASSERT_GE(efd[0], 0);
+
+	efd[1] = epoll_create(1);
+	ASSERT_GE(efd[1], 0);
+
+	efd[2] = epoll_create(1);
+	ASSERT_GE(efd[2], 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[1], EPOLL_CTL_ADD, sfd[0], events), 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[2], EPOLL_CTL_ADD, sfd[2], events), 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[1], events), 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[2], events), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+	ASSERT_EQ(write(sfd[3], "w", 1), 1);
+
+	pfd.fd = efd[0];
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], events, 2, 0), 2);
+
+	pfd.fd = efd[0];
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], events, 2, 0), 2);
+
+	close(efd[0]);
+	close(efd[1]);
+	close(efd[2]);
+	close(sfd[0]);
+	close(sfd[1]);
+	close(sfd[2]);
+	close(sfd[3]);
+}
+
+/*
+ *           t0
+ *            | (p)
+ *           e0
+ *     (et) /  \ (et)
+ *        e1    e2
+ *    (lt) |     | (lt)
+ *        s0    s2
+ */
+TEST(epoll52)
+{
+	int efd[3];
+	int sfd[4];
+	struct pollfd pfd;
+	struct epoll_event events[2];
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &sfd[2]), 0);
+
+	efd[0] = epoll_create(1);
+	ASSERT_GE(efd[0], 0);
+
+	efd[1] = epoll_create(1);
+	ASSERT_GE(efd[1], 0);
+
+	efd[2] = epoll_create(1);
+	ASSERT_GE(efd[2], 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[1], EPOLL_CTL_ADD, sfd[0], events), 0);
+
+	events[0].events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd[2], EPOLL_CTL_ADD, sfd[2], events), 0);
+
+	events[0].events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[1], events), 0);
+
+	events[0].events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(efd[0], EPOLL_CTL_ADD, efd[2], events), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+	ASSERT_EQ(write(sfd[3], "w", 1), 1);
+
+	pfd.fd = efd[0];
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 1);
+	EXPECT_EQ(epoll_wait(efd[0], events, 2, 0), 2);
+
+	pfd.fd = efd[0];
+	pfd.events = POLLIN;
+	EXPECT_EQ(poll(&pfd, 1, 0), 0);
+	EXPECT_EQ(epoll_wait(efd[0], events, 2, 0), 0);
+
+	close(efd[0]);
+	close(efd[1]);
+	close(efd[2]);
+	close(sfd[0]);
+	close(sfd[1]);
+	close(sfd[2]);
+	close(sfd[3]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (ew)
+ *           e0
+ *     (lt) /  \ (lt)
+ *        e1    e2
+ *    (lt) |     | (lt)
+ *        s0    s2
+ */
+TEST(epoll53)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[2]), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	ctx.efd[2] = epoll_create(1);
+	ASSERT_GE(ctx.efd[2], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[2], EPOLL_CTL_ADD, ctx.sfd[2], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[2], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry2, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.efd[2]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+	close(ctx.sfd[2]);
+	close(ctx.sfd[3]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (ew)
+ *           e0
+ *     (et) /  \ (et)
+ *        e1    e2
+ *    (lt) |     | (lt)
+ *        s0    s2
+ */
+TEST(epoll54)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[2]), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	ctx.efd[2] = epoll_create(1);
+	ASSERT_GE(ctx.efd[2], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[2], EPOLL_CTL_ADD, ctx.sfd[2], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[2], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry2, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.efd[2]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+	close(ctx.sfd[2]);
