/* make global btl list&map */
static int create_btl_list(void)
{
int btl_type;
char *btl_name;
int size;
opal_list_item_t *item;
mca_btl_base_selected_module_t *btl_sm;
int i;
size = opal_list_get_size(&mca_btl_base_modules_initialized);
if (0 >= size) {
SPML_ERROR("no btl(s) available");
return OSHMEM_ERROR;
}
SPML_VERBOSE(50, "found %d capable btls", size);
mca_spml_yoda.btl_type_map =
(struct yoda_btl *) calloc(size, sizeof(struct yoda_btl));
if (!mca_spml_yoda.btl_type_map)
return OSHMEM_ERROR;
mca_spml_yoda.n_btls = 0;
for (i = 0, item = opal_list_get_first(&mca_btl_base_modules_initialized);
item != opal_list_get_end(&mca_btl_base_modules_initialized);
item = opal_list_get_next(item), i++) {
btl_sm = (mca_btl_base_selected_module_t *) item;
btl_name = btl_sm->btl_component->btl_version.mca_component_name;
btl_type = btl_name_to_id(btl_name);
SPML_VERBOSE(50, "found btl (%s) btl_type=%s", btl_name, btl_type2str(btl_type));
/* Note: we setup bml_btl in create_btl_idx() */
mca_spml_yoda.btl_type_map[mca_spml_yoda.n_btls].bml_btl = NULL;
mca_spml_yoda.btl_type_map[mca_spml_yoda.n_btls].btl =
btl_sm->btl_module;
mca_spml_yoda.btl_type_map[mca_spml_yoda.n_btls].btl_type = btl_type;
mca_spml_yoda.n_btls++;
}
if (0 == mca_spml_yoda.n_btls) {
SPML_ERROR("can not find any suitable btl");
return OSHMEM_ERROR;
}
return OSHMEM_SUCCESS;
}
/**
* shmem_get reads data from a remote address
* in the symmetric heap via RDMA READ.
* Get operation:
* 1. Get the rkey to the remote address.
* 2. Allocate a get request.
* 3. Allocated a temporary pre-registered buffer
* to copy the data to.
* 4. Init the request descriptor with remote side
* data and local side data.
* 5. Read the remote buffer to a pre-registered
* buffer on the local PE using RDMA READ.
* 6. Copy the received data to dst_addr if an
* intermediate pre-register buffer was used.
* 7. Clear the request and return.
*
* src_addr - address on remote pe.
* size - the amount on bytes to be read.
* dst_addr - address on the local pe.
* src - the pe of remote process.
*/
int mca_spml_yoda_get(void* src_addr, size_t size, void* dst_addr, int src)
{
int rc = OSHMEM_SUCCESS;
sshmem_mkey_t *r_mkey, *l_mkey;
void* rva;
unsigned ncopied = 0;
unsigned int frag_size = 0;
char *p_src, *p_dst;
int i;
int nfrags;
mca_bml_base_btl_t* bml_btl = NULL;
mca_btl_base_segment_t* segment;
mca_btl_base_descriptor_t* des = NULL;
mca_spml_yoda_rdma_frag_t* frag = NULL;
struct mca_spml_yoda_getreq_parent get_holder;
struct yoda_btl *ybtl;
int btl_id = 0;
int get_via_send;
mca_btl_base_registration_handle_t *local_handle, *remote_handle = NULL;
mca_spml_yoda_get_request_t* getreq = NULL;
/*If nothing to get its OK.*/
if (0 >= size) {
return rc;
}
/* Find bml_btl and its global btl_id */
bml_btl = get_next_btl(src, &btl_id);
if (!bml_btl) {
SPML_ERROR("cannot reach %d pe: no appropriate btl found", oshmem_my_proc_id());
rc = OSHMEM_ERR_FATAL;
goto exit_fatal;
}
/* Check if btl has GET method. If it doesn't - use SEND*/
get_via_send = ! ( (bml_btl->btl->btl_flags & (MCA_BTL_FLAGS_GET)) &&
(bml_btl->btl->btl_flags & (MCA_BTL_FLAGS_PUT)) );
/* Get rkey of remote PE (src proc) which must be on memheap*/
r_mkey = mca_memheap_base_get_cached_mkey(src, src_addr, btl_id, &rva);
if (!r_mkey) {
SPML_ERROR("pe=%d: %p is not address of shared variable",
src, src_addr);
rc = OSHMEM_ERR_FATAL;
goto exit_fatal;
}
#if SPML_YODA_DEBUG == 1
SPML_VERBOSE(100, "get: pe:%d src=%p -> dst: %p sz=%d. src_rva=%p, %s",
src, src_addr, dst_addr, (int)size, (void *)rva, mca_spml_base_mkey2str(r_mkey));
#endif
ybtl = &mca_spml_yoda.btl_type_map[btl_id];
if (ybtl->btl->btl_register_mem) {
assert(ybtl->btl->btl_registration_handle_size == r_mkey->len);
remote_handle = (mca_btl_base_registration_handle_t *) r_mkey->u.data;
}
nfrags = 1;
/* check if we doing get into shm attached segment and if so
* just do memcpy
*/
if ((YODA_BTL_SM == ybtl->btl_type || YODA_BTL_VADER == ybtl->btl_type)
&& mca_memheap_base_can_local_copy(r_mkey, src_addr)) {
memcpy(dst_addr, (void *) rva, size);
/* must call progress here to avoid deadlock. Scenarion:
* pe1 pols pe2 via shm get. pe2 tries to get static variable from node one, which goes to sm btl
* In this case pe2 is stuck forever because pe1 never calls opal_progress.
