1 //===- ExportTrie.cpp -----------------------------------------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 //
9 // This is a partial implementation of the Mach-O export trie format. It's
10 // essentially a symbol table encoded as a compressed prefix trie, meaning that
11 // the common prefixes of each symbol name are shared for a more compact
12 // representation. The prefixes are stored on the edges of the trie, and one
13 // edge can represent multiple characters. For example, given two exported
14 // symbols _bar and _baz, we will have a trie like this (terminal nodes are
15 // marked with an asterisk):
16 //
17 // +-+-+
18 // | | // root node
19 // +-+-+
20 // |
21 // | _ba
22 // |
23 // +-+-+
24 // | |
25 // +-+-+
26 // r / \ z
27 // / \
28 // +-+-+ +-+-+
29 // | * | | * |
30 // +-+-+ +-+-+
31 //
32 // More documentation of the format can be found in
33 // llvm/tools/obj2yaml/macho2yaml.cpp.
34 //
35 //===----------------------------------------------------------------------===//
36
37 #include "ExportTrie.h"
38 #include "Symbols.h"
39
40 #include "lld/Common/ErrorHandler.h"
41 #include "lld/Common/Memory.h"
42 #include "llvm/ADT/Optional.h"
43 #include "llvm/BinaryFormat/MachO.h"
44 #include "llvm/Support/LEB128.h"
45
46 using namespace llvm;
47 using namespace llvm::MachO;
48 using namespace lld;
49 using namespace lld::macho;
50
51 namespace {
52
53 struct Edge {
Edge__anon4919decf0111::Edge54 Edge(StringRef s, TrieNode *node) : substring(s), child(node) {}
55
56 StringRef substring;
57 struct TrieNode *child;
58 };
59
60 struct ExportInfo {
61 uint64_t address;
62 uint8_t flags = 0;
ExportInfo__anon4919decf0111::ExportInfo63 ExportInfo(const Symbol &sym, uint64_t imageBase)
64 : address(sym.getVA() - imageBase) {
65 // Set the symbol type.
66 if (sym.isWeakDef())
67 flags |= EXPORT_SYMBOL_FLAGS_WEAK_DEFINITION;
68 // TODO: Add proper support for re-exports & stub-and-resolver flags.
69
70 // Set the symbol kind.
71 if (sym.isTlv()) {
72 flags |= EXPORT_SYMBOL_FLAGS_KIND_THREAD_LOCAL;
73 } else if (auto *defined = dyn_cast<Defined>(&sym)) {
74 if (defined->isAbsolute())
75 flags |= EXPORT_SYMBOL_FLAGS_KIND_ABSOLUTE;
76 }
77 }
78 };
79
80 } // namespace
81
82 struct macho::TrieNode {
83 std::vector<Edge> edges;
84 Optional<ExportInfo> info;
85 // Estimated offset from the start of the serialized trie to the current node.
86 // This will converge to the true offset when updateOffset() is run to a
87 // fixpoint.
88 size_t offset = 0;
89
90 // Returns whether the new estimated offset differs from the old one.
91 bool updateOffset(size_t &nextOffset);
92 void writeTo(uint8_t *buf) const;
93 };
94
updateOffset(size_t & nextOffset)95 bool TrieNode::updateOffset(size_t &nextOffset) {
96 // Size of the whole node (including the terminalSize and the outgoing edges.)
97 // In contrast, terminalSize only records the size of the other data in the
98 // node.
99 size_t nodeSize;
100 if (info) {
101 uint32_t terminalSize =
102 getULEB128Size(info->flags) + getULEB128Size(info->address);
103 // Overall node size so far is the uleb128 size of the length of the symbol
104 // info + the symbol info itself.
105 nodeSize = terminalSize + getULEB128Size(terminalSize);
106 } else {
107 nodeSize = 1; // Size of terminalSize (which has a value of 0)
108 }
109 // Compute size of all child edges.
110 ++nodeSize; // Byte for number of children.
111 for (Edge &edge : edges) {
112 nodeSize += edge.substring.size() + 1 // String length.
113 + getULEB128Size(edge.child->offset); // Offset len.
114 }
115 // On input, 'nextOffset' is the new preferred location for this node.
116 bool result = (offset != nextOffset);
117 // Store new location in node object for use by parents.
118 offset = nextOffset;
119 nextOffset += nodeSize;
120 return result;
121 }
122
writeTo(uint8_t * buf) const123 void TrieNode::writeTo(uint8_t *buf) const {
124 buf += offset;
125 if (info) {
126 // TrieNodes with Symbol info: size, flags address
127 uint32_t terminalSize =
128 getULEB128Size(info->flags) + getULEB128Size(info->address);
129 buf += encodeULEB128(terminalSize, buf);
130 buf += encodeULEB128(info->flags, buf);
131 buf += encodeULEB128(info->address, buf);
132 } else {
133 // TrieNode with no Symbol info.
134 *buf++ = 0; // terminalSize
135 }
136 // Add number of children. TODO: Handle case where we have more than 256.
137 assert(edges.size() < 256);
138 *buf++ = edges.size();
139 // Append each child edge substring and node offset.