+	close(ctx.sfd[3]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (p)
+ *           e0
+ *     (lt) /  \ (lt)
+ *        e1    e2
+ *    (lt) |     | (lt)
+ *        s0    s2
+ */
+TEST(epoll55)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[2]), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	ctx.efd[2] = epoll_create(1);
+	ASSERT_GE(ctx.efd[2], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[2], EPOLL_CTL_ADD, ctx.sfd[2], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[2], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry2, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.efd[2]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+	close(ctx.sfd[2]);
+	close(ctx.sfd[3]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (p)
+ *           e0
+ *     (et) /  \ (et)
+ *        e1    e2
+ *    (lt) |     | (lt)
+ *        s0    s2
+ */
+TEST(epoll56)
+{
+	pthread_t emitter;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[2]), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	ctx.efd[2] = epoll_create(1);
+	ASSERT_GE(ctx.efd[2], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[2], EPOLL_CTL_ADD, ctx.sfd[2], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[2], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry2, &ctx), 0);
+
+	if (epoll_wait(ctx.efd[0], &e, 1, -1) > 0)
+		__sync_fetch_and_add(&ctx.count, 1);
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.efd[2]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+	close(ctx.sfd[2]);
+	close(ctx.sfd[3]);
+}
+
+/*
+ *        t0    t1
+ *      (p) \  / (p)
+ *           e0
+ *     (lt) /  \ (lt)
+ *        e1    e2
+ *    (lt) |     | (lt)
+ *        s0    s2
+ */
+TEST(epoll57)
+{
+	pthread_t emitter;
+	struct pollfd pfd;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[2]), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	ctx.efd[2] = epoll_create(1);
+	ASSERT_GE(ctx.efd[2], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[2], EPOLL_CTL_ADD, ctx.sfd[2], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[2], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry2, &ctx), 0);
+
+	pfd.fd = ctx.efd[0];
+	pfd.events = POLLIN;
+	if (poll(&pfd, 1, -1) > 0) {
+		if (epoll_wait(ctx.efd[0], &e, 1, 0) > 0)
+			__sync_fetch_and_add(&ctx.count, 1);
+	}
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.efd[2]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+	close(ctx.sfd[2]);
+	close(ctx.sfd[3]);
+}
+
+/*
+ *        t0    t1
+ *      (p) \  / (p)
+ *           e0
+ *     (et) /  \ (et)
+ *        e1    e2
+ *    (lt) |     | (lt)
+ *        s0    s2
+ */
+TEST(epoll58)
+{
+	pthread_t emitter;
+	struct pollfd pfd;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[0]), 0);
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, &ctx.sfd[2]), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.efd[1] = epoll_create(1);
+	ASSERT_GE(ctx.efd[1], 0);
+
+	ctx.efd[2] = epoll_create(1);
+	ASSERT_GE(ctx.efd[2], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[1], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[2], EPOLL_CTL_ADD, ctx.sfd[2], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[1], &e), 0);
+
+	e.events = EPOLLIN | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.efd[2], &e), 0);
+
