1 files changed, 860 insertions, 0 deletions

diff --git a/src/erasure-code/lrc/ErasureCodeLrc.cc b/src/erasure-code/lrc/ErasureCodeLrc.cc
new file mode 100644
index 000000000..b44eec469
--- /dev/null
+++ b/src/erasure-code/lrc/ErasureCodeLrc.cc
@@ -0,0 +1,860 @@
+// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
+// vim: ts=8 sw=2 smarttab
+/*
+ * Ceph - scalable distributed file system
+ *
+ * Copyright (C) 2014 Cloudwatt <libre.licensing@cloudwatt.com>
+ * Copyright (C) 2014 Red Hat <contact@redhat.com>
+ *
+ * Author: Loic Dachary <loic@dachary.org>
+ *
+ *  This library is free software; you can redistribute it and/or
+ *  modify it under the terms of the GNU Lesser General Public
+ *  License as published by the Free Software Foundation; either
+ *  version 2.1 of the License, or (at your option) any later version.
+ *
+ */
+
+#include <cerrno>
+#include <algorithm>
+
+#include "include/str_map.h"
+#include "common/debug.h"
+#include "crush/CrushWrapper.h"
+#include "osd/osd_types.h"
+#include "include/stringify.h"
+#include "erasure-code/ErasureCodePlugin.h"
+#include "json_spirit/json_spirit_writer.h"
+
+#include "ErasureCodeLrc.h"
+
+#define dout_context g_ceph_context
+#define dout_subsys ceph_subsys_osd
+#undef dout_prefix
+#define dout_prefix _prefix(_dout)
+
+using namespace std;
+using namespace ceph;
+
+static ostream& _prefix(std::ostream* _dout)
+{
+  return *_dout << "ErasureCodeLrc: ";
+}
+
+int ErasureCodeLrc::create_rule(const string &name,
+				   CrushWrapper &crush,
+				   ostream *ss) const
+{
+  if (crush.rule_exists(name)) {
+    *ss << "rule " << name << " exists";
+    return -EEXIST;
+  }
+  if (!crush.name_exists(rule_root)) {
+    *ss << "root item " << rule_root << " does not exist";
+    return -ENOENT;
+  }
+  int root = crush.get_item_id(rule_root);
+  if (rule_device_class.size()) {
+    if (!crush.class_exists(rule_device_class)) {
+      *ss << "device class " << rule_device_class << " does not exist";
+      return -ENOENT;
+    }
+    int c = crush.get_class_id(rule_device_class);
+    if (crush.class_bucket.count(root) == 0 ||
+	crush.class_bucket[root].count(c) == 0) {
+      *ss << "root item " << rule_root << " has no devices with class "
+	  << rule_device_class;
+      return -EINVAL;
+    }
+    root = crush.class_bucket[root][c];
+  }
+
+  int rno = 0;
+  for (rno = 0; rno < crush.get_max_rules(); rno++) {
+    if (!crush.rule_exists(rno) && !crush.ruleset_exists(rno))
+       break;
+  }
+
+  int steps = 4 + rule_steps.size();
+  int min_rep = 3;
+  int max_rep = get_chunk_count();
+  int ret;
+  ret = crush.add_rule(rno, steps, pg_pool_t::TYPE_ERASURE,
+		       min_rep, max_rep);
+  ceph_assert(ret == rno);
+  int step = 0;
+
+  ret = crush.set_rule_step(rno, step++, CRUSH_RULE_SET_CHOOSELEAF_TRIES, 5, 0);
+  ceph_assert(ret == 0);
+  ret = crush.set_rule_step(rno, step++, CRUSH_RULE_SET_CHOOSE_TRIES, 100, 0);
+  ceph_assert(ret == 0);
+  ret = crush.set_rule_step(rno, step++, CRUSH_RULE_TAKE, root, 0);
+  ceph_assert(ret == 0);
+  // [ [ "choose", "rack", 2 ],
+  //   [ "chooseleaf", "host", 5 ] ]
+  for (vector<Step>::const_iterator i = rule_steps.begin();
+       i != rule_steps.end();
+       ++i) {
+    int op = i->op == "chooseleaf" ?
