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[apple/security.git] / OSX / libsecurity_utilities / lib / superblob.h
1 //
2 // SuperBlob - a typed bag of Blobs
3 //
4 #ifndef _H_SUPERBLOB
5 #define _H_SUPERBLOB
6
7 #include <security_utilities/blob.h>
8 #include <map>
9 #include <vector>
10
11 namespace Security {
12
13
14 //
15 // A SuperBlob is a Blob that contains multiple sub-Blobs of varying type.
16 // The SuperBlob is contiguous and contains a directory of its sub-blobs.
17 // A Maker is included.
18 //
19 // SuperBlobCore lets you define your own SuperBlob type. To just use a generic
20 // SuperBlob, use SuperBlob<> below.
21 //
22 template <class _BlobType, uint32_t _magic, class _Type>
23 class SuperBlobCore: public Blob<_BlobType, _magic> {
24 public:
25 class Maker; friend class Maker;
26
27 typedef _Type Type;
28
29 // echoes from parent BlobCore (the C++ type system is too restrictive here)
30 typedef BlobCore::Offset Offset;
31 template <class BlobType> BlobType *at(Offset offset) { return BlobCore::at<BlobType>(offset); }
32 template <class BlobType> const BlobType *at(Offset offset) const { return BlobCore::at<BlobType>(offset); }
33
34 void setup(size_t size, unsigned count)
35 { this->initialize(size); this->mCount = count; }
36
37 struct Index {
38 Endian<Type> type; // type of sub-Blob
39 Endian<Offset> offset; // starting offset
40 };
41
42 bool validateBlob(size_t maxSize = 0) const;
43 bool strictValidateBlob(size_t maxSize = 0) const;
44
45 unsigned count() const { return mCount; }
46
47 // access by index number
48 Type type(unsigned n) const { assert(n < mCount); return mIndex[n].type; }
49 const BlobCore *blob(unsigned n) const
50 { assert(n < mCount); return mIndex[n].offset ? at<const BlobCore>(mIndex[n].offset) : NULL; }
51 template <class BlobType>
52 const BlobType *blob(unsigned n) const { return BlobType::specific(blob(n)); }
53
54 // access by index type (assumes unique types)
55 const BlobCore *find(Type type) const;
56 template <class BlobType>
57 const BlobType *find(Type type) const { return BlobType::specific(find(type)); }
58
59 private:
60 Endian<uint32_t> mCount; // number of sub-Blobs following
61 Index mIndex[0]; // <count> IndexSlot structures
62 // followed by sub-Blobs, packed and ordered in an undefined way
63 };
64
65
66 template <class _BlobType, uint32_t _magic, class _Type>
67 inline bool SuperBlobCore<_BlobType, _magic, _Type>::validateBlob(size_t maxSize /* = 0 */) const
68 {
69 unsigned count = mCount;
70 size_t ixLimit = sizeof(SuperBlobCore) + count * sizeof(Index); // end of index vector
71 if (!BlobCore::validateBlob(_magic, ixLimit, maxSize))
72 return false;
73 for (const Index *ix = mIndex + count - 1; ix >= mIndex; ix--) {
74 Offset offset = ix->offset;
75 if (offset) // if non-null
76 if (offset < ixLimit // offset not too small
77 || offset + sizeof(BlobCore) > this->length() // fits Blob header (including length field)
78 || offset + at<const BlobCore>(offset)->length() > this->length()) // fits entire blob
79 return false;
80 }
81 return true;
82 }
83
84 struct _SBRange {
85 size_t base;
86 size_t end;
87 _SBRange(size_t b, size_t len) : base(b), end(b+len) { }
88 bool operator < (const _SBRange& other) const { return this->base < other.base; }
89 };
90
91 template <class _BlobType, uint32_t _magic, class _Type>
92 inline bool SuperBlobCore<_BlobType, _magic, _Type>::strictValidateBlob(size_t size /* = 0 */) const
93 {
94 if (!validateBlob(size)) // verifies in-bound sub-blobs
95 return false;
96 unsigned count = mCount;
97 if (count == 0)
98 return this->length() == sizeof(SuperBlobCore); // nothing in here
99
100 std::vector<_SBRange> ranges;
101 for (unsigned ix = 0; ix < count; ++ix)
102 ranges.push_back(_SBRange(mIndex[ix].offset, this->blob(ix)->length()));
103 sort(ranges.begin(), ranges.end());
104 if (ranges[0].base != sizeof(SuperBlobCore) + count * sizeof(Index))
105 return false; // start anchor
106 for (unsigned ix = 1; ix < count; ++ix)
107 if (ranges[ix].base != ranges[ix-1].end) // nothing in between
108 return false;
109 return ranges[count-1].end == this->length(); // end anchor
110 }
111
112
113 //
114 // A generic SuperBlob ready for use. You still need to specify a magic number.
115 //
116 template <uint32_t _magic, class _Type = uint32_t>
117 class SuperBlob : public SuperBlobCore<SuperBlob<_magic, _Type>, _magic, _Type> {
118 };
119
120
121 template <class _BlobType, uint32_t _magic, class _Type>
122 const BlobCore *SuperBlobCore<_BlobType, _magic, _Type>::find(Type type) const
123 {
124 for (unsigned slot = 0; slot < mCount; slot++)
125 if (mIndex[slot].type == type)
126 return mIndex[slot].offset ? at<const BlobCore>(mIndex[slot].offset) : NULL;
127 return NULL; // not found
128 }
129
130
131 //
132 // A SuperBlob::Maker simply assembles multiple Blobs into a single, indexed
133 // super-blob. Just add() sub-Blobs by type and call make() to get
134 // the result, malloc'ed. A Maker is not resettable.
