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Wed, 15 Jan 2020 04:14:36 +0000 Received: from pps.filterd (aserp3020.oracle.com [127.0.0.1]) by aserp3020.oracle.com (8.16.0.27/8.16.0.27) with SMTP id 00F4EK1j095410; Wed, 15 Jan 2020 04:14:35 GMT Received: from aserv0121.oracle.com (aserv0121.oracle.com [141.146.126.235]) by aserp3020.oracle.com with ESMTP id 2xh315dbs5-1 (version=TLSv1.2 cipher=ECDHE-RSA-AES256-GCM-SHA384 bits=256 verify=OK); Wed, 15 Jan 2020 04:14:35 +0000 Received: from abhmp0013.oracle.com (abhmp0013.oracle.com [141.146.116.19]) by aserv0121.oracle.com (8.14.4/8.13.8) with ESMTP id 00F4D3TZ015870; Wed, 15 Jan 2020 04:13:03 GMT Received: from neelam.us.oracle.com (/10.152.128.16) by default (Oracle Beehive Gateway v4.0) with ESMTP ; Tue, 14 Jan 2020 20:13:03 -0800 From: Alex Kogan To: linux@armlinux.org.uk, peterz@infradead.org, mingo@redhat.com, will.deacon@arm.com, arnd@arndb.de, longman@redhat.com, linux-arch@vger.kernel.org, linux-arm-kernel@lists.infradead.org, linux-kernel@vger.kernel.org, tglx@linutronix.de, bp@alien8.de, hpa@zytor.com, x86@kernel.org, guohanjun@huawei.com, jglauber@marvell.com Subject: [PATCH v9 3/5] locking/qspinlock: Introduce CNA into the slow path of qspinlock Date: Tue, 14 Jan 2020 22:59:18 -0500 Message-Id: <20200115035920.54451-4-alex.kogan@oracle.com> X-Mailer: git-send-email 2.19.1 In-Reply-To: <20200115035920.54451-1-alex.kogan@oracle.com> References: <20200115035920.54451-1-alex.kogan@oracle.com> MIME-Version: 1.0 X-Proofpoint-Virus-Version: vendor=nai engine=6000 definitions=9500 signatures=668685 X-Proofpoint-Spam-Details: rule=notspam policy=default score=0 suspectscore=0 malwarescore=0 phishscore=0 bulkscore=0 spamscore=0 mlxscore=0 mlxlogscore=999 adultscore=0 classifier=spam adjust=0 reason=mlx scancount=1 engine=8.0.1-1911140001 definitions=main-2001150033 X-Proofpoint-Virus-Version: vendor=nai engine=6000 definitions=9500 signatures=668685 X-Proofpoint-Spam-Details: rule=notspam policy=default score=0 priorityscore=1501 malwarescore=0 suspectscore=0 phishscore=0 bulkscore=0 spamscore=0 clxscore=1015 lowpriorityscore=0 mlxscore=0 impostorscore=0 mlxlogscore=999 adultscore=0 classifier=spam adjust=0 reason=mlx scancount=1 engine=8.0.1-1911140001 definitions=main-2001150033 X-CRM114-Version: 20100106-BlameMichelson ( TRE 0.8.0 (BSD) ) MR-646709E3 X-CRM114-CacheID: sfid-20200114_201507_518940_17869AF1 X-CRM114-Status: GOOD ( 33.91 ) X-BeenThere: linux-arm-kernel@lists.infradead.org X-Mailman-Version: 2.1.29 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Cc: alex.kogan@oracle.com, dave.dice@oracle.com, steven.sistare@oracle.com, daniel.m.jordan@oracle.com Content-Type: text/plain; charset="us-ascii" Content-Transfer-Encoding: 7bit Sender: "linux-arm-kernel" Errors-To: linux-arm-kernel-bounces+infradead-linux-arm-kernel=archiver.kernel.org@lists.infradead.org In CNA, spinning threads are organized in two queues, a main queue for threads running on the same node as the current lock holder, and a secondary queue for threads running on other nodes. After acquiring the MCS lock and before acquiring the spinlock, the lock holder scans the main queue looking for a thread running on the same node (pre-scan). If found (call it thread T), all threads in the main queue between the current lock holder and T are moved to the end of the secondary queue. If such T is not found, we make another scan of the main queue when unlocking the MCS lock (post-scan), starting at the position where pre-scan stopped. If both scans fail to find such T, the MCS lock