+      CRUSH_RULE_CHOOSELEAF_INDEP : CRUSH_RULE_CHOOSE_INDEP;
+    int type = crush.get_type_id(i->type);
+    if (type < 0) {
+      *ss << "unknown crush type " << i->type;
+      return -EINVAL;
+    }
+    ret = crush.set_rule_step(rno, step++, op, i->n, type);
+    ceph_assert(ret == 0);
+  }
+  ret = crush.set_rule_step(rno, step++, CRUSH_RULE_EMIT, 0, 0);
+  ceph_assert(ret == 0);
+  crush.set_rule_name(rno, name);
+  return rno;
+}
+
+int ErasureCodeLrc::layers_description(const ErasureCodeProfile &profile,
+				       json_spirit::mArray *description,
+				       ostream *ss) const
+{
+  if (profile.count("layers") == 0) {
+    *ss << "could not find 'layers' in " << profile << std::endl;
+    return ERROR_LRC_DESCRIPTION;
+  }
+  string str = profile.find("layers")->second;
+  try {
+    json_spirit::mValue json;
+    json_spirit::read_or_throw(str, json);
+
+    if (json.type() != json_spirit::array_type) {
+      *ss << "layers='" << str
+	  << "' must be a JSON array but is of type "
+	  << json.type() << " instead" << std::endl;
+      return ERROR_LRC_ARRAY;
+    }
+    *description = json.get_array();
+  } catch (json_spirit::Error_position &e) {
+    *ss << "failed to parse layers='" << str << "'"
+	<< " at line " << e.line_ << ", column " << e.column_
+	<< " : " << e.reason_ << std::endl;
+    return ERROR_LRC_PARSE_JSON;
+  }
+  return 0;
+}
+
+int ErasureCodeLrc::layers_parse(const string &description_string,
+				 json_spirit::mArray description,
+				 ostream *ss)
+{
+  int position = 0;
+  for (vector<json_spirit::mValue>::iterator i = description.begin();
+       i != description.end();
+       ++i, position++) {
+    if (i->type() != json_spirit::array_type) {
+      stringstream json_string;
+      json_spirit::write(*i, json_string);
+      *ss << "each element of the array "
+	  << description_string << " must be a JSON array but "
+	  << json_string.str() << " at position " << position
+	  << " is of type " << i->type() << " instead" << std::endl;
+      return ERROR_LRC_ARRAY;
+    }
+    json_spirit::mArray layer_json = i->get_array();
+    ErasureCodeProfile profile;
+    int index = 0;
+    for (vector<json_spirit::mValue>::iterator j = layer_json.begin();
+	 j != layer_json.end();
+	 ++j, ++index) {
+      if (index == 0) {
+	if (j->type() != json_spirit::str_type) {
+	  stringstream element;
+	  json_spirit::write(*j, element);
+	  *ss << "the first element of the entry "
+	      << element.str() << " (first is zero) "
+	      << position << " in " << description_string
+	      << " is of type " << (*j).type() << " instead of string" << std::endl;
+	  return ERROR_LRC_STR;
+	}
+	layers.push_back(Layer(j->get_str()));
+	Layer &layer = layers.back();
+	layer.chunks_map = j->get_str();
+      } else if(index == 1) {
+	Layer &layer = layers.back();
+	if (j->type() != json_spirit::str_type &&
+	    j->type() != json_spirit::obj_type) {
+	  stringstream element;
+	  json_spirit::write(*j, element);
+	  *ss << "the second element of the entry "
+	      << element.str() << " (first is zero) "
+	      << position << " in " << description_string
+	      << " is of type " << (*j).type() << " instead of string or object"
+	      << std::endl;
+	  return ERROR_LRC_CONFIG_OPTIONS;
+	}
+	if (j->type() == json_spirit::str_type) {
+	  int err = get_json_str_map(j->get_str(), *ss, &layer.profile);