140 for (const Edge &edge : edges) {
141 memcpy(buf, edge.substring.data(), edge.substring.size());
142 buf += edge.substring.size();
143 *buf++ = '\0';
144 buf += encodeULEB128(edge.child->offset, buf);
145 }
146 }
147
makeNode()148 TrieNode *TrieBuilder::makeNode() {
149 auto *node = make<TrieNode>();
150 nodes.emplace_back(node);
151 return node;
152 }
153
charAt(const Symbol * sym,size_t pos)154 static int charAt(const Symbol *sym, size_t pos) {
155 StringRef str = sym->getName();
156 if (pos >= str.size())
157 return -1;
158 return str[pos];
159 }
160
161 // Build the trie by performing a three-way radix quicksort: We start by sorting
162 // the strings by their first characters, then sort the strings with the same
163 // first characters by their second characters, and so on recursively. Each
164 // time the prefixes diverge, we add a node to the trie.
165 //
166 // node: The most recently created node along this path in the trie (i.e.
167 // the furthest from the root.)
168 // lastPos: The prefix length of the most recently created node, i.e. the number
169 // of characters along its path from the root.
170 // pos: The string index we are currently sorting on. Note that each symbol
171 // S contained in vec has the same prefix S[0...pos).
sortAndBuild(MutableArrayRef<const Symbol * > vec,TrieNode * node,size_t lastPos,size_t pos)172 void TrieBuilder::sortAndBuild(MutableArrayRef<const Symbol *> vec,
173 TrieNode *node, size_t lastPos, size_t pos) {
174 tailcall:
175 if (vec.empty())
176 return;
177
178 // Partition items so that items in [0, i) are less than the pivot,
179 // [i, j) are the same as the pivot, and [j, vec.size()) are greater than
180 // the pivot.
181 const Symbol *pivotSymbol = vec[vec.size() / 2];
182 int pivot = charAt(pivotSymbol, pos);
183 size_t i = 0;
184 size_t j = vec.size();
185 for (size_t k = 0; k < j;) {
186 int c = charAt(vec[k], pos);
187 if (c < pivot)
188 std::swap(vec[i++], vec[k++]);
189 else if (c > pivot)
190 std::swap(vec[--j], vec[k]);
191 else
192 k++;
193 }
194
195 bool isTerminal = pivot == -1;
196 bool prefixesDiverge = i != 0 || j != vec.size();
197 if (lastPos != pos && (isTerminal || prefixesDiverge)) {
198 TrieNode *newNode = makeNode();
199 node->edges.emplace_back(pivotSymbol->getName().slice(lastPos, pos),
200 newNode);
201 node = newNode;
202 lastPos = pos;
203 }
204
205 sortAndBuild(vec.slice(0, i), node, lastPos, pos);
206 sortAndBuild(vec.slice(j), node, lastPos, pos);
207
208 if (isTerminal) {
209 assert(j - i == 1); // no duplicate symbols
210 node->info = ExportInfo(*pivotSymbol, imageBase);
211 } else {
212 // This is the tail-call-optimized version of the following:
213 // sortAndBuild(vec.slice(i, j - i), node, lastPos, pos + 1);
214 vec = vec.slice(i, j - i);
215 ++pos;
216 goto tailcall;
217 }
218 }
219
build()220 size_t TrieBuilder::build() {
221 if (exported.empty())
222 return 0;
223
224 TrieNode *root = makeNode();
225 sortAndBuild(exported, root, 0, 0);
226
227 // Assign each node in the vector an offset in the trie stream, iterating
228 // until all uleb128 sizes have stabilized.
229 size_t offset;
230 bool more;
231 do {
232 offset = 0;
233 more = false;
234 for (TrieNode *node : nodes)
235 more |= node->updateOffset(offset);
236 } while (more);
237
238 return offset;
239 }
240
writeTo(uint8_t * buf) const241 void TrieBuilder::writeTo(uint8_t *buf) const {
242 for (TrieNode *node : nodes)
243 node->writeTo(buf);
244 }
245
246 namespace {
247
248 // Parse a serialized trie and invoke a callback for each entry.
249 class TrieParser {
250 public:
TrieParser(const uint8_t * buf,size_t size,const TrieEntryCallback & callback)251 TrieParser(const uint8_t *buf, size_t size, const TrieEntryCallback &callback)
252 : start(buf), end(start + size), callback(callback) {}
253
254 void parse(const uint8_t *buf, const Twine &cumulativeString);
255
parse()256 void parse() { parse(start, ""); }
257
258 const uint8_t *start;
259 const uint8_t *end;
260 const TrieEntryCallback &callback;
261 };
262
263 } // namespace
264
parse(const uint8_t * buf,const Twine & cumulativeString)265 void TrieParser::parse(const uint8_t *buf, const Twine &cumulativeString) {
266 if (buf >= end)
267 fatal("Node offset points outside export section");
268
269 unsigned ulebSize;
270 uint64_t terminalSize = decodeULEB128(buf, &ulebSize);
271 buf += ulebSize;
272 uint64_t flags = 0;
273 size_t offset;
274 if (terminalSize != 0) {
275 flags = decodeULEB128(buf, &ulebSize);
276 callback(cumulativeString, flags);
277 }
278 buf += terminalSize;
279 uint8_t numEdges = *buf++;
280 for (uint8_t i = 0; i < numEdges; ++i) {
281 const char *cbuf = reinterpret_cast<const char *>(buf);
282 StringRef substring = StringRef(cbuf, strnlen(cbuf, end - buf));
283 buf += substring.size() + 1;
284 offset = decodeULEB128(buf, &ulebSize);
285 buf += ulebSize;
286 parse(start + offset, cumulativeString + substring);
287 }
288 }
289
parseTrie(const uint8_t * buf,size_t size,const TrieEntryCallback & callback)290 void macho::parseTrie(const uint8_t *buf, size_t size,
291 const TrieEntryCallback &callback) {
292 if (size == 0)
293 return;
294
295 TrieParser(buf, size, callback).parse();
296 }
297