src/ceph/src/rgw/rgw_usage.cc

   1 // -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
   2 // vim: ts=8 sw=2 smarttab
   3
   4 #include <string>
   5 #include <map>
   6
   7 #include "rgw_rados.h"
   8 #include "rgw_usage.h"
   9 #include "rgw_formats.h"
  10
  11 using namespace std;
  12
  13
  14 static void dump_usage_categories_info(Formatter *formatter, const rgw_usage_log_entry& entry, map<string, bool> *categories)
  15 {
  16   formatter->open_array_section("categories");
  17   map<string, rgw_usage_data>::const_iterator uiter;
  18   for (uiter = entry.usage_map.begin(); uiter != entry.usage_map.end(); ++uiter) {
  19     if (categories && !categories->empty() && !categories->count(uiter->first))
  20       continue;
  21     const rgw_usage_data& usage = uiter->second;
  22     formatter->open_object_section("entry");
  23     formatter->dump_string("category", uiter->first);
  24     formatter->dump_int("bytes_sent", usage.bytes_sent);
  25     formatter->dump_int("bytes_received", usage.bytes_received);
  26     formatter->dump_int("ops", usage.ops);
  27     formatter->dump_int("successful_ops", usage.successful_ops);
  28     formatter->close_section(); // entry
  29   }
  30   formatter->close_section(); // categories
  31 }
  32
  33 int RGWUsage::show(RGWRados *store, rgw_user& uid, uint64_t start_epoch,
  34                    uint64_t end_epoch, bool show_log_entries, bool show_log_sum,
  35                    map<string, bool> *categories,
  36                    RGWFormatterFlusher& flusher)
  37 {
  38   uint32_t max_entries = 1000;
  39
  40   bool is_truncated = true;
  41
  42   RGWUsageIter usage_iter;
  43   Formatter *formatter = flusher.get_formatter();
  44
  45   map<rgw_user_bucket, rgw_usage_log_entry> usage;
  46
  47   flusher.start(0);
  48
  49   formatter->open_object_section("usage");
  50   if (show_log_entries) {
  51     formatter->open_array_section("entries");
  52   }
  53   string last_owner;
  54   bool user_section_open = false;
  55   map<string, rgw_usage_log_entry> summary_map;
  56   while (is_truncated) {
  57     int ret = store->read_usage(uid, start_epoch, end_epoch, max_entries,
  58                                 &is_truncated, usage_iter, usage);
  59
  60     if (ret == -ENOENT) {
  61       ret = 0;
  62       is_truncated = false;
  63     }
  64
  65     if (ret < 0) {
  66       return ret;
  67     }
  68
  69     map<rgw_user_bucket, rgw_usage_log_entry>::iterator iter;
  70     for (iter = usage.begin(); iter != usage.end(); ++iter) {
  71       const rgw_user_bucket& ub = iter->first;
  72       const rgw_usage_log_entry& entry = iter->second;
  73
  74       if (show_log_entries) {
  75         if (ub.user.compare(last_owner) != 0) {
  76           if (user_section_open) {
  77             formatter->close_section();
  78             formatter->close_section();
  79           }
  80           formatter->open_object_section("user");
  81           formatter->dump_string("user", ub.user);
  82           formatter->open_array_section("buckets");
  83           user_section_open = true;
  84           last_owner = ub.user;
  85         }
  86         formatter->open_object_section("bucket");
  87         formatter->dump_string("bucket", ub.bucket);
  88         utime_t ut(entry.epoch, 0);
  89         ut.gmtime(formatter->dump_stream("time"));
  90         formatter->dump_int("epoch", entry.epoch);
  91         string owner = entry.owner.to_str();
  92         string payer = entry.payer.to_str();
  93         formatter->dump_string("owner", owner);
  94         if (!payer.empty() && payer != owner) {
  95           formatter->dump_string("payer", payer);
  96         }
  97         dump_usage_categories_info(formatter, entry, categories);
  98         formatter->close_section(); // bucket
  99         flusher.flush();
 100       }
 101
 102       summary_map[ub.user].aggregate(entry, categories);
 103     }
 104   }
 105   if (show_log_entries) {
 106     if (user_section_open) {
 107       formatter->close_section(); // buckets
 108       formatter->close_section(); //user
 109     }
 110     formatter->close_section(); // entries
 111   }
 112
 113   if (show_log_sum) {
 114     formatter->open_array_section("summary");
 115     map<string, rgw_usage_log_entry>::iterator siter;
 116     for (siter = summary_map.begin(); siter != summary_map.end(); ++siter) {
 117       const rgw_usage_log_entry& entry = siter->second;
 118       formatter->open_object_section("user");
 119       formatter->dump_string("user", siter->first);
 120       dump_usage_categories_info(formatter, entry, categories);
 121       rgw_usage_data total_usage;
 122       entry.sum(total_usage, *categories);
 123       formatter->open_object_section("total");
 124       formatter->dump_int("bytes_sent", total_usage.bytes_sent);
 125       formatter->dump_int("bytes_received", total_usage.bytes_received);
 126       formatter->dump_int("ops", total_usage.ops);
 127       formatter->dump_int("successful_ops", total_usage.successful_ops);
 128       formatter->close_section(); // total
 129
 130       formatter->close_section(); // user
 131
 132       flusher.flush();
 133     }
 134
 135     formatter->close_section(); // summary
 136   }
 137
 138   formatter->close_section(); // usage
 139   flusher.flush();
 140
 141   return 0;
 142 }
 143
 144 int RGWUsage::trim(RGWRados *store, rgw_user& uid, uint64_t start_epoch,
 145                    uint64_t end_epoch)
 146 {
 147   return store->trim_usage(uid, start_epoch, end_epoch);
 148 }