+	  if (err)
+	    return err;
+	} else if (j->type() == json_spirit::obj_type) {
+	  json_spirit::mObject o = j->get_obj();
+
+	  for (map<string, json_spirit::mValue>::iterator i = o.begin();
+	       i != o.end();
+	       ++i) {
+	    layer.profile[i->first] = i->second.get_str();
+	  }
+	}
+      } else {
+	  // ignore trailing elements
+      }
+    }
+  }
+  return 0;
+}
+
+int ErasureCodeLrc::layers_init(ostream *ss)
+{
+  ErasureCodePluginRegistry &registry = ErasureCodePluginRegistry::instance();
+  for (unsigned int i = 0; i < layers.size(); i++) {
+    Layer &layer = layers[i];
+    int position = 0;
+    for(std::string::iterator it = layer.chunks_map.begin();
+	it != layer.chunks_map.end();
+	++it) {
+      if (*it == 'D')
+	layer.data.push_back(position);
+      if (*it == 'c')
+	layer.coding.push_back(position);
+      if (*it == 'c' || *it == 'D')
+	layer.chunks_as_set.insert(position);
+      position++;
+    }
+    layer.chunks = layer.data;
+    layer.chunks.insert(layer.chunks.end(),
+			layer.coding.begin(), layer.coding.end());
+    if (layer.profile.find("k") == layer.profile.end())
+      layer.profile["k"] = stringify(layer.data.size());
+    if (layer.profile.find("m") == layer.profile.end())
+      layer.profile["m"] = stringify(layer.coding.size());
+    if (layer.profile.find("plugin") == layer.profile.end())
+      layer.profile["plugin"] = "jerasure";
+    if (layer.profile.find("technique") == layer.profile.end())
+      layer.profile["technique"] = "reed_sol_van";
+    int err = registry.factory(layer.profile["plugin"],
+			       directory,
+			       layer.profile,
+			       &layer.erasure_code,
+			       ss);
+    if (err)
+      return err;
+  }
+  return 0;
+}
+
+int ErasureCodeLrc::layers_sanity_checks(const string &description_string,
+					 ostream *ss) const
+{
+  int position = 0;
+
+  if (layers.size() < 1) {
+    *ss << "layers parameter has " << layers.size()
+	<< " which is less than the minimum of one. "
+	<< description_string << std::endl;
+    return ERROR_LRC_LAYERS_COUNT;
+  }
+  for (vector<Layer>::const_iterator layer = layers.begin();
+       layer != layers.end();
+       ++layer) {
+    if (chunk_count != layer->chunks_map.length()) {
+      *ss << "the first element of the array at position "
+	  << position << " (starting from zero) "
+	  << " is the string '" << layer->chunks_map
+	  << " found in the layers parameter "
+	  << description_string << ". It is expected to be "
+	  << chunk_count << " characters long but is "
+	  << layer->chunks_map.length() << " characters long instead "
+	  << std::endl;
+      return ERROR_LRC_MAPPING_SIZE;
+    }
+  }
+  return 0;
+}
+
+int ErasureCodeLrc::parse(ErasureCodeProfile &profile,
+			  ostream *ss)
+{
+  int r = ErasureCode::parse(profile, ss);
+  if (r)
+    return r;
+
+  return parse_rule(profile, ss);
+}
+
+const string ErasureCodeLrc::DEFAULT_KML("-1");
+
+int ErasureCodeLrc::parse_kml(ErasureCodeProfile &profile,
+			      ostream *ss)
+{
+  int err = ErasureCode::parse(profile, ss);
+  const int DEFAULT_INT = -1;
+  int k, m, l;
+  err |= to_int("k", profile, &k, DEFAULT_KML, ss);
+  err |= to_int("m", profile, &m, DEFAULT_KML, ss);
+  err |= to_int("l", profile, &l, DEFAULT_KML, ss);
+
+  if (k == DEFAULT_INT && m == DEFAULT_INT && l == DEFAULT_INT)
+    return err;
+