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&ctx.waiter, NULL, waiter_entry1ap, &ctx), 0);
+	ASSERT_EQ(pthread_create(&emitter, NULL, emitter_entry2, &ctx), 0);
+
+	pfd.fd = ctx.efd[0];
+	pfd.events = POLLIN;
+	if (poll(&pfd, 1, -1) > 0) {
+		if (epoll_wait(ctx.efd[0], &e, 1, 0) > 0)
+			__sync_fetch_and_add(&ctx.count, 1);
+	}
+
+	ASSERT_EQ(pthread_join(ctx.waiter, NULL), 0);
+	EXPECT_EQ(ctx.count, 2);
+
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+
+	close(ctx.efd[0]);
+	close(ctx.efd[1]);
+	close(ctx.efd[2]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+	close(ctx.sfd[2]);
+	close(ctx.sfd[3]);
+}
+
+static void *epoll59_thread(void *ctx_)
+{
+	struct epoll_mtcontext *ctx = ctx_;
+	struct epoll_event e;
+	int i;
+
+	for (i = 0; i < 100000; i++) {
+		while (ctx->count == 0)
+			;
+
+		e.events = EPOLLIN | EPOLLERR | EPOLLET;
+		epoll_ctl(ctx->efd[0], EPOLL_CTL_MOD, ctx->sfd[0], &e);
+		ctx->count = 0;
+	}
+
+	return NULL;
+}
+
+/*
+ *        t0
+ *      (p) \
+ *           e0
+ *     (et) /
+ *        e0
+ *
+ * Based on https://bugzilla.kernel.org/show_bug.cgi?id=205933
+ */
+TEST(epoll59)
+{
+	pthread_t emitter;
+	struct pollfd pfd;
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+	int i, ret;
+
+	signal(SIGUSR1, signal_handler);
+
+	ctx.efd[0] = epoll_create1(0);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	ctx.sfd[0] = eventfd(1, 0);
+	ASSERT_GE(ctx.sfd[0], 0);
+
+	e.events = EPOLLIN | EPOLLERR | EPOLLET;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	ASSERT_EQ(pthread_create(&emitter, NULL, epoll59_thread, &ctx), 0);
+
+	for (i = 0; i < 100000; i++) {
+		ret = epoll_wait(ctx.efd[0], &e, 1, 1000);
+		ASSERT_GT(ret, 0);
+
+		while (ctx.count != 0)
+			;
+		ctx.count = 1;
+	}
+	if (pthread_tryjoin_np(emitter, NULL) < 0) {
+		pthread_kill(emitter, SIGUSR1);
+		pthread_join(emitter, NULL);
+	}
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+}
+
+enum {
+	EPOLL60_EVENTS_NR = 10,
+};
+
+struct epoll60_ctx {
+	volatile int stopped;
+	int ready;
+	int waiters;
+	int epfd;
+	int evfd[EPOLL60_EVENTS_NR];
+};
+
+static void *epoll60_wait_thread(void *ctx_)
+{
+	struct epoll60_ctx *ctx = ctx_;
+	struct epoll_event e;
+	sigset_t sigmask;
+	uint64_t v;
+	int ret;
+
+	/* Block SIGUSR1 */
+	sigemptyset(&sigmask);
+	sigaddset(&sigmask, SIGUSR1);
+	sigprocmask(SIG_SETMASK, &sigmask, NULL);
+
+	/* Prepare empty mask for epoll_pwait() */
+	sigemptyset(&sigmask);
+
+	while (!ctx->stopped) {
+		/* Mark we are ready */
+		__atomic_fetch_add(&ctx->ready, 1, __ATOMIC_ACQUIRE);
+
+		/* Start when all are ready */
+		while (__atomic_load_n(&ctx->ready, __ATOMIC_ACQUIRE) &&
+		       !ctx->stopped);
+
+		/* Account this waiter */
+		__atomic_fetch_add(&ctx->waiters, 1, __ATOMIC_ACQUIRE);
+
+		ret = epoll_pwait(ctx->epfd, &e, 1, 2000, &sigmask);
+		if (ret != 1) {
+			/* We expect only signal delivery on stop */
+			assert(ret < 0 && errno == EINTR && "Lost wakeup!\n");
+			assert(ctx->stopped);
+			break;
+		}
+
+		ret = read(e.data.fd, &v, sizeof(v));
+		/* Since we are on ET mode, thus each thread gets its own fd. */
+		assert(ret == sizeof(v));
+
+		__atomic_fetch_sub(&ctx->waiters, 1, __ATOMIC_RELEASE);
+	}
+
+	return NULL;
+}
+
+static inline unsigned long long msecs(void)
+{
+	struct timespec ts;
+	unsigned long long msecs;
+
+	clock_gettime(CLOCK_REALTIME, &ts);
+	msecs = ts.tv_sec * 1000ull;
+	msecs += ts.tv_nsec / 1000000ull;
+
+	return msecs;
+}
+