is passed to the first thread in the secondary queue. If the secondary queue is empty, the lock is passed to the next thread in the main queue. For more details, see https://arxiv.org/abs/1810.05600. Note that this variant of CNA may introduce starvation by continuously passing the lock to threads running on the same node. This issue will be addressed later in the series. Enabling CNA is controlled via a new configuration option (NUMA_AWARE_SPINLOCKS). By default, the CNA variant is patched in at the boot time only if we run on a multi-node machine in native environment and the new config is enabled. (For the time being, the patching requires CONFIG_PARAVIRT_SPINLOCKS to be enabled as well. However, this should be resolved once static_call() is available.) This default behavior can be overridden with the new kernel boot command-line option "numa_spinlock=on/off" (default is "auto"). Signed-off-by: Alex Kogan Reviewed-by: Steve Sistare Reviewed-by: Waiman Long --- .../admin-guide/kernel-parameters.txt | 10 + arch/x86/Kconfig | 20 ++ arch/x86/include/asm/qspinlock.h | 4 + arch/x86/kernel/alternative.c | 4 + kernel/locking/mcs_spinlock.h | 2 +- kernel/locking/qspinlock.c | 39 ++- kernel/locking/qspinlock_cna.h | 318 ++++++++++++++++++ 7 files changed, 392 insertions(+), 5 deletions(-) create mode 100644 kernel/locking/qspinlock_cna.h diff --git a/Documentation/admin-guide/kernel-parameters.txt b/Documentation/admin-guide/kernel-parameters.txt index ade4e6ec23e0..b68cb80e477f 100644 --- a/Documentation/admin-guide/kernel-parameters.txt +++ b/Documentation/admin-guide/kernel-parameters.txt @@ -3190,6 +3190,16 @@ nox2apic [X86-64,APIC] Do not enable x2APIC mode. + numa_spinlock= [NUMA, PV_OPS] Select the NUMA-aware variant + of spinlock. The options are: + auto - Enable this variant if running on a multi-node + machine in native environment. + on - Unconditionally enable this variant. + off - Unconditionally disable this variant. + + Not specifying this option is equivalent to + numa_spinlock=auto. + cpu0_hotplug [X86] Turn on CPU0 hotplug feature when CONFIG_BOOTPARAM_HOTPLUG_CPU0 is off. Some features depend on CPU0. Known dependencies are: diff --git a/arch/x86/Kconfig b/arch/x86/Kconfig index 5e8949953660..26dd29b2d515 100644 --- a/arch/x86/Kconfig +++ b/arch/x86/Kconfig @@ -1562,6 +1562,26 @@ config NUMA Otherwise, you should say N. +config NUMA_AWARE_SPINLOCKS + bool "Numa-aware spinlocks" + depends on NUMA + depends on QUEUED_SPINLOCKS + depends on 64BIT + # For now, we depend on PARAVIRT_SPINLOCKS to make the patching work. + # This is awkward, but hopefully would be resolved once static_call() + # is available. + depends on PARAVIRT_SPINLOCKS + default y + help + Introduce NUMA (Non Uniform Memory Access) awareness into + the slow path of spinlocks. + + In this variant of qspinlock, the kernel will try to keep the lock + on the same node, thus reducing the number of remote cache misses, + while trading some of the short term fairness for better performance. + + Say N if you want absolute first come first serve fairness. + config AMD_NUMA def_bool y prompt "Old style AMD Opteron NUMA detection" diff --git a/arch/x86/include/asm/qspinlock.h b/arch/x86/include/asm/qspinlock.h index 444d6fd9a6d8..fe4884b6f1b4 100644 --- a/arch/x86/include/asm/qspinlock.h +++ b/arch/x86/include/asm/qspinlock.h @@ -27,6 +27,10 @@ static __always_inline u32 queued_fetch_set_pending_acquire(struct qspinlock *lo return val; } +#ifdef CONFIG_NUMA_AWARE_SPINLOCKS +extern void cna_configure_spin_lock_slowpath(void); +#endif + #ifdef CONFIG_PARAVIRT_SPINLOCKS extern void native_queued_spin_lock_slowpath(struct qspinlock *lock, u32 val); extern void __pv_init_lock_hash(void); diff --git a/arch/x86/kernel/alternative.c b/arch/x86/kernel/alternative.c index 9ec463fe96f2..5a59d06a9d21 100644 --- a/arch/x86/kernel/alternative.c +++ b/arch/x86/kernel/alternative.c @@ -738,6 +738,10 @@ void __init alternative_instructions(void) } #endif +#if defined(CONFIG_NUMA_AWARE_SPINLOCKS) + cna_configure_spin_lock_slowpath(); +#endif + apply_paravirt(__parainstructions, __parainstructions_end); restart_nmi(); diff --git a/kernel/locking/mcs_spinlock.h b/kernel/locking/mcs_spinlock.h index 52d06ec6f525..e40b9538b79f 100644 --- a/kernel/locking/mcs_spinlock.h +++ b/kernel/locking/mcs_spinlock.h @@ -17,7 +17,7 @@ struct mcs_spinlock { struct mcs_spinlock *next; - int locked; /* 1 if lock acquired */ + unsigned int locked; /* 1 if lock acquired */ int count; /* nesting count, see qspinlock.c */ }; diff --git a/kernel/locking/qspinlock.c b/kernel/locking/qspinlock.c index c06d1e8075d9..609980a53841 100644 --- a/kernel/locking/qspinlock.c +++ b/kernel/locking/qspinlock.c @@ -11,7 +11,7 @@ * Peter Zijlstra */ -#ifndef _GEN_PV_LOCK_SLOWPATH +#if !defined(_GEN_PV_LOCK_SLOWPATH) && !defined(_GEN_CNA_LOCK_SLOWPATH) #include #include @@ -70,7 +70,8 @@ /* * On 64-bit architectures, the mcs_spinlock structure will be 16 bytes in * size and four of them will fit nicely in one 64-byte cacheline. For - * pvqspinlock, however, we need more space for extra data. To accommodate + * pvqspinlock, however, we need more space for extra data. The same also + * applies for the NUMA-aware variant of spinlocks (CNA). To accommodate * that, we insert two more long words to pad it up to 32 bytes. IOW, only * two of them can fit in a cacheline in this case. That is OK as it is rare * to have more than 2 levels of slowpath nesting in actual use. We don't @@ -79,7 +80,7 @@ */ struct qnode { struct mcs_spinlock mcs; -#ifdef CONFIG_PARAVIRT_SPINLOCKS +#if defined(CONFIG_PARAVIRT_SPINLOCKS) || defined(CONFIG_NUMA_AWARE_SPINLOCKS) long reserved[2]; #endif }; @@ -103,6 +104,8 @@ struct qnode { * Exactly fits one 64-byte cacheline on a 64-bit architecture. * * PV doubles the storage and uses the second cacheline for PV state. + * CNA also doubles the storage and uses the second cacheline for + * CNA-specific state. */ static DEFINE_PER_CPU_ALIGNED(struct qnode, qnodes[MAX_NODES]); @@ -316,7 +319,7 @@ static __always_inline void __mcs_pass_lock(struct mcs_spinlock *node, #define try_clear_tail __try_clear_tail #define mcs_pass_lock __mcs_pass_lock -#endif /* _GEN_PV_LOCK_SLOWPATH */ +#endif /* _GEN_PV_LOCK_SLOWPATH && _GEN_CNA_LOCK_SLOWPATH */ /** * queued_spin_lock_slowpath - acquire the queued spinlock @@ -588,6 +591,34 @@ void queued_spin_lock_slowpath(struct qspinlock *lock, u32 val) } EXPORT_SYMBOL(queued_spin_lock_slowpath); +/* + * Generate the code for NUMA-aware spinlocks + */ +#if !defined(_GEN_CNA_LOCK_SLOWPATH) && defined(CONFIG_NUMA_AWARE_SPINLOCKS) +#define _GEN_CNA_LOCK_SLOWPATH + +#undef pv_wait_head_or_lock +#define pv_wait_head_or_lock cna_pre_scan + +#undef try_clear_tail +#define try_clear_tail cna_try_change_tail + +#undef mcs_pass_lock +#define mcs_pass_lock cna_pass_lock + +#undef queued_spin_lock_slowpath +/* + * defer defining queued_spin_lock_slowpath until after the include to + * avoid a name clash with the identically named field in pv_ops.lock + * (see cna_configure_spin_lock_slowpath()) + */ +#include "qspinlock_cna.h" +#define queued_spin_lock_slowpath __cna_queued_spin_lock_slowpath + +#include "qspinlock.c" + +#endif + /* * Generate the paravirt code for queued_spin_unlock_slowpath(). */ diff --git a/kernel/locking/qspinlock_cna.h b/kernel/locking/qspinlock_cna.h new file mode 100644 index 000000000000..8000231f3d51 --- /dev/null +++ b/kernel/locking/qspinlock_cna.h @@ -0,0 +1,318 @@ +/* SPDX-License-Identifier: GPL-2.0 */ +#ifndef _GEN_CNA_LOCK_SLOWPATH +#error "do not include this file" +#endif + +#include + +/* + * Implement a NUMA-aware version of MCS (aka CNA, or compact NUMA-aware lock). + * + * In CNA, spinning threads are organized in two queues, a main queue for + * threads running on the same NUMA node as the current lock holder, and a + * secondary queue for threads running on other nodes. Schematically, it + * looks like this: + * + * cna_node + * +----------+ +--------+ +--------+ + * |mcs:next | -> |mcs:next| -> ... |mcs:next| -> NULL [Main queue] + * |mcs:locked| -+ +--------+ +--------+ + * +----------+ | + * +----------------------+ + * \/ + * +--------+ +--------+ + * |mcs:next| -> ... |mcs:next| [Secondary queue] + * +--------+ +--------+ + * ^ | + * +--------------------+ + * + * N.B. locked = 1 if secondary queue is absent. Othewrise, it contains the + * encoded pointer to the tail of the secondary queue, which is organized as a + * circular list. + * + * After acquiring the MCS lock and before acquiring the spinlock, the lock + * holder scans the main queue looking for a thread running on the same node + * (pre-scan). If found (call it thread T), all threads in the main queue + * between the current lock holder and T are moved to the end of the secondary + * queue. If such T is not found, we make another scan of the main queue when + * unlocking the MCS lock (post-scan), starting at the node where pre-scan + * stopped. If both scans fail to find such T, the MCS lock is passed to the + * first thread in the secondary queue. If the secondary queue is empty, the + * lock is passed to the next thread in the main queue. + * + * For more details, see https://arxiv.org/abs/1810.05600. + * + * Authors: Alex Kogan + * Dave Dice + */ + +struct cna_node { + struct mcs_spinlock mcs; + int numa_node; + u32 encoded_tail; + u32 pre_scan_result; /* encoded tail or enum val */ +}; + +enum { + LOCAL_WAITER_FOUND = 2, /* 0 and 1 are reserved for @locked */ + MIN_ENCODED_TAIL +}; + +static void __init cna_init_nodes_per_cpu(unsigned int cpu) +{ + struct mcs_spinlock *base = per_cpu_ptr(&qnodes[0].mcs, cpu); + int numa_node = cpu_to_node(cpu); + int i; + + for (i = 0; i < MAX_NODES; i++) { + struct cna_node *cn = (struct cna_node *)grab_mcs_node(base, i); + + cn->numa_node = numa_node; + cn->encoded_tail = encode_tail(cpu, i); + /* + * make sure @encoded_tail is not confused with other valid + * values for @locked (0 or 1) or with designated values for + * @pre_scan_result + */ + WARN_ON(cn->encoded_tail < MIN_ENCODED_TAIL); + } +} + +static int __init cna_init_nodes(void) +{ + unsigned int cpu; + + /* + * this will break on 32bit architectures, so we restrict + * the use of CNA to 64bit only (see arch/x86/Kconfig) + */ + BUILD_BUG_ON(sizeof(struct cna_node) > sizeof(struct qnode)); + /* we store an ecoded tail word in the node's @locked field */ + BUILD_BUG_ON(sizeof(u32) > sizeof(unsigned int)); + + for_each_possible_cpu(cpu) + cna_init_nodes_per_cpu(cpu); + + return 0; +} +early_initcall(cna_init_nodes); + +/* this function is called only when the primary queue is empty */ +static inline bool cna_try_change_tail(struct qspinlock *lock, u32 val, + struct