+  if ((k != DEFAULT_INT || m != DEFAULT_INT || l != DEFAULT_INT) &&
+      (k == DEFAULT_INT || m == DEFAULT_INT || l == DEFAULT_INT)) {
+    *ss << "All of k, m, l must be set or none of them in "
+	<< profile << std::endl;
+    return ERROR_LRC_ALL_OR_NOTHING;
+  }
+
+  const char *generated[] = { "mapping",
+			      "layers",
+			      "crush-steps" };
+
+  for (int i = 0; i < 3; i++) {
+    if (profile.count(generated[i])) {
+      *ss << "The " << generated[i] << " parameter cannot be set "
+	  << "when k, m, l are set in " << profile << std::endl;
+      return ERROR_LRC_GENERATED;
+    }
+  }
+
+  if (l == 0 || (k + m) % l) {
+    *ss << "k + m must be a multiple of l in "
+	<< profile << std::endl;
+    return ERROR_LRC_K_M_MODULO;
+  }
+
+  int local_group_count = (k + m) / l;
+
+  if (k % local_group_count) {
+    *ss << "k must be a multiple of (k + m) / l in "
+	<< profile << std::endl;
+    return ERROR_LRC_K_MODULO;
+  }
+
+  if (m % local_group_count) {
+    *ss << "m must be a multiple of (k + m) / l in "
+	<< profile << std::endl;
+    return ERROR_LRC_M_MODULO;
+  }
+
+  string mapping;
+  for (int i = 0; i < local_group_count; i++) {
+    mapping += string(k / local_group_count, 'D') +
+      string(m / local_group_count, '_') + "_";
+  }
+  profile["mapping"] = mapping;
+
+  string layers = "[ ";
+
+  // global layer
+  layers += " [ \"";
+  for (int i = 0; i < local_group_count; i++) {
+    layers += string(k / local_group_count, 'D') +
+      string(m / local_group_count, 'c') + "_";
+  }
+  layers += "\", \"\" ],";
+
+  // local layers
+  for (int i = 0; i < local_group_count; i++) {
+    layers += " [ \"";
+    for (int j = 0; j < local_group_count; j++) {
+      if (i == j)
+	layers += string(l, 'D') + "c";
+      else
+	layers += string(l + 1, '_');
+    }
+    layers += "\", \"\" ],";
+  }
+  profile["layers"] = layers + "]";
+
+  ErasureCodeProfile::const_iterator parameter;
+  string rule_locality;
+  parameter = profile.find("crush-locality");
+  if (parameter != profile.end())
+    rule_locality = parameter->second;
+  string rule_failure_domain = "host";
+  parameter = profile.find("crush-failure-domain");
+  if (parameter != profile.end())
+    rule_failure_domain = parameter->second;
+
+  if (rule_locality != "") {
+    rule_steps.clear();
+    rule_steps.push_back(Step("choose", rule_locality,
+				 local_group_count));
+    rule_steps.push_back(Step("chooseleaf", rule_failure_domain,
+				 l + 1));
+  } else if (rule_failure_domain != "") {
+    rule_steps.clear();
+    rule_steps.push_back(Step("chooseleaf", rule_failure_domain, 0));
+  }
+
+  return err;
+}
+
+int ErasureCodeLrc::parse_rule(ErasureCodeProfile &profile,
+				  ostream *ss)
+{
+  int err = 0;
+  err |= to_string("crush-root", profile,
+		   &rule_root,
+		   "default", ss);
+  err |= to_string("crush-device-class", profile,
+		   &rule_device_class,
+		   "", ss);
+
+  if (profile.count("crush-steps") != 0) {
+    rule_steps.clear();
+    string str = profile.find("crush-steps")->second;
+    json_spirit::mArray description;
+    try {
+      json_spirit::mValue json;
+      json_spirit::read_or_throw(str, json);
+
+      if (json.type() != json_spirit::array_type) {
+	*ss << "crush-steps='" << str
+	    << "' must be a JSON array but is of type "
+	    << json.type() << " instead" << std::endl;
+	return ERROR_LRC_ARRAY;
