FD.io VPP  v18.11-rc0-18-g2a3fb1a
Vector Packet Processing
acl_list.hpp
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1 /*
2  * Copyright (c) 2017 Cisco and/or its affiliates.
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 
16 #ifndef __VOM_ACL_LIST_H__
17 #define __VOM_ACL_LIST_H__
18 
19 #include <set>
20 
21 #include "vom/acl_l2_rule.hpp"
22 #include "vom/acl_l3_rule.hpp"
23 #include "vom/acl_types.hpp"
24 #include "vom/hw.hpp"
25 #include "vom/inspect.hpp"
26 #include "vom/om.hpp"
27 #include "vom/singular_db.hpp"
28 
29 namespace VOM {
30 namespace ACL {
31 /**
32  * An ACL list comprises a set of match actions rules to be applied to
33  * packets.
34  * A list is bound to a given interface.
35  */
36 template <typename RULE>
37 class list : public object_base
38 {
39 public:
40  /**
41  * The KEY can be used to uniquely identify the ACL.
42  * (other choices for keys, like the summation of the properties
43  * of the rules, are rather too cumbersome to use
44  */
45  typedef std::string key_t;
46 
47  /**
48  * The rule container type
49  */
50  typedef std::multiset<RULE> rules_t;
51 
52  /**
53  * Construct a new object matching the desried state
54  */
55  list(const key_t& key)
56  : m_hdl(handle_t::INVALID)
57  , m_key(key)
58  {
59  }
60 
61  list(const handle_t& hdl, const key_t& key)
62  : m_hdl(hdl)
63  , m_key(key)
64  {
65  }
66 
67  list(const key_t& key, const rules_t& rules)
68  : m_hdl(handle_t::INVALID)
69  , m_key(key)
70  , m_rules(rules)
71  {
72  }
73 
74  /**
75  * Copy Constructor
76  */
77  list(const list& o)
78  : m_hdl(o.m_hdl)
79  , m_key(o.m_key)
80  , m_rules(o.m_rules)
81  {
82  }
83 
84  /**
85  * Destructor
86  */
88  {
89  sweep();
90  m_db.release(m_key, this);
91  }
92 
93  /**
94  * Return the 'sigular instance' of the ACL that matches this object
95  */
96  std::shared_ptr<list> singular() const { return find_or_add(*this); }
97 
98  /**
99  * Dump all ACLs into the stream provided
100  */
101  static void dump(std::ostream& os) { m_db.dump(os); }
102 
103  /**
104  * convert to string format for debug purposes
105  */
106  std::string to_string() const
107  {
108  std::ostringstream s;
109  s << "acl-list:[" << m_key << " " << m_hdl.to_string() << " rules:[";
110 
111  for (auto rule : m_rules) {
112  s << rule.to_string() << " ";
113  }
114 
115  s << "]]";
116 
117  return (s.str());
118  }
119 
120  /**
121  * Insert priority sorted a rule into the list
122  */
123  void insert(const RULE& rule) { m_rules.insert(rule); }
124 
125  /**
126  * Remove a rule from the list
127  */
128  void remove(const RULE& rule) { m_rules.erase(rule); }
129 
130  /**
131  * Return the VPP assign handle
132  */
133  const handle_t& handle() const { return (singular()->handle_i()); }
134 
135  static std::shared_ptr<list> find(const handle_t& handle)
136  {
137  return (m_hdl_db[handle].lock());
138  }
139 
140  static std::shared_ptr<list> find(const key_t& key)
141  {
142  return (m_db.find(key));
143  }
144 
145  static void add(const key_t& key, const HW::item<handle_t>& item)
146  {
147  std::shared_ptr<list> sp = find(key);
148 
149  if (sp && item) {
150  m_hdl_db[item.data()] = sp;
151  }
152  }
153 
154  static void remove(const HW::item<handle_t>& item)
155  {
156  m_hdl_db.erase(item.data());
157  }
158 
159  const key_t& key() const { return m_key; }
160 
161  const rules_t& rules() const { return m_rules; }
162 
163  /**
164  * Comparison operator - for UT
165  */
166  bool operator==(const list& l) const
167  {
168  return (key() == l.key() && rules() == l.rules());
169  }
170 
171 private:
172  /**
173  * Class definition for listeners to OM events
174  */
176  {
177  public:
178  event_handler();
179 
180  virtual ~event_handler() = default;
181 
182  /**
183  * Handle a populate event
184  */
185  void handle_populate(const client_db::key_t& key);
186 
187  /**
188  * Handle a replay event
189  */
190  void handle_replay() { m_db.replay(); }
191 
192  /**
193  * Show the object in the Singular DB
194  */
195  void show(std::ostream& os);
196 
197  /**
198  * Get the sortable Id of the listener
199  */
200  dependency_t order() const { return (dependency_t::ACL); }
201  };
202 
203  /**
204  * event_handler to register with OM
205  */
206  static event_handler m_evh;
207 
208  /**
209  * Enqueue commands to the VPP command Q for the update
210  */
211  void update(const list& obj);
212 
213  /**
214  * HW assigned handle
215  */
216  HW::item<handle_t> m_hdl;
217 
218  /**
219  * Find or add the sigular instance in the DB
220  */
221  static std::shared_ptr<list> find_or_add(const list& temp)