mcs_spinlock *node) +{ + struct mcs_spinlock *head_2nd, *tail_2nd; + u32 new; + + /* If the secondary queue is empty, do what MCS does. */ + if (node->locked <= 1) + return __try_clear_tail(lock, val, node); + + /* + * Try to update the tail value to the last node in the secondary queue. + * If successful, pass the lock to the first thread in the secondary + * queue. Doing those two actions effectively moves all nodes from the + * secondary queue into the main one. + */ + tail_2nd = decode_tail(node->locked); + head_2nd = tail_2nd->next; + new = ((struct cna_node *)tail_2nd)->encoded_tail + _Q_LOCKED_VAL; + + if (atomic_try_cmpxchg_relaxed(&lock->val, &val, new)) { + /* + * Try to reset @next in tail_2nd to NULL, but no need to check + * the result - if failed, a new successor has updated it. + */ + cmpxchg_relaxed(&tail_2nd->next, head_2nd, NULL); + arch_mcs_pass_lock(&head_2nd->locked, 1); + return true; + } + + return false; +} + +/* + * cna_splice_tail -- splice nodes in the main queue between [first, last] + * onto the secondary queue. + */ +static void cna_splice_tail(struct mcs_spinlock *node, + struct mcs_spinlock *first, + struct mcs_spinlock *last) +{ + /* remove [first,last] */ + node->next = last->next; + + /* stick [first,last] on the secondary queue tail */ + if (node->locked <= 1) { /* if secondary queue is empty */ + /* create secondary queue */ + last->next = first; + } else { + /* add to the tail of the secondary queue */ + struct mcs_spinlock *tail_2nd = decode_tail(node->locked); + struct mcs_spinlock *head_2nd = tail_2nd->next; + + tail_2nd->next = first; + last->next = head_2nd; + } + + node->locked = ((struct cna_node *)last)->encoded_tail; +} + +/* + * cna_scan_main_queue - scan the main waiting queue looking for the first + * thread running on the same NUMA node as the lock holder. If found (call it + * thread T), move all threads in the main queue between the lock holder and + * T to the end of the secondary queue and return LOCAL_WAITER_FOUND; + * otherwise, return the encoded pointer of the last scanned node in the + * primary queue (so a subsequent scan can be resumed from that node). + * + * Schematically, this may look like the following (nn stands for numa_node and + * et stands for encoded_tail). + * + * when cna_scan_main_queue() is called (the secondary queue is empty): + * + * A+------------+ B+--------+ C+--------+ T+--------+ + * |mcs:next | -> |mcs:next| -> |mcs:next| -> |mcs:next| -> NULL + * |mcs:locked=1| |cna:nn=0| |cna:nn=2| |cna:nn=1| + * |cna:nn=1 | +--------+ +--------+ +--------+ + * +----------- + + * + * when cna_scan_main_queue() returns (the secondary queue contains B and C): + * + * A+----------------+ T+--------+ + * |mcs:next | -> |mcs:next| -> NULL + * |mcs:locked=C.et | -+ |cna:nn=1| + * |cna:nn=1 | | +--------+ + * +--------------- + +-----+ + * \/ + * B+--------+ C+--------+ + * |mcs:next| -> |mcs:next| -+ + * |cna:nn=0| |cna:nn=2| | + * +--------+ +--------+ | + * ^ | + * +---------------------+ + * + * The worst case complexity of the scan is O(n), where n is the number + * of current waiters. However, the amortized complexity is close to O(1), + * as the immediate successor is likely to be running on the same node once + * threads from other nodes are moved to the secondary queue. + * + * @node : Pointer to the MCS node of the lock holder + * @pred_start: Pointer to the MCS node of the waiter whose successor should be + * the first node in the scan + * Return : LOCAL_WAITER_FOUND or encoded tail of the last scanned waiter + */ +static