+      }
+      description = json.get_array();
+    } catch (json_spirit::Error_position &e) {
+      *ss << "failed to parse crush-steps='" << str << "'"
+	  << " at line " << e.line_ << ", column " << e.column_
+	  << " : " << e.reason_ << std::endl;
+      return ERROR_LRC_PARSE_JSON;
+    }
+
+    int position = 0;
+    for (vector<json_spirit::mValue>::iterator i = description.begin();
+	 i != description.end();
+	 ++i, position++) {
+      if (i->type() != json_spirit::array_type) {
+	stringstream json_string;
+	json_spirit::write(*i, json_string);
+	*ss << "element of the array "
+	    << str << " must be a JSON array but "
+	    << json_string.str() << " at position " << position
+	    << " is of type " << i->type() << " instead" << std::endl;
+	return ERROR_LRC_ARRAY;
+      }
+      int r = parse_rule_step(str, i->get_array(), ss);
+      if (r)
+	return r;
+    }
+  }
+  return 0;
+}
+
+int ErasureCodeLrc::parse_rule_step(const string &description_string,
+				       json_spirit::mArray description,
+				       ostream *ss)
+{
+  stringstream json_string;
+  json_spirit::write(description, json_string);
+  string op;
+  string type;
+  int n = 0;
+  int position = 0;
+  for (vector<json_spirit::mValue>::iterator i = description.begin();
+       i != description.end();
+       ++i, position++) {
+    if ((position == 0 || position == 1) &&
+	i->type() != json_spirit::str_type) {
+      *ss << "element " << position << " of the array "
+	  << json_string.str() << " found in " << description_string
+	  << " must be a JSON string but is of type "
+	  << i->type() << " instead" << std::endl;
+      return position == 0 ? ERROR_LRC_RULE_OP : ERROR_LRC_RULE_TYPE;
+    }
+    if (position == 2 && i->type() != json_spirit::int_type) {
+      *ss << "element " << position << " of the array "
+	  << json_string.str() << " found in " << description_string
+	  << " must be a JSON int but is of type "
+	  << i->type() << " instead" << std::endl;
+      return ERROR_LRC_RULE_N;
+    }
+
+    if (position == 0)
+      op = i->get_str();
+    if (position == 1)
+      type = i->get_str();
+    if (position == 2)
+      n = i->get_int();
+  }
+  rule_steps.push_back(Step(op, type, n));
+  return 0;
+}
+
+int ErasureCodeLrc::init(ErasureCodeProfile &profile,
+			 ostream *ss)
+{
+  int r;
+
+  r = parse_kml(profile, ss);
+  if (r)
+    return r;
+
+  r = parse(profile, ss);
+  if (r)
+    return r;
+
+  json_spirit::mArray description;
+  r = layers_description(profile, &description, ss);
+  if (r)
+    return r;
+
+  string description_string = profile.find("layers")->second;
+
+  dout(10) << "init(" << description_string << ")" << dendl;
+
+  r = layers_parse(description_string, description, ss);
+  if (r)
+    return r;
+
+  r = layers_init(ss);
+  if (r)
+    return r;
+
+  if (profile.count("mapping") == 0) {
+    *ss << "the 'mapping' profile is missing from " << profile;
+    return ERROR_LRC_MAPPING;
+  }
+  string mapping = profile.find("mapping")->second;
+  data_chunk_count = count(begin(mapping), end(mapping), 'D');
+  chunk_count = mapping.length();
+
+  r = layers_sanity_checks(description_string, ss);
+  if (r)
+    return r;
+
+  //
+  // When initialized with kml, the profile parameters
+  // that were generated should not be stored because
+  // they would otherwise be exposed to the caller.
