AddressSpace.hpp revision 1.1
1 1.1 joerg //===------------------------- AddressSpace.hpp ---------------------------===// 2 1.1 joerg // 3 1.1 joerg // The LLVM Compiler Infrastructure 4 1.1 joerg // 5 1.1 joerg // This file is dual licensed under the MIT and the University of Illinois Open 6 1.1 joerg // Source Licenses. See LICENSE.TXT for details. 7 1.1 joerg // 8 1.1 joerg // 9 1.1 joerg // Abstracts accessing local vs remote address spaces. 10 1.1 joerg // 11 1.1 joerg //===----------------------------------------------------------------------===// 12 1.1 joerg 13 1.1 joerg #ifndef __ADDRESSSPACE_HPP__ 14 1.1 joerg #define __ADDRESSSPACE_HPP__ 15 1.1 joerg 16 1.1 joerg #include <sys/rbtree.h> 17 1.1 joerg #include <cassert> 18 1.1 joerg #include <cstddef> 19 1.1 joerg #include <cstdint> 20 1.1 joerg #include <cstdlib> 21 1.1 joerg #include <cstring> 22 1.1 joerg #include <dlfcn.h> 23 1.1 joerg #include <elf.h> 24 1.1 joerg #include <link.h> 25 1.1 joerg #include <pthread.h> 26 1.1 joerg 27 1.1 joerg #include "dwarf2.h" 28 1.1 joerg 29 1.1 joerg namespace _Unwind { 30 1.1 joerg 31 1.1 joerg static int rangeCmp(void *, const void *, const void *); 32 1.1 joerg static int rangeCmpKey(void *, const void *, const void *); 33 1.1 joerg static int dsoTableCmp(void *, const void *, const void *); 34 1.1 joerg static int dsoTableCmpKey(void *, const void *, const void *); 35 1.1 joerg static int phdr_callback(struct dl_phdr_info *, size_t, void *); 36 1.1 