u32 cna_scan_main_queue(struct mcs_spinlock *node, + struct mcs_spinlock *pred_start) +{ + struct cna_node *cn = (struct cna_node *)node; + struct cna_node *cni = (struct cna_node *)READ_ONCE(pred_start->next); + struct cna_node *last; + int my_numa_node = cn->numa_node; + + /* find any next waiter on 'our' NUMA node */ + for (last = cn; + cni && cni->numa_node != my_numa_node; + last = cni, cni = (struct cna_node *)READ_ONCE(cni->mcs.next)) + ; + + /* if found, splice any skipped waiters onto the secondary queue */ + if (cni) { + if (last != cn) /* did we skip any waiters? */ + cna_splice_tail(node, node->next, + (struct mcs_spinlock *)last); + return LOCAL_WAITER_FOUND; + } + + return last->encoded_tail; +} + +__always_inline u32 cna_pre_scan(struct qspinlock *lock, + struct mcs_spinlock *node) +{ + struct cna_node *cn = (struct cna_node *)node; + + cn->pre_scan_result = cna_scan_main_queue(node, node); + + return 0; +} + +static inline void cna_pass_lock(struct mcs_spinlock *node, + struct mcs_spinlock *next) +{ + struct cna_node *cn = (struct cna_node *)node; + struct mcs_spinlock *next_holder = next, *tail_2nd; + u32 val = 1; + + u32 scan = cn->pre_scan_result; + + /* + * check if a successor from the same numa node has not been found in + * pre-scan, and if so, try to find it in post-scan starting from the + * node where pre-scan stopped (stored in @pre_scan_result) + */ + if (scan >= MIN_ENCODED_TAIL) + scan = cna_scan_main_queue(node, decode_tail(scan)); + + if (scan == LOCAL_WAITER_FOUND) { + next_holder = node->next; + /* + * we unlock successor by passing a non-zero value, + * so set @val to 1 iff @locked is 0, which will happen + * if we acquired the MCS lock when its queue was empty + */ + val = node->locked ? node->locked : 1; + } else if (node->locked > 1) { /* if secondary queue is not empty */ + /* next holder will be the first node in the secondary queue */ + tail_2nd = decode_tail(node->locked); + /* @tail_2nd->next points to the head of the secondary queue */ + next_holder = tail_2nd->next; + /* splice the secondary queue onto the head of the main queue */ + tail_2nd->next = next; + } + + arch_mcs_pass_lock(&next_holder->locked, val); +} + +/* + * Constant (boot-param configurable) flag selecting the NUMA-aware variant + * of spinlock. Possible values: -1 (off) / 0 (auto, default) / 1 (on). + */ +static int numa_spinlock_flag; + +static int __init numa_spinlock_setup(char *str) +{ + if (!strcmp(str, "auto")) { + numa_spinlock_flag = 0; + return 1; + } else if (!strcmp(str, "on")) { + numa_spinlock_flag = 1; + return 1; + } else if (!strcmp(str, "off")) { + numa_spinlock_flag = -1; + return 1; + } + + return 0; +} +__setup("numa_spinlock=", numa_spinlock_setup); + +void __cna_queued_spin_lock_slowpath(struct qspinlock *lock, u32 val); + +/* + * Switch to the NUMA-friendly slow path for spinlocks when we have + * multiple NUMA nodes in native environment, unless the user has + * overridden this default behavior by setting the numa_spinlock flag. + */ +void __init cna_configure_spin_lock_slowpath(void) +{ + if ((numa_spinlock_flag == 1) || + (numa_spinlock_flag == 0 && nr_node_ids > 1 && + pv_ops.lock.queued_spin_lock_slowpath == + native_queued_spin_lock_slowpath)) { + pv_ops.lock.queued_spin_lock_slowpath = + __cna_queued_spin_lock_slowpath; + + pr_info("Enabling CNA spinlock\n"); + } +} -- 2.21.0 (Apple Git-122.2) _______________________________________________ linux-arm-kernel mailing list linux-arm-kernel@lists.infradead.org http://lists.infradead.org/mailman/listinfo/linux-arm-kernel