+  //
+  if (profile.find("l") != profile.end() &&
+      profile.find("l")->second != DEFAULT_KML) {
+    profile.erase("mapping");
+    profile.erase("layers");
+  }
+  ErasureCode::init(profile, ss);
+  return 0;
+}
+
+set<int> ErasureCodeLrc::get_erasures(const set<int> &want,
+				      const set<int> &available) const
+{
+  set<int> result;
+  set_difference(want.begin(), want.end(),
+		 available.begin(), available.end(),
+		 inserter(result, result.end()));
+  return result;
+}
+
+unsigned int ErasureCodeLrc::get_chunk_size(unsigned int object_size) const
+{
+  return layers.front().erasure_code->get_chunk_size(object_size);
+}
+
+void p(const set<int> &s) { cerr << s; } // for gdb
+
+int ErasureCodeLrc::_minimum_to_decode(const set<int> &want_to_read,
+				       const set<int> &available_chunks,
+				       set<int> *minimum)
+{
+  dout(20) << __func__ << " want_to_read " << want_to_read
+	   << " available_chunks " << available_chunks << dendl;
+  {
+    set<int> erasures_total;
+    set<int> erasures_not_recovered;
+    set<int> erasures_want;
+    for (unsigned int i = 0; i < get_chunk_count(); ++i) {
+      if (available_chunks.count(i) == 0) {
+	erasures_total.insert(i);
+	erasures_not_recovered.insert(i);
+	if (want_to_read.count(i) != 0)
+	  erasures_want.insert(i);
+      }
+    }
+
+    //
+    // Case 1:
+    //
+    // When no chunk is missing there is no need to read more than what
+    // is wanted.
+    //
+    if (erasures_want.empty()) {
+      *minimum = want_to_read;
+      dout(20) << __func__ << " minimum == want_to_read == "
+	       << want_to_read << dendl;
+      return 0;
+    }
+
+    //
+    // Case 2:
+    //
+    // Try to recover erasures with as few chunks as possible.
+    //
+    for (vector<Layer>::reverse_iterator i = layers.rbegin();
+	 i != layers.rend();
+	 ++i) {
+      //
+      // If this layer has no chunk that we want, skip it.
+      //
+      set<int> layer_want;
+      set_intersection(want_to_read.begin(), want_to_read.end(),
+		       i->chunks_as_set.begin(), i->chunks_as_set.end(),
+		       inserter(layer_want, layer_want.end()));
+      if (layer_want.empty())
+	continue;
+      //
+      // Are some of the chunks we want missing ?
+      //
+      set<int> layer_erasures;
+      set_intersection(layer_want.begin(), layer_want.end(),
+		       erasures_want.begin(), erasures_want.end(),
+		       inserter(layer_erasures, layer_erasures.end()));
+      set<int> layer_minimum;
+      if (layer_erasures.empty()) {
+	//
+	// The chunks we want are available, this is the minimum we need
+	// to read.
+	//
+	layer_minimum = layer_want;
+      } else {
+	set<int> erasures;
+	set_intersection(i->chunks_as_set.begin(), i->chunks_as_set.end(),
+			 erasures_not_recovered.begin(), erasures_not_recovered.end(),
+			 inserter(erasures, erasures.end()));
+
+	if (erasures.size() > i->erasure_code->get_coding_chunk_count()) {
+	  //
+	  // There are too many erasures for this layer to recover: skip
+	  // it and hope that an upper layer will be do better.
+	  //
+	  continue;
+	} else {
+	  //
+	  // Get all available chunks in that layer to recover the
+	  // missing one(s).