135 // Maker can repeatedly make SuperBlobs from the same (cached) inputs.
136 // It can also tell you how big its output will be, given established contents
137 // plus (optional) additional sizes of blobs yet to come.
138 //
139 template <class _BlobType, uint32_t _magic, class _Type>
140 class SuperBlobCore<_BlobType, _magic, _Type>::Maker {
141 public:
142 Maker() { }
143
144 Maker(const Maker &src)
145 {
146 for (typename BlobMap::iterator it = mPieces.begin(); it != mPieces.end(); ++it)
147 mPieces.insert(make_pair(it->first, it->second->clone()));
148 }
149
150 ~Maker()
151 {
152 for (typename BlobMap::iterator it = mPieces.begin(); it != mPieces.end(); ++it)
153 ::free(it->second);
154 }
155
156 void add(Type type, BlobCore *blob); // takes ownership of blob
157 void add(const _BlobType *blobs); // copies all blobs
158 void add(const Maker &maker); // ditto
159
160 bool contains(Type type) const // see if we have this type already
161 { return mPieces.find(type) != mPieces.end(); }
162 BlobCore *get(Type type) const
163 {
164 typename BlobMap::const_iterator it = mPieces.find(type);
165 return (it == mPieces.end()) ? NULL : it->second;
166 }
167
168 // size_t size(size_t size1 = 0, ...) const; // size with optional additional blob sizes
169 size_t size(const std::vector<size_t> &sizes, size_t size1 = 0, ...) const; // same with array-of-sizes input
170 _BlobType *make() const; // create (malloc) and return SuperBlob
171 _BlobType *operator () () const { return make(); }
172
173 private:
174 typedef std::map<Type, BlobCore *> BlobMap;
175 BlobMap mPieces;
176 };
177
178
179 //
180 // Add a Blob to a SuperBlob::Maker.
181 // This takes ownership of the blob, which must have been malloc'ed.
182 // Any previous value set for this Type will be freed immediately.
183 //
184 template <class _BlobType, uint32_t _magic, class _Type>
185 void SuperBlobCore<_BlobType, _magic, _Type>::Maker::add(Type type, BlobCore *blob)
186 {
187 pair<typename BlobMap::iterator, bool> r = mPieces.insert(make_pair(type, blob));
188 if (!r.second) { // already there
189 secinfo("superblob", "Maker %p replaces type=%d", this, type);
190 ::free(r.first->second);
191 r.first->second = blob;
192 }
193 }
194
195 template <class _BlobType, uint32_t _magic, class _Type>
196 void SuperBlobCore<_BlobType, _magic, _Type>::Maker::add(const _BlobType *blobs)
197 {
198 for (uint32_t ix = 0; ix < blobs->mCount; ix++)
199 this->add(blobs->mIndex[ix].type, blobs->blob(ix)->clone());
200 }
201
202 template <class _BlobType, uint32_t _magic, class _Type>
203 void SuperBlobCore<_BlobType, _magic, _Type>::Maker::add(const Maker &maker)
204 {
205 for (typename BlobMap::const_iterator it = maker.mPieces.begin(); it != maker.mPieces.end(); ++it)
206 this->add(it->first, it->second->clone());
207 }
208
209
210 //
211 // Calculate the size the new SuperBlob would have, given the contents of the Maker
212 // so far, plus additional blobs with the sizes given.
213 //
214 template <class _BlobType, uint32_t _magic, class _Type>
215 size_t SuperBlobCore<_BlobType, _magic, _Type>::Maker::size(const std::vector<size_t> &sizes, size_t size1, ...) const
216 {
217 // count established blobs
218 size_t count = mPieces.size();
219 size_t total = 0;
220 for (auto it = mPieces.begin(); it != mPieces.end(); ++it)
221 total += it->second->length();
222
223 // add more blobs from the sizes array
224 for (auto it = sizes.begin(); it != sizes.end(); ++it)
225 total += *it;
226 count += sizes.size();
227
228 // add more blobs from individual sizes specified
229 if (size1) {
230 va_list args;
231 va_start(args, size1);
232 do {
233 count++;
234 total += size1;
235 size1 = va_arg(args, size_t);
236 } while (size1);
237 va_end(args);
238 }
239
240 return sizeof(SuperBlobCore) + count * sizeof(Index) + total;
241 }
242
243
244 //
245 // Finish SuperBlob construction and return the new, malloc'ed, SuperBlob.
246 // This can be done repeatedly.
247 //
248 template <class _BlobType, uint32_t _magic, class _Type>
249 _BlobType *SuperBlobCore<_BlobType, _magic, _Type>::Maker::make() const
250 {
251 Offset pc = (Offset)(sizeof(SuperBlobCore) + mPieces.size() * sizeof(Index));
252 Offset total = (Offset)size(vector<size_t>(), 0);
253 _BlobType *result = (_BlobType *)malloc(total);
254 if (!result)
255 UnixError::throwMe(ENOMEM);
256 result->setup(total, (unsigned)mPieces.size());
257 unsigned n = 0;
258 for (typename BlobMap::const_iterator it = mPieces.begin(); it != mPieces.end(); ++it) {
259 result->mIndex[n].type = it->first;
260 result->mIndex[n].offset = pc;
261 memcpy(result->template at<unsigned char>(pc), it->second, it->second->length());
262 pc += it->second->length();
263 n++;
264 }
265 secinfo("superblob", "Maker %p assembles %ld blob(s) into %p (size=%d)",
266 this, mPieces.size(), result, total);
267 return result;
268 }
269
270
271 } // Security
272
273 #endif //_H_SUPERBLOB
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