+static inline int count_waiters(struct epoll60_ctx *ctx)
+{
+	return __atomic_load_n(&ctx->waiters, __ATOMIC_ACQUIRE);
+}
+
+TEST(epoll60)
+{
+	struct epoll60_ctx ctx = { 0 };
+	pthread_t waiters[ARRAY_SIZE(ctx.evfd)];
+	struct epoll_event e;
+	int i, n, ret;
+
+	signal(SIGUSR1, signal_handler);
+
+	ctx.epfd = epoll_create1(0);
+	ASSERT_GE(ctx.epfd, 0);
+
+	/* Create event fds */
+	for (i = 0; i < ARRAY_SIZE(ctx.evfd); i++) {
+		ctx.evfd[i] = eventfd(0, EFD_NONBLOCK);
+		ASSERT_GE(ctx.evfd[i], 0);
+
+		e.events = EPOLLIN | EPOLLET;
+		e.data.fd = ctx.evfd[i];
+		ASSERT_EQ(epoll_ctl(ctx.epfd, EPOLL_CTL_ADD, ctx.evfd[i], &e), 0);
+	}
+
+	/* Create waiter threads */
+	for (i = 0; i < ARRAY_SIZE(waiters); i++)
+		ASSERT_EQ(pthread_create(&waiters[i], NULL,
+					 epoll60_wait_thread, &ctx), 0);
+
+	for (i = 0; i < 300; i++) {
+		uint64_t v = 1, ms;
+
+		/* Wait for all to be ready */
+		while (__atomic_load_n(&ctx.ready, __ATOMIC_ACQUIRE) !=
+		       ARRAY_SIZE(ctx.evfd))
+			;
+
+		/* Steady, go */
+		__atomic_fetch_sub(&ctx.ready, ARRAY_SIZE(ctx.evfd),
+				   __ATOMIC_ACQUIRE);
+
+		/* Wait all have gone to kernel */
+		while (count_waiters(&ctx) != ARRAY_SIZE(ctx.evfd))
+			;
+
+		/* 1ms should be enough to schedule away */
+		usleep(1000);
+
+		/* Quickly signal all handles at once */
+		for (n = 0; n < ARRAY_SIZE(ctx.evfd); n++) {
+			ret = write(ctx.evfd[n], &v, sizeof(v));
+			ASSERT_EQ(ret, sizeof(v));
+		}
+
+		/* Busy loop for 1s and wait for all waiters to wake up */
+		ms = msecs();
+		while (count_waiters(&ctx) && msecs() < ms + 1000)
+			;
+
+		ASSERT_EQ(count_waiters(&ctx), 0);
+	}
+	ctx.stopped = 1;
+	/* Stop waiters */
+	for (i = 0; i < ARRAY_SIZE(waiters); i++)
+		ret = pthread_kill(waiters[i], SIGUSR1);
+	for (i = 0; i < ARRAY_SIZE(waiters); i++)
+		pthread_join(waiters[i], NULL);
+
+	for (i = 0; i < ARRAY_SIZE(waiters); i++)
+		close(ctx.evfd[i]);
+	close(ctx.epfd);
+}
+
+struct epoll61_ctx {
+	int epfd;
+	int evfd;
+};
+
+static void *epoll61_write_eventfd(void *ctx_)
+{
+	struct epoll61_ctx *ctx = ctx_;
+	int64_t l = 1;
+
+	usleep(10950);
+	write(ctx->evfd, &l, sizeof(l));
+	return NULL;
+}
+
+static void *epoll61_epoll_with_timeout(void *ctx_)
+{
+	struct epoll61_ctx *ctx = ctx_;
+	struct epoll_event events[1];
+	int n;
+
+	n = epoll_wait(ctx->epfd, events, 1, 11);
+	/*
+	 * If epoll returned the eventfd, write on the eventfd to wake up the
+	 * blocking poller.
+	 */
+	if (n == 1) {
+		int64_t l = 1;
+
+		write(ctx->evfd, &l, sizeof(l));
+	}
+	return NULL;
+}
+
+static void *epoll61_blocking_epoll(void *ctx_)
+{
+	struct epoll61_ctx *ctx = ctx_;
+	struct epoll_event events[1];
+
+	epoll_wait(ctx->epfd, events, 1, -1);
+	return NULL;
+}
+
+TEST(epoll61)
+{
+	struct epoll61_ctx ctx;
+	struct epoll_event ev;
+	int i, r;
+
+	ctx.epfd = epoll_create1(0);
+	ASSERT_GE(ctx.epfd, 0);
+	ctx.evfd = eventfd(0, EFD_NONBLOCK);
+	ASSERT_GE(ctx.evfd, 0);
+
+	ev.events = EPOLLIN | EPOLLET | EPOLLERR | EPOLLHUP;
+	ev.data.ptr = NULL;
+	r = epoll_ctl(ctx.epfd, EPOLL_CTL_ADD, ctx.evfd, &ev);
+	ASSERT_EQ(r, 0);
+
+	/*
+	 * We are testing a race.  Repeat the test case 1000 times to make it
+	 * more likely to fail in case of a bug.
+	 */
+	for (i = 0; i < 1000; i++) {
+		pthread_t threads[3];
+		int n;
+
+		/*
+		 * Start 3 threads:
+		 * Thread 1 sleeps for 10.9ms and writes to the evenfd.
+		 * Thread 2 calls epoll with a timeout of 11ms.
+		 * Thread 3 calls epoll with a timeout of -1.