* May be we do not need to call progress on every get() here but rather once in a while.
*/
opal_progress();
return OSHMEM_SUCCESS;
}
l_mkey = mca_memheap.memheap_get_local_mkey(dst_addr,
btl_id);
/*
* Need a copy if local memory has not been registered or
* we make GET via SEND
*/
frag_size = ncopied;
if ((NULL == l_mkey) || get_via_send) {
calc_nfrags_get (bml_btl, size, &frag_size, &nfrags, get_via_send);
}
p_src = (char*) (unsigned long) rva;
p_dst = (char*) dst_addr;
get_holder.active_count = 0;
for (i = 0; i < nfrags; i++) {
/**
* Allocating a get request from a pre-allocated
* and pre-registered free list.
*/
getreq = mca_spml_yoda_getreq_alloc(src);
assert(getreq);
getreq->p_dst = NULL;
frag = &getreq->get_frag;
getreq->parent = &get_holder;
ncopied = i < nfrags - 1 ? frag_size :(unsigned) ((char *) dst_addr + size - p_dst);
frag->allocated = 0;
/* Prepare destination descriptor*/
memcpy(&frag->rdma_segs[0].base_seg,
r_mkey->u.data,
r_mkey->len);
frag->rdma_segs[0].base_seg.seg_len = (get_via_send ? ncopied + SPML_YODA_SEND_CONTEXT_SIZE : ncopied);
if (get_via_send) {
frag->use_send = 1;
frag->allocated = 1;
/**
* Allocate a temporary buffer on the local PE.
* The local buffer will store the data read
* from the remote address.
*/
mca_spml_yoda_bml_alloc(bml_btl,
&des,
MCA_BTL_NO_ORDER,
(int)frag_size,
MCA_BTL_DES_SEND_ALWAYS_CALLBACK,
get_via_send);
if (OPAL_UNLIKELY(!des || !des->des_segments)) {
SPML_ERROR("shmem OOM error need %d bytes", ncopied);
SPML_ERROR("src=%p nfrags = %d frag_size=%d",
src_addr, nfrags, frag_size);
rc = OSHMEM_ERR_FATAL;
goto exit_fatal;
}
segment = des->des_segments;
spml_yoda_prepare_for_get((void*)segment->seg_addr.pval, ncopied, (void*)p_src, oshmem_my_proc_id(), (void*)p_dst, (void*) getreq);
des->des_cbfunc = mca_spml_yoda_get_response_completion;
des->des_cbdata = frag;
OPAL_THREAD_ADD32(&mca_spml_yoda.n_active_gets, 1);
}
else {
/*
* Register src memory if do GET via GET
*/
if (NULL == l_mkey && ybtl->btl->btl_register_mem) {
local_handle = ybtl->btl->btl_register_mem (ybtl->btl, bml_btl->btl_endpoint, p_dst, ncopied,
MCA_BTL_REG_FLAG_LOCAL_WRITE);
if (NULL == local_handle) {
SPML_ERROR("%s: failed to register destination memory %p.",
btl_type2str(ybtl->btl_type), p_dst);
}
frag->local_handle = local_handle;
} else {
local_handle = ((mca_spml_yoda_context_t*)l_mkey->spml_context)->registration;
frag->local_handle = NULL;
}
frag->rdma_segs[0].base_seg.seg_addr.lval = (uintptr_t) p_src;
getreq->p_dst = (uint64_t*) p_dst;
frag->size = ncopied;
OPAL_THREAD_ADD32(&mca_spml_yoda.n_active_gets, 1);
}
/**
* Initialize the remote data fragment
* with remote address data required for
* executing RDMA READ from a remote buffer.
