/* -*- Mode: C; c-basic-offset:4 ; indent-tabs-mode:nil -*- */ /* * Copyright (c) 2011-2014 Los Alamos National Security, LLC. All rights * reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #if !defined(MCA_BTL_VADER_FBOX_H) #define MCA_BTL_VADER_FBOX_H #include "btl_vader.h" #define MCA_BTL_VADER_POLL_COUNT 31 typedef union mca_btl_vader_fbox_hdr_t { struct { uint16_t tag; uint16_t size; uint32_t seq; } data; uint64_t ival; } mca_btl_vader_fbox_hdr_t; #define MCA_BTL_VADER_FBOX_HDR(x) ((mca_btl_vader_fbox_hdr_t *) (x)) #define MCA_BTL_VADER_FBOX_OFFSET_MASK 0x7fffffff #define MCA_BTL_VADER_FBOX_HB_MASK 0x80000000 /* if the two offsets are equal and the high bit matches the buffer is empty else the buffer is full. * note that start will never be end - 1 so this simplified conditional will always produce the correct * result */ #define BUFFER_FREE(s,e,hbm,size) (((s + !hbm) > (e)) ? (s) - (e) : (size - (e))) /** macro for checking if the high bit is set */ #define MCA_BTL_VADER_FBOX_OFFSET_HBS(v) (!!((v) & MCA_BTL_VADER_FBOX_HB_MASK)) void mca_btl_vader_poll_handle_frag (mca_btl_vader_hdr_t *hdr, mca_btl_base_endpoint_t *ep); /* attempt to reserve a contiguous segment from the remote ep */ static inline unsigned char *mca_btl_vader_reserve_fbox (mca_btl_base_endpoint_t *ep, size_t size) { const unsigned int fbox_size = mca_btl_vader_component.fbox_size; unsigned int start, end, buffer_free; size_t data_size = size; unsigned char *dst; bool hbs, hbm; /* don't try to use the per-peer buffer for messages that will fill up more than 25% of the buffer */ if (OPAL_UNLIKELY(NULL == ep->fbox_out.buffer || size > (fbox_size >> 2))) { return NULL; } OPAL_THREAD_LOCK(&ep->lock); /* the high bit helps determine if the buffer is empty or full */ hbs = MCA_BTL_VADER_FBOX_OFFSET_HBS(ep->fbox_out.end); hbm = MCA_BTL_VADER_FBOX_OFFSET_HBS(ep->fbox_out.start) == hbs; /* read current start and end offsets and check for free space */ start = ep->fbox_out.start & MCA_BTL_VADER_FBOX_OFFSET_MASK; end = ep->fbox_out.end & MCA_BTL_VADER_FBOX_OFFSET_MASK; buffer_free = BUFFER_FREE(start, end, hbm, fbox_size); /* need space for the fragment + the header */ size = (size + sizeof (mca_btl_vader_fbox_hdr_t) + MCA_BTL_VADER_FBOX_ALIGNMENT_MASK) & ~MCA_BTL_VADER_FBOX_ALIGNMENT_MASK; dst = ep->fbox_out.buffer + end; if (OPAL_UNLIKELY(buffer_free < size)) { /* check if we need to free up space for this fragment */ BTL_VERBOSE(("not enough room for a fragment of size %u. in use buffer segment: {start: %x, end: %x, high bit matches: %d}", (unsigned) size, start, end, (int) hbm)); /* read the current start pointer from the remote peer and recalculate the available buffer space */ start = ep->fbox_out.start = ep->fbox_out.startp[0]; /* recalculate how much buffer space is available */ start &= MCA_BTL_VADER_FBOX_OFFSET_MASK; hbm = MCA_BTL_VADER_FBOX_OFFSET_HBS(ep->fbox_out.start) == hbs; buffer_free = BUFFER_FREE(start, end, hbm, fbox_size); opal_atomic_rmb (); /* if this is the end of the buffer and the fragment doesn't fit then mark the remaining buffer space to * be skipped and check if the fragment can be written at the beginning of the buffer. */ if (OPAL_UNLIKELY(buffer_free > 0 && buffer_free < size && start <= end)) { mca_btl_vader_fbox_hdr_t tmp = {.data = {.size = buffer_free - sizeof (mca_btl_vader_fbox_hdr_t), .seq = ep->fbox_out.seq++, .tag = 0xff}}; BTL_VERBOSE(("message will not fit in remaining buffer space. skipping to beginning")); MCA_BTL_VADER_FBOX_HDR(dst)->ival = tmp.ival; end = MCA_BTL_VADER_FBOX_ALIGNMENT; /* toggle the high bit */ hbs = !hbs; /* toggle the high bit match */ buffer_free = BUFFER_FREE(start, end, !hbm, fbox_size); dst = ep->fbox_out.buffer + end; } if (OPAL_UNLIKELY(buffer_free < size)) { ep->fbox_out.end = (hbs << 31) | end; OPAL_THREAD_UNLOCK(&ep->lock); return NULL; } } BTL_VERBOSE(("writing fragment of size %u to offset %u {start: 0x%x, end: 0x%x (hbs: %d)} of peer's buffer. free = %u", (unsigned int) size, end, start, end, hbs, buffer_free)); /* write out part of the header now. the tag will be written when the data is available */ { mca_btl_vader_fbox_hdr_t tmp = {.data = {.size = data_size, .tag = 0, .seq = ep->fbox_out.seq++}}; MCA_BTL_VADER_FBOX_HDR(dst)->ival = tmp.ival; } end += size; if (OPAL_UNLIKELY(fbox_size == end)) { /* toggle the high bit */ hbs = !hbs; /* reset the end pointer to the beginning of the buffer */ end = MCA_BTL_VADER_FBOX_ALIGNMENT; } else if (buffer_free > size) { MCA_BTL_VADER_FBOX_HDR(ep->fbox_out.buffer + end)->ival = 0; } /* align the buffer */ ep->fbox_out.end = ((uint32_t) hbs << 31) | end; OPAL_THREAD_UNLOCK(&ep->lock); return dst + sizeof (mca_btl_vader_fbox_hdr_t); } static inline void mca_btl_vader_fbox_send (unsigned char * restrict fbox, unsigned char tag) { /* ensure data writes have completed before we mark the data as available */ opal_atomic_wmb (); /* the header proceeds the fbox buffer */ MCA_BTL_VADER_FBOX_HDR ((intptr_t) fbox)[-1].data.tag = tag; } static inline bool mca_btl_vader_fbox_sendi (mca_btl_base_endpoint_t *ep, unsigned char tag, void * restrict header, const size_t header_size, void * restrict payload, const size_t payload_size) { const size_t total_size = header_size + payload_size; unsigned char * restrict fbox; fbox = mca_btl_vader_reserve_fbox(ep, total_size); if (OPAL_UNLIKELY(NULL == fbox)) { return false; } memcpy (fbox, header, header_size); if (payload) { /* inline sends are typically just pml headers (due to MCA_BTL_FLAGS_SEND_INPLACE) */ memcpy (fbox + header_size, payload, payload_size); } /* mark the fbox as sent */ mca_btl_vader_fbox_send (fbox, tag); /* send complete */ return true; } static inline bool mca_btl_vader_check_fboxes (void) { const unsigned int fbox_size = mca_btl_vader_component.fbox_size; bool processed = false; for (unsigned int i = 0 ; i < mca_btl_vader_component.num_fbox_in_endpoints ; ++i) { mca_btl_base_endpoint_t *ep = mca_btl_vader_component.fbox_in_endpoints[i]; unsigned int start = ep->fbox_in.start & MCA_BTL_VADER_FBOX_OFFSET_MASK; /* save the current high bit state */ bool hbs = MCA_BTL_VADER_FBOX_OFFSET_HBS(ep->fbox_in.start); int poll_count; for (poll_count = 0 ; poll_count <= MCA_BTL_VADER_POLL_COUNT ; ++poll_count) { const mca_btl_vader_fbox_hdr_t hdr = {.ival = MCA_BTL_VADER_FBOX_HDR(ep->fbox_in.buffer + start)->ival}; /* check for a valid tag a sequence number */ if (0 == hdr.data.tag || hdr.data.seq != ep->fbox_in.seq) { break; } ++ep->fbox_in.seq; /* force all prior reads to complete before continuing */ opal_atomic_rmb (); BTL_VERBOSE(("got frag from %d with header {.tag = %d, .size = %d, .seq = %u} from offset %u", ep->peer_smp_rank, hdr.data.tag, hdr.data.size, hdr.data.seq, start)); /* the 0xff tag indicates we should skip the rest of the buffer */ if (OPAL_LIKELY((0xfe & hdr.data.tag) != 0xfe)) { mca_btl_base_segment_t segment; mca_btl_base_descriptor_t desc = {.des_local = &segment, .des_local_count = 1}; const mca_btl_active_message_callback_t *reg = mca_btl_base_active_message_trigger + hdr.data.tag; /* fragment fits entirely in the remaining buffer space. some * btl users do not handle fragmented data so we can't split * the fragment without introducing another copy here. this * limitation has not appeared to cause any performance * degradation. */ segment.seg_len = hdr.data.size; segment.seg_addr.pval = (void *) (ep->fbox_in.buffer + start + sizeof (hdr)); /* call the registered callback function */ reg->cbfunc(&mca_btl_vader.super, hdr.data.tag, &desc, reg->cbdata); } else if (OPAL_LIKELY(0xfe == hdr.data.tag)) { /* process fragment header */ fifo_value_t *value = (fifo_value_t *)(ep->fbox_in.buffer + start + sizeof (hdr)); mca_btl_vader_hdr_t *hdr = relative2virtual(*value); mca_btl_vader_poll_handle_frag (hdr, ep); } start = (start + hdr.data.size + sizeof (hdr) + MCA_BTL_VADER_FBOX_ALIGNMENT_MASK) & ~MCA_BTL_VADER_FBOX_ALIGNMENT_MASK; if (OPAL_UNLIKELY(fbox_size == start)) { /* jump to the beginning of the buffer */ start = MCA_BTL_VADER_FBOX_ALIGNMENT; /* toggle the high bit */ hbs = !hbs; } } if (poll_count) { BTL_VERBOSE(("left off at offset %u (hbs: %d)", start, hbs)); /* save where we left off */ /* let the sender know where we stopped */ ep->fbox_in.start = ep->fbox_in.startp[0] = ((uint32_t) hbs << 31) | start; processed = true; } } /* return the number of fragments processed */ return processed; } static inline void mca_btl_vader_try_fbox_setup (mca_btl_base_endpoint_t *ep, mca_btl_vader_hdr_t *hdr) { if (NULL == ep->fbox_out.buffer && mca_btl_vader_component.fbox_threshold == ++ep->send_count) { /* protect access to mca_btl_vader_component.segment_offset */ OPAL_THREAD_LOCK(&mca_btl_vader_component.lock); if (mca_btl_vader_component.segment_size >= mca_btl_vader_component.segment_offset + mca_btl_vader_component.fbox_size && mca_btl_vader_component.fbox_max > mca_btl_vader_component.fbox_count) { /* verify the remote side will accept another fbox */ if (0 <= opal_atomic_add_32 (&ep->fifo->fbox_available, -1)) { void *fbox_base = mca_btl_vader_component.my_segment + mca_btl_vader_component.segment_offset; mca_btl_vader_component.segment_offset += mca_btl_vader_component.fbox_size; /* zero out the fast box */ memset (fbox_base, 0, mca_btl_vader_component.fbox_size); mca_btl_vader_endpoint_setup_fbox_send (ep, fbox_base); hdr->flags |= MCA_BTL_VADER_FLAG_SETUP_FBOX; hdr->fbox_base = virtual2relative((char *) ep->fbox_out.buffer); ++mca_btl_vader_component.fbox_count; } else { opal_atomic_add_32 (&ep->fifo->fbox_available, 1); } opal_atomic_wmb (); } OPAL_THREAD_UNLOCK(&mca_btl_vader_component.lock); } } #endif /* !defined(MCA_BTL_VADER_FBOX_H) */