+		 *
+		 * The eventfd write by Thread 1 should either wakeup Thread 2
+		 * or Thread 3.  If it wakes up Thread 2, Thread 2 writes on the
+		 * eventfd to wake up Thread 3.
+		 *
+		 * If no events are missed, all three threads should eventually
+		 * be joinable.
+		 */
+		ASSERT_EQ(pthread_create(&threads[0], NULL,
+					 epoll61_write_eventfd, &ctx), 0);
+		ASSERT_EQ(pthread_create(&threads[1], NULL,
+					 epoll61_epoll_with_timeout, &ctx), 0);
+		ASSERT_EQ(pthread_create(&threads[2], NULL,
+					 epoll61_blocking_epoll, &ctx), 0);
+
+		for (n = 0; n < ARRAY_SIZE(threads); ++n)
+			ASSERT_EQ(pthread_join(threads[n], NULL), 0);
+	}
+
+	close(ctx.epfd);
+	close(ctx.evfd);
+}
+
+/* Equivalent to basic test epoll1, but exercising epoll_pwait2. */
+TEST(epoll62)
+{
+	int efd;
+	int sfd[2];
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, sfd), 0);
+
+	efd = epoll_create(1);
+	ASSERT_GE(efd, 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	ASSERT_EQ(write(sfd[1], "w", 1), 1);
+
+	EXPECT_EQ(sys_epoll_pwait2(efd, &e, 1, NULL, NULL, 0), 1);
+	EXPECT_EQ(sys_epoll_pwait2(efd, &e, 1, NULL, NULL, 0), 1);
+
+	close(efd);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/* Epoll_pwait2 basic timeout test. */
+TEST(epoll63)
+{
+	const int cfg_delay_ms = 10;
+	unsigned long long tdiff;
+	struct __kernel_timespec ts;
+	int efd;
+	int sfd[2];
+	struct epoll_event e;
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, sfd), 0);
+
+	efd = epoll_create(1);
+	ASSERT_GE(efd, 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(efd, EPOLL_CTL_ADD, sfd[0], &e), 0);
+
+	ts.tv_sec = 0;
+	ts.tv_nsec = cfg_delay_ms * 1000 * 1000;
+
+	tdiff = msecs();
+	EXPECT_EQ(sys_epoll_pwait2(efd, &e, 1, &ts, NULL, 0), 0);
+	tdiff = msecs() - tdiff;
+
+	EXPECT_GE(tdiff, cfg_delay_ms);
+
+	close(efd);
+	close(sfd[0]);
+	close(sfd[1]);
+}
+
+/*
+ *        t0    t1
+ *     (ew) \  / (ew)
+ *           e0
+ *            | (lt)
+ *           s0
+ */
+TEST(epoll64)
+{
+	pthread_t waiter[2];
+	struct epoll_event e;
+	struct epoll_mtcontext ctx = { 0 };
+
+	signal(SIGUSR1, signal_handler);
+
+	ASSERT_EQ(socketpair(AF_UNIX, SOCK_STREAM, 0, ctx.sfd), 0);
+
+	ctx.efd[0] = epoll_create(1);
+	ASSERT_GE(ctx.efd[0], 0);
+
+	e.events = EPOLLIN;
+	ASSERT_EQ(epoll_ctl(ctx.efd[0], EPOLL_CTL_ADD, ctx.sfd[0], &e), 0);
+
+	/*
+	 * main will act as the emitter once both waiter threads are
+	 * blocked and expects to both be awoken upon the ready event.
+	 */
+	ctx.main = pthread_self();
+	ASSERT_EQ(pthread_create(&waiter[0], NULL, waiter_entry1a, &ctx), 0);
+	ASSERT_EQ(pthread_create(&waiter[1], NULL, waiter_entry1a, &ctx), 0);
+
+	usleep(100000);
+	ASSERT_EQ(write(ctx.sfd[1], "w", 1), 1);
+
+	ASSERT_EQ(pthread_join(waiter[0], NULL), 0);
+	ASSERT_EQ(pthread_join(waiter[1], NULL), 0);
+
+	EXPECT_EQ(ctx.count, 2);
+
+	close(ctx.efd[0]);
+	close(ctx.sfd[0]);
+	close(ctx.sfd[1]);
+}
+
+TEST_HARNESS_MAIN