*/
frag->rdma_req = getreq;
/**
* Do GET operation
*/
if (get_via_send) {
rc = mca_bml_base_send(bml_btl, des, MCA_SPML_YODA_GET);
if (1 == rc)
rc = OSHMEM_SUCCESS;
} else {
rc = mca_bml_base_get(bml_btl, p_dst, (uint64_t) (intptr_t) p_src, local_handle,
remote_handle, ncopied, 0, 0, mca_spml_yoda_get_completion, frag);
}
if (OPAL_UNLIKELY(OSHMEM_SUCCESS != rc)) {
if (OSHMEM_ERR_OUT_OF_RESOURCE == rc) {
/* No free resources, Block on completion here */
oshmem_request_wait_completion(&getreq->req_get.req_base.req_oshmem);
return OSHMEM_SUCCESS;
} else {
SPML_ERROR("oshmem_get: error %d", rc);
goto exit_fatal;
}
}
p_dst += ncopied;
p_src += ncopied;
OPAL_THREAD_ADD32(&get_holder.active_count, 1);
}
/* revisit if we really need this for self and sm */
/* if (YODA_BTL_SELF == ybtl->btl_type) */
opal_progress();
/* Wait for completion on request */
while (get_holder.active_count > 0)
oshmem_request_wait_completion(&getreq->req_get.req_base.req_oshmem);
return rc;
exit_fatal:
if (OSHMEM_SUCCESS != rc) {
oshmem_shmem_abort(rc);
}
return rc;
}
sshmem_mkey_t *mca_spml_yoda_register(void* addr,
size_t size,
uint64_t shmid,
int *count)
{
int i;
sshmem_mkey_t *mkeys;
struct yoda_btl *ybtl;
mca_spml_yoda_context_t* yoda_context;
SPML_VERBOSE(10, "address %p len %llu", addr, (unsigned long long)size);
*count = 0;
/* make sure everything is initialized to 0 */
mkeys = (sshmem_mkey_t *) calloc(1,
mca_spml_yoda.n_btls * sizeof(*mkeys));
if (!mkeys) {
return NULL ;
}
mca_bml.bml_register( MCA_SPML_YODA_PUT,
mca_yoda_put_callback,
NULL );
mca_bml.bml_register( MCA_SPML_YODA_GET,
mca_yoda_get_callback,
NULL );
mca_bml.bml_register( MCA_SPML_YODA_GET_RESPONSE,
mca_yoda_get_response_callback,
NULL );
/* Register proc memory in every rdma BTL. */
for (i = 0; i < mca_spml_yoda.n_btls; i++) {
ybtl = &mca_spml_yoda.btl_type_map[i];
mkeys[i].va_base = addr;
mkeys[i].u.key = MAP_SEGMENT_SHM_INVALID;
if (!ybtl->use_cnt) {
SPML_VERBOSE(10,
"%s: present but not in use. SKIP registration",
btl_type2str(ybtl->btl_type));
continue;
}
/* If we have shared memory just save its id */
if ((YODA_BTL_SM == ybtl->btl_type || YODA_BTL_VADER == ybtl->btl_type)
&& MAP_SEGMENT_SHM_INVALID != (int)shmid) {
mkeys[i].u.key = shmid;
mkeys[i].va_base = 0;
continue;
}
yoda_context = calloc(1, sizeof(*yoda_context));
mkeys[i].spml_context = yoda_context;
yoda_context->registration = NULL;
if (ybtl->btl->btl_flags & MCA_BTL_FLAGS_RDMA) {
if (NULL != ybtl->btl->btl_register_mem) {
yoda_context->registration = ybtl->btl->btl_register_mem (ybtl->btl, MCA_BTL_ENDPOINT_ANY,
addr, size, MCA_BTL_REG_FLAG_ACCESS_ANY);
if (NULL == yoda_context->registration) {
SPML_ERROR("%s: failed to register source memory: addr: %p, size: %u",
btl_type2str(ybtl->btl_type), addr, size);
/* FIXME some cleanup might be needed here
* yoda_context->btl_src_descriptor = NULL;
* *count = ???;
* free(spml_context);
*/
free(mkeys);
return NULL;
}
}
yoda_context->btl_src_descriptor = NULL;
mkeys[i].u.data = yoda_context->registration;
mkeys[i].len = yoda_context->registration ? ybtl->btl->btl_registration_handle_size : 0;
}
SPML_VERBOSE(5,
"rank %d btl %s va_base: 0x%p len: %d key %llx size %llu",