222  {
223  return (m_db.find_or_add(temp.key(), temp));
224  }
225 
226  /**
227  * return the acl-list's handle in the singular instance
228  */
229  const handle_t& handle_i() const { return (m_hdl.data()); }
230 
231  /*
232  * It's the VOM::OM class that updates call update
233  */
234  friend class VOM::OM;
235 
236  /**
237  * It's the VOM::singular_db class that calls replay()
238  */
239  friend class singular_db<key_t, list>;
240 
241  /**
242  * Sweep/reap the object if still stale
243  */
244  void sweep(void);
245 
246  /**
247  * Replay the objects state to HW
248  */
249  void replay(void);
250 
251  /**
252  * A map of all ACL's against the client's key
253  */
254  static singular_db<key_t, list> m_db;
255 
256  /**
257  * A map of all ACLs keyed against VPP's handle
258  */
259  static std::map<handle_t, std::weak_ptr<list>> m_hdl_db;
260 
261  /**
262  * The Key is a user defined identifer for this ACL
263  */
264  const key_t m_key;
265 
266  /**
267  * A sorted list of the rules
268  */
269  rules_t m_rules;
270 };
271 
272 /**
273  * Typedef the L3 ACL type
274  */
276 
277 /**
278  * Typedef the L2 ACL type
279  */
281 
282 /**
283  * Definition of the static singular_db for ACL Lists
284  */
285 template <typename RULE>
287 
288 /**
289  * Definition of the static per-handle DB for ACL Lists
290  */
291 template <typename RULE>
292 std::map<handle_t, std::weak_ptr<ACL::list<RULE>>> list<RULE>::m_hdl_db;
293 
294 template <typename RULE>
296 };
297 };
298 
299 /*
300  * fd.io coding-style-patch-verification: ON
301  *
302  * Local Variables:
303  * eval: (c-set-style "mozilla")
304  * End:
305  */
306 
307 #endif
const rules_t & rules() const
Definition: acl_list.hpp:161
static void dump(std::ostream &os)
Dump all ACLs into the stream provided.
Definition: acl_list.hpp:101
void insert(const RULE &rule)
Insert priority sorted a rule into the list.
Definition: acl_list.hpp:123
std::string to_string() const
convert to string format for debug purposes
Definition: acl_list.hpp:106
const std::string key_t
In the opflex world each entity is known by a URI which can be converted into a string.
Definition: client_db.hpp:51
An ACL list comprises a set of match actions rules to be applied to packets.
Definition: acl_list.hpp:37
static std::shared_ptr< list > find(const handle_t &handle)
Definition: acl_list.hpp:135
std::string to_string() const
convert to string format for debug purposes
Definition: hw.hpp:160
T & data()
Return the data read/written.
Definition: hw.hpp:108
std::string key_t
The KEY can be used to uniquely identify the ACL.
Definition: acl_list.hpp:45
std::shared_ptr< list > singular() const
Return the &#39;sigular instance&#39; of the ACL that matches this object.
Definition: acl_list.hpp:96
A Database to store the unique &#39;singular&#39; instances of a single object type.
Definition: singular_db.hpp:33
list(const key_t &key)
Construct a new object matching the desried state.
Definition: acl_list.hpp:55
static std::shared_ptr< list > find(const key_t &key)
Definition: acl_list.hpp:140
Class definition for listeners to OM events.
Definition: om.hpp:284
inspect command handler Handler
Definition: inspect.hpp:54
A type declaration of an interface handle in VPP.
Definition: types.hpp:228
void event_handler(void *tls_async)
Definition: tls_async.c:311
dependency_t
There needs to be a strict order in which object types are read from VPP (at boot time) and replayed ...
Definition: types.hpp:43
The interface to writing objects into VPP OM.
Definition: om.hpp:140
list< l3_rule > l3_list
Typedef the L3 ACL type.
Definition: acl_list.hpp:275
A base class for all object_base in the VPP object_base-Model.
Definition: object_base.hpp:29
list(const list &o)
Copy Constructor.
Definition: acl_list.hpp:77
The VPP Object Model (VOM) library.
Definition: acl_binding.cpp:19
std::multiset< RULE > rules_t
The rule container type.
Definition: acl_list.hpp:50
void show(char *chroot_path, int verbose)
Definition: svmtool.c:105
list(const key_t &key, const rules_t &rules)
Definition: acl_list.hpp:67
static void add(const key_t &key, const HW::item< handle_t > &item)
Definition: acl_list.hpp:145
const handle_t & handle() const
Return the VPP assign handle.
Definition: acl_list.hpp:133
list(const handle_t &hdl, const key_t &key)
Definition: acl_list.hpp:61
list< l2_rule > l2_list
Typedef the L2 ACL type.
Definition: acl_list.hpp:280
const key_t & key() const
Definition: acl_list.hpp:159
~list()
Destructor.
Definition: acl_list.hpp:87
bool operator==(const list &l) const
Comparison operator - for UT.
Definition: acl_list.hpp:166