Ejemplos de object_cache_handle_request en C++ (Cpp)

Lenguaje de programación: C++ (Cpp)

Método / Función: object_cache_handle_request

Ejemplos en hotexamples.com: 4

C++ (Cpp) object_cache_handle_request - 4 ejemplos encontrados. Estos son los ejemplos en C++ (Cpp) del mundo real mejor valorados de object_cache_handle_request extraídos de proyectos de código abierto. Puedes valorar ejemplos para ayudarnos a mejorar la calidad de los ejemplos.

Ejemplo n.º 1

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Archivo: gateway.c Proyecto: shenyibin/sheepdog

int gateway_create_and_write_obj(struct request *req)
{
	if (is_object_cache_enabled() && !req->local && !bypass_object_cache(req))
		return object_cache_handle_request(req);

	return gateway_forward_request(req, false);
}

Ejemplo n.º 2

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Archivo: gateway.c Proyecto: shenyibin/sheepdog

/*
 * Try our best to read one copy and read local first.
 *
 * Return success if any read succeed. We don't call gateway_forward_request()
 * because we only read once.
 */
int gateway_read_obj(struct request *req)
{
	int i, ret = SD_RES_SUCCESS;
	unsigned wlen, rlen;
	struct sd_req fwd_hdr;
	struct sd_rsp *rsp = (struct sd_rsp *)&fwd_hdr;
	struct sd_vnode *v;
	struct sd_vnode *obj_vnodes[SD_MAX_COPIES];
	uint64_t oid = req->rq.obj.oid;
	int nr_copies, j;

	if (is_object_cache_enabled() && !req->local && !bypass_object_cache(req))
		return object_cache_handle_request(req);

	nr_copies = get_req_copy_number(req);
	oid_to_vnodes(req->vinfo->vnodes, req->vinfo->nr_vnodes, oid,
		      nr_copies, obj_vnodes);
	for (i = 0; i < nr_copies; i++) {
		v = obj_vnodes[i];
		if (!vnode_is_local(v))
			continue;
		ret = peer_read_obj(req);
		if (ret == SD_RES_SUCCESS)
			return ret;

		eprintf("local read fail %x\n", ret);
		break;
	}

	/*
	 * Read random copy from cluster for better load balance, useful for
	 * reading base VM's COW objects
	 */
	j = random();
	for (i = 0; i < nr_copies; i++) {
		int idx = (i + j) % nr_copies;

		v = obj_vnodes[idx];
		if (vnode_is_local(v))
			continue;
		/*
		 * We need to re-init it because rsp and req share the same
		 * structure.
		 */
		gateway_init_fwd_hdr(&fwd_hdr, &req->rq);
		wlen = 0;
		rlen = fwd_hdr.data_length;
		ret = sheep_exec_req(&v->nid, &fwd_hdr, req->data, &wlen,
				     &rlen);
		if (ret != SD_RES_SUCCESS)
			continue;

		/* Read success */
		memcpy(&req->rp, rsp, sizeof(*rsp));
		break;
	}
	return ret;
}

Ejemplo n.º 3

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Archivo: gateway.c Proyecto: SongWuCloud/ACStor

int gateway_create_and_write_obj(struct request *req)
{
	uint64_t oid = req->rq.obj.oid;

	if (oid_is_readonly(oid))
		return SD_RES_READONLY;

	if (!bypass_object_cache(req))
		return object_cache_handle_request(req);

	return gateway_forward_request(req);
}

Ejemplo n.º 4

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Archivo: gateway.c Proyecto: SongWuCloud/ACStor

/*
 * Try our best to read one copy and read local first.
 *
 * Return success if any read succeed. We don't call gateway_forward_request()
 * because we only read once.
 */
int gateway_read_obj(struct request *req)
{
	int i, ret = SD_RES_SUCCESS;
	struct sd_req fwd_hdr;
	struct sd_rsp *rsp = (struct sd_rsp *)&fwd_hdr;
	const struct sd_vnode *v;
	const struct sd_vnode *my_v;
	const struct sd_vnode *obj_vnodes[SD_MAX_COPIES];
	const struct sd_vnode *my_obj_vnodes[SD_MAX_COPIES];
	uint64_t oid = req->rq.obj.oid;
	int nr_copies, j;
	
	//PRINT_TO_LOG("WYH\n");
	if (sys->enable_object_cache && !req->local &&
	    !bypass_object_cache(req)) {
		ret = object_cache_handle_request(req);
		goto out;
	}

	nr_copies = get_req_copy_number(req);

	if (nr_copies == 0) {
		sd_debug("there is no living nodes");
		return SD_RES_HALT;
	}

	oid_to_vnodes(req->vinfo->vnodes, req->vinfo->nr_vnodes, oid,
		      nr_copies, obj_vnodes);
	//PRINT_TO_LOG("out:%s\n", addr_to_str(obj_vnodes[0]->nid.addr,obj_vnodes[0]->nid.port));
	
	oid_to_vnodes(req->vinfo->my_vnodes, req->vinfo->my_nr_vnodes, oid, nr_copies, my_obj_vnodes);
	my_v = my_obj_vnodes[0];
	//PRINT_TO_LOG("out:%s\n", addr_to_str(my_v->nid.addr,my_v->nid.port));
		
	for (i = 0; i < nr_copies; i++) {
		v = obj_vnodes[0];
		my_v = my_obj_vnodes[0];
		
		//PRINT_TO_LOG("phy:%s\n", addr_to_str(v->nid.addr,v->nid.port));
		//PRINT_TO_LOG("vir:%s\n", addr_to_str(my_v->nid.addr, my_v->nid.port));
		
		//PRINT_TO_LOG("%d,%d\n", req->vinfo->nr_vnodes, req->vinfo->my_nr_vnodes);

		if (!vnode_is_local(v))
			continue;
		ret = peer_read_obj(req);
		if (ret == SD_RES_SUCCESS)
			goto out;

		sd_err("local read %"PRIx64" failed, %s", oid,
		       sd_strerror(ret));
		break;
	}

	/*
	 * Read random copy from cluster for better load balance, useful for
	 * reading base VM's COW objects
	 */
	j = random();
	for (i = 0; i < nr_copies; i++) {
		int idx = (i + j) % nr_copies;

		v = obj_vnodes[idx];
		if (vnode_is_local(v))
			continue;
		/*
		 * We need to re-init it because rsp and req share the same
		 * structure.
		 */
		gateway_init_fwd_hdr(&fwd_hdr, &req->rq);
		ret = sheep_exec_req(&v->nid, &fwd_hdr, req->data);
		if (ret != SD_RES_SUCCESS)
			continue;

		/* Read success */
		memcpy(&req->rp, rsp, sizeof(*rsp));
		break;
	}
out:
	if (ret == SD_RES_SUCCESS &&
	    req->rq.proto_ver < SD_PROTO_VER_TRIM_ZERO_SECTORS) {
		/* the client doesn't support trimming zero bytes */
		untrim_zero_blocks(req->data, req->rp.obj.offset,
				   req->rp.data_length, req->rq.data_length);
		req->rp.data_length = req->rq.data_length;
		req->rp.obj.offset = 0;
	}
	return ret;
}