oshmem_proc_pe(oshmem_proc_local()), btl_type2str(ybtl->btl_type),
mkeys[i].va_base, mkeys[i].len, (unsigned long long)mkeys[i].u.key, (unsigned long long)size);
}
*count = mca_spml_yoda.n_btls;
return mkeys;
}
mca_spml_mkey_t *mca_spml_yoda_register(void* addr,
size_t size,
uint64_t shmid,
int *count)
{
int i;
mca_btl_base_descriptor_t* des = NULL;
const opal_datatype_t *datatype = &opal_datatype_wchar;
opal_convertor_t convertor;
mca_spml_mkey_t *mkeys;
struct yoda_btl *ybtl;
oshmem_proc_t *proc_self;
mca_spml_yoda_context_t* yoda_context;
struct iovec iov;
uint32_t iov_count = 1;
SPML_VERBOSE(10, "address %p len %llu", addr, (unsigned long long)size);
*count = 0;
/* make sure everything is initialized to 0 */
mkeys = (mca_spml_mkey_t *) calloc(1,
mca_spml_yoda.n_btls * sizeof(*mkeys));
if (!mkeys) {
return NULL ;
}
proc_self = oshmem_proc_group_find(oshmem_group_all, oshmem_my_proc_id());
/* create convertor */
OBJ_CONSTRUCT(&convertor, opal_convertor_t);
mca_bml.bml_register( MCA_SPML_YODA_PUT,
mca_yoda_put_callback,
NULL );
mca_bml.bml_register( MCA_SPML_YODA_GET,
mca_yoda_get_callback,
NULL );
mca_bml.bml_register( MCA_SPML_YODA_GET_RESPONSE,
mca_yoda_get_response_callback,
NULL );
/* Register proc memory in every rdma BTL. */
for (i = 0; i < mca_spml_yoda.n_btls; i++) {
ybtl = &mca_spml_yoda.btl_type_map[i];
mkeys[i].va_base = addr;
if (!ybtl->use_cnt) {
SPML_VERBOSE(10,
"%s: present but not in use. SKIP registration",
btl_type2str(ybtl->btl_type));
continue;
}
/* If we have shared memory just save its id*/
if (YODA_BTL_SM == ybtl->btl_type
&& MEMHEAP_SHM_INVALID != (int) MEMHEAP_SHM_GET_ID(shmid)) {
mkeys[i].u.key = shmid;
mkeys[i].va_base = 0;
continue;
}
yoda_context = calloc(1, sizeof(*yoda_context));
mkeys[i].spml_context = yoda_context;
yoda_context->registration = NULL;
if (NULL != ybtl->btl->btl_prepare_src) {
/* initialize convertor for source descriptor*/
opal_convertor_copy_and_prepare_for_recv(proc_self->proc_convertor,
datatype,
size,
addr,
0,
&convertor);
if (NULL != ybtl->btl->btl_mpool && NULL != ybtl->btl->btl_mpool->mpool_register) {
iov.iov_len = size;
iov.iov_base = NULL;
opal_convertor_pack(&convertor, &iov, &iov_count, &size);
ybtl->btl->btl_mpool->mpool_register(ybtl->btl->btl_mpool,
iov.iov_base, size, 0, &yoda_context->registration);
}
/* initialize convertor for source descriptor*/
opal_convertor_copy_and_prepare_for_recv(proc_self->proc_convertor,
datatype,
size,
addr,
0,
&convertor);
/* register source memory */
des = ybtl->btl->btl_prepare_src(ybtl->btl,
0,
yoda_context->registration,
&convertor,
MCA_BTL_NO_ORDER,
0,
&size,
0);
if (NULL == des) {
SPML_ERROR("%s: failed to register source memory. ",
btl_type2str(ybtl->btl_type));
}
yoda_context->btl_src_descriptor = des;
mkeys[i].u.data = des->des_src;
mkeys[i].len = ybtl->btl->btl_seg_size;
}
SPML_VERBOSE(5,
"rank %d btl %s address 0x%p len %llu shmid 0x%X|0x%X",
oshmem_proc_local_proc->proc_name.vpid, btl_type2str(ybtl->btl_type),
mkeys[i].va_base, (unsigned long long)size, MEMHEAP_SHM_GET_TYPE(shmid), MEMHEAP_SHM_GET_ID(shmid));
}
OBJ_DESTRUCT(&convertor);
*count = mca_spml_yoda.n_btls;
return mkeys;
}