+	  //
+	  set_difference(i->chunks_as_set.begin(), i->chunks_as_set.end(),
+			 erasures_not_recovered.begin(), erasures_not_recovered.end(),
+			 inserter(layer_minimum, layer_minimum.end()));
+	  //
+	  // Chunks recovered by this layer are removed from the list of
+	  // erasures so that upper levels do not attempt to recover
+	  // them.
+	  //
+	  for (set<int>::const_iterator j = erasures.begin();
+	       j != erasures.end();
+	       ++j) {
+	    erasures_not_recovered.erase(*j);
+	    erasures_want.erase(*j);
+	  }
+	}
+      }
+      minimum->insert(layer_minimum.begin(), layer_minimum.end());
+    }
+    if (erasures_want.empty()) {
+      minimum->insert(want_to_read.begin(), want_to_read.end());
+      for (set<int>::const_iterator i = erasures_total.begin();
+	   i != erasures_total.end();
+	   ++i) {
+	if (minimum->count(*i))
+	  minimum->erase(*i);
+      }
+      dout(20) << __func__ << " minimum = " << *minimum << dendl;
+      return 0;
+    }
+  }
+
+  {
+    //
+    // Case 3:
+    //
+    // The previous strategy failed to recover from all erasures.
+    //
+    // Try to recover as many chunks as possible, even from layers
+    // that do not contain chunks that we want, in the hope that it
+    // will help the upper layers.
+    //
+    set<int> erasures_total;
+    for (unsigned int i = 0; i < get_chunk_count(); ++i) {
+      if (available_chunks.count(i) == 0)
+	erasures_total.insert(i);
+    }
+
+    for (vector<Layer>::reverse_iterator i = layers.rbegin();
+	 i != layers.rend();
+	 ++i) {
+      set<int> layer_erasures;
+      set_intersection(i->chunks_as_set.begin(), i->chunks_as_set.end(),
+		       erasures_total.begin(), erasures_total.end(),
+		       inserter(layer_erasures, layer_erasures.end()));
+      //
+      // If this layer has no erasure, skip it
+      //
+      if (layer_erasures.empty())
+	continue;
+
+      if (layer_erasures.size() > 0 &&
+	  layer_erasures.size() <= i->erasure_code->get_coding_chunk_count()) {
+	//
+	// chunks recovered by this layer are removed from the list of
+	// erasures so that upper levels know they can rely on their
+	// availability
+	//
+	for (set<int>::const_iterator j = layer_erasures.begin();
+	     j != layer_erasures.end();
+	     ++j) {
+	  erasures_total.erase(*j);
+	}
+      }
+    }
+    if (erasures_total.empty()) {
+      //
+      // Do not try to be smart about what chunks are necessary to
+      // recover, use all available chunks.
