On 7/16/19 10:26 AM, Alex Kogan wrote: >> On Jul 15, 2019, at 5:30 PM, Waiman Long <longman@xxxxxxxxxx> wrote: >> >> On 7/15/19 3:25 PM, Alex Kogan wrote: >> >>> /* >>> - * 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 >>> - * 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 >>> - * want to penalize pvqspinlocks to optimize for a rare case in native >>> - * qspinlocks. >>> + * On 64-bit architectures, the mcs_spinlock structure will be 20 bytes in >>> + * size. For pvqspinlock or the NUMA-aware variant, however, we need more >>> + * space for extra data. To accommodate that, we insert two more long words >>> + * to pad it up to 36 bytes. >>> */ >> The 20 bytes figure is wrong. It is actually 24 bytes for 64-bit as the >> mcs_spinlock structure is 8-byte aligned. For better cacheline >> alignment, I will like to keep mcs_spinlock to 16 bytes as before. >> Instead, you can use encode_tail() to store the CNA node pointer in >> "locked". For instance, use (encode_tail() << 1) in locked to >> distinguish it from the regular locked=1 value. > I think this can work. > decode_tail() will get the actual node pointer from the encoded value. > And that would keep the size of mcs_spinlock intact. > Good idea, thanks! > > BTW, maybe better change those function names to encode_node() / decode_node() then? The names look good to me. > >>> s >>> + >>> +static void cna_init_node(struct mcs_spinlock *node) >>> +{ >>> + struct cna_node *cn = CNA_NODE(node); >>> + struct mcs_spinlock *base_node; >>> + int cpuid; >>> + >>> + BUILD_BUG_ON(sizeof(struct cna_node) > sizeof(struct qnode)); >>> + /* we store a pointer in the node's @locked field */ >>> + BUILD_BUG_ON(sizeof(uintptr_t) > sizeof_field(struct mcs_spinlock, locked)); >>> + >>> + cpuid = smp_processor_id(); >>> + cn->numa_node = cpu_to_node(cpuid); >>> + >>> + base_node = this_cpu_ptr(&qnodes[0].mcs); >>> + cn->encoded_tail = encode_tail(cpuid, base_node->count - 1); >>> +} >> >> I think you can use an early_init call to initialize the numa_node and >> encoded_tail values for all the per-cpu CNA nodes instead of doing it >> every time a node is used. If it turns out that pv_qspinlock is used, >> the pv_node_init() will properly re-initialize it. > Yes, this should work. Thanks. > > BTW, should not we initialize `cpu` in pv_init_node() that same way? We would also initialize cpu this way in pv_init_node. The smp_processor_id() call is relatively cheap, but the initialization done here is more expensive. >> The only thing left >> to do here is perhaps setting tail to NULL. > There is no need to initialize cna_node.tail — we never access it unless > the node is at the head of the secondary queue, and in that case we > initialize it before placing the node at the head of that queue > (see find_successor()). OK. -Longman