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1 /* Copyright 2017 The TensorFlow Authors. All Rights Reserved.
2 
3 Licensed under the Apache License, Version 2.0 (the "License");
4 you may not use this file except in compliance with the License.
5 You may obtain a copy of the License at
6 
7     http://www.apache.org/licenses/LICENSE-2.0
8 
9 Unless required by applicable law or agreed to in writing, software
10 distributed under the License is distributed on an "AS IS" BASIS,
11 WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12 See the License for the specific language governing permissions and
13 limitations under the License.
14 ==============================================================================*/
15 #include "tensorflow/core/common_runtime/rendezvous_util.h"
16 #include "tensorflow/core/platform/mutex.h"
17 
18 #include "tensorflow/core/util/reffed_status_callback.h"
19 
20 namespace tensorflow {
21 
SendTensorsToRendezvous(RendezvousInterface * rendezvous,DeviceContext * device_context,const std::vector<AllocatorAttributes> & alloc_attrs,const std::vector<string> & keys,gtl::ArraySlice<Tensor> tensors_to_send)22 Status SendTensorsToRendezvous(
23     RendezvousInterface* rendezvous, DeviceContext* device_context,
24     const std::vector<AllocatorAttributes>& alloc_attrs,
25     const std::vector<string>& keys, gtl::ArraySlice<Tensor> tensors_to_send) {
26   if (keys.size() != tensors_to_send.size()) {
27     return errors::InvalidArgument(
28         "keys and tensors_to_send are not the same size. keys.size() = ",
29         keys.size(), "; tensors_to_send.size() = ", tensors_to_send.size());
30   }
31   if (!alloc_attrs.empty() && (keys.size() != alloc_attrs.size())) {
32     return errors::InvalidArgument(
33         "keys and alloc_attrs are not the same size. ",
34         "keys.size() = ", keys.size(),
35         "; alloc_attrs.size() = ", alloc_attrs.size());
36   }
37 
38   if (!rendezvous) {
39     return errors::InvalidArgument("Rendezvous is null.");
40   }
41 
42   Rendezvous::ParsedKey parsed;
43   for (int i = 0; i < keys.size(); ++i) {
44     Rendezvous::Args rendez_args;
45     rendez_args.device_context = device_context;
46     if (!alloc_attrs.empty()) {
47       rendez_args.alloc_attrs = alloc_attrs[i];
48     }
49     TF_RETURN_IF_ERROR(Rendezvous::ParseKey(keys[i], &parsed));
50     TF_RETURN_IF_ERROR(
51         rendezvous->Send(parsed, rendez_args, tensors_to_send[i], false));
52   }
53   return Status::OK();
54 }
55 
RecvOutputsFromRendezvousAsync(RendezvousInterface * rendezvous,DeviceContext * device_context,const std::vector<AllocatorAttributes> & alloc_attrs,const std::vector<string> & keys,std::vector<Tensor> * received_tensors,StatusCallback done)56 void RecvOutputsFromRendezvousAsync(
57     RendezvousInterface* rendezvous, DeviceContext* device_context,
58     const std::vector<AllocatorAttributes>& alloc_attrs,
59     const std::vector<string>& keys, std::vector<Tensor>* received_tensors,
60     StatusCallback done) {
61   if (keys.empty()) {
62     done(Status::OK());
63     return;
64   }
65   if (!alloc_attrs.empty() && (keys.size() != alloc_attrs.size())) {
66     done(errors::InvalidArgument(
67         "keys and alloc_attrs are not the same size. ", "keys.size() = ",
68         keys.size(), "; alloc_attrs.size() = ", alloc_attrs.size()));
69   }
70 
71   received_tensors->reserve(keys.size());
72   std::vector<
73       std::tuple<string, Tensor*, Rendezvous::ParsedKey, AllocatorAttributes>>
74       arguments;
75   for (int i = 0; i < keys.size(); ++i) {
76     Rendezvous::ParsedKey parsed;
77     Status s = Rendezvous::ParseKey(keys[i], &parsed);
78     received_tensors->push_back(Tensor());
79     if (!s.ok()) {
80       done(s);
81       return;
82     }
83     AllocatorAttributes alloc_attr;
84     if (!alloc_attrs.empty()) {
85       alloc_attr = alloc_attrs[i];
86     }
87     arguments.emplace_back(keys[i], &((*received_tensors)[i]), parsed,
88                            alloc_attr);
89   }
90 
91   auto status_cb = new ReffedStatusCallback(std::move(done));
92   for (auto& p : arguments) {
93     const string& key = std::get<0>(p);
94     Tensor* val = std::get<1>(p);
95     Rendezvous::ParsedKey parsed = std::get<2>(p);
96     Rendezvous::Args rendez_args;
97     rendez_args.device_context = device_context;
98     rendez_args.alloc_attrs = std::get<3>(p);
99     status_cb->Ref();
100     rendezvous->RecvAsync(
101         parsed, rendez_args,
102         [val, key, status_cb](const Status& s,
103                               const Rendezvous::Args& send_args,
104                               const Rendezvous::Args& recv_args,
105                               const Tensor& v, const bool is_dead) {
106           Status status = s;
107           if (status.ok()) {
108             *val = v;
109             if (is_dead) {
110               status = errors::InvalidArgument("The tensor returned for ", key,
111                                                " was not valid.");
112             }
113           }
114           status_cb->UpdateStatus(status);
115           status_cb->Unref();
116         });
117   }
118   status_cb->Unref();
119 }
120 
RecvOutputsFromRendezvous(RendezvousInterface * rendezvous,NamedTensors * out,const Rendezvous::Args & args)121 Status RecvOutputsFromRendezvous(RendezvousInterface* rendezvous,
122                                  NamedTensors* out,
123                                  const Rendezvous::Args& args) {
124   // Receives values requested by the caller.
125   Rendezvous::ParsedKey parsed;
126   for (auto& p : *out) {
127     const string& key = p.first;
128     Tensor* val = &p.second;
129     bool is_dead = false;
130     TF_RETURN_IF_ERROR(Rendezvous::ParseKey(key, &parsed));
131     TF_RETURN_IF_ERROR(rendezvous->Recv(parsed, args, val, &is_dead));
132     if (is_dead) {
133       return errors::InvalidArgument("The tensor returned for ", key,
134                                      " was not valid.");
135     }
136   }
137   return Status::OK();
138 }
139 
140 }  // namespace tensorflow
141