+      //
+      *minimum = available_chunks;
+      dout(20) << __func__ << " minimum == available_chunks == "
+	       << available_chunks << dendl;
+      return 0;
+    }
+  }
+
+  derr << __func__ << " not enough chunks in " << available_chunks
+       << " to read " << want_to_read << dendl;
+  return -EIO;
+}
+
+int ErasureCodeLrc::encode_chunks(const set<int> &want_to_encode,
+				  map<int, bufferlist> *encoded)
+{
+  unsigned int top = layers.size();
+  for (vector<Layer>::reverse_iterator i = layers.rbegin();
+       i != layers.rend();
+       ++i) {
+    --top;
+    if (includes(i->chunks_as_set.begin(), i->chunks_as_set.end(),
+		 want_to_encode.begin(), want_to_encode.end()))
+      break;
+  }
+
+  for (unsigned int i = top; i < layers.size(); ++i) {
+    const Layer &layer = layers[i];
+    set<int> layer_want_to_encode;
+    map<int, bufferlist> layer_encoded;
+    int j = 0;
+    for (const auto& c : layer.chunks) {
+      std::swap(layer_encoded[j], (*encoded)[c]);
+      if (want_to_encode.find(c) != want_to_encode.end())
+	layer_want_to_encode.insert(j);
+      j++;
+    }
+    int err = layer.erasure_code->encode_chunks(layer_want_to_encode,
+						&layer_encoded);
+    j = 0;
+    for (const auto& c : layer.chunks) {
+      std::swap(layer_encoded[j++], (*encoded)[c]);
+    }
+    if (err) {
+      derr << __func__ << " layer " << layer.chunks_map
+	   << " failed with " << err << " trying to encode "
+	   << layer_want_to_encode << dendl;
+      return err;
+    }
+  }
+  return 0;
+}
+
+int ErasureCodeLrc::decode_chunks(const set<int> &want_to_read,
+				  const map<int, bufferlist> &chunks,
+				  map<int, bufferlist> *decoded)
+{
+  set<int> available_chunks;
+  set<int> erasures;
+  for (unsigned int i = 0; i < get_chunk_count(); ++i) {
+    if (chunks.count(i) != 0)
+      available_chunks.insert(i);
+    else
+      erasures.insert(i);
+  }
+
+  set<int> want_to_read_erasures;
+
+  for (vector<Layer>::reverse_iterator layer = layers.rbegin();
+       layer != layers.rend();
+       ++layer) {
+    set<int> layer_erasures;
+    set_intersection(layer->chunks_as_set.begin(), layer->chunks_as_set.end(),
+		     erasures.begin(), erasures.end(),
+		     inserter(layer_erasures, layer_erasures.end()));
+
+    if (layer_erasures.size() >
+	layer->erasure_code->get_coding_chunk_count()) {
+      // skip because there are too many erasures for this layer to recover
+    } else if(layer_erasures.size() == 0) {
+      // skip because all chunks are already available
+    } else {
+      set<int> layer_want_to_read;
+      map<int, bufferlist> layer_chunks;
+      map<int, bufferlist> layer_decoded;
+      int j = 0;
+      for (vector<int>::const_iterator c = layer->chunks.begin();
+	   c != layer->chunks.end();
+	   ++c) {
+	//
+	// Pick chunks from *decoded* instead of *chunks* to re-use
+	// chunks recovered by previous layers. In other words
+	// *chunks* does not change but *decoded* gradually improves
+	// as more layers recover from erasures.
+	//
+	if (erasures.count(*c) == 0)
+	  layer_chunks[j] = (*decoded)[*c];
+	if (want_to_read.count(*c) != 0)
+	  layer_want_to_read.insert(j);
+	layer_decoded[j] = (*decoded)[*c];
+	++j;
+      }
+      int err = layer->erasure_code->decode_chunks(layer_want_to_read,
+						   layer_chunks,
+						   &layer_decoded);
+      if (err) {
+	derr << __func__ << " layer " << layer->chunks_map
+	     << " failed with " << err << " trying to decode "
+	     << layer_want_to_read << " with " << available_chunks << dendl;
+	return err;
+      }
+      j = 0;
+      for (vector<int>::const_iterator c = layer->chunks.begin();
+	   c != layer->chunks.end();
+	   ++c) {
+	(*decoded)[*c] = layer_decoded[j];
+	++j;
+	erasures.erase(*c);
+      }
+      want_to_read_erasures.clear();
+      set_intersection(erasures.begin(), erasures.end(),
+		       want_to_read.begin(), want_to_read.end(),
+		       inserter(want_to_read_erasures, want_to_read_erasures.end()));
+      if (want_to_read_erasures.size() == 0)
+	break;
+    }
+  }
+
+  if (want_to_read_erasures.size() > 0) {
+    derr << __func__ << " want to read " << want_to_read
+	 << " with available_chunks = " << available_chunks
+	 << " end up being unable to read " << want_to_read_erasures << dendl;
+    return -EIO;
+  } else {
+    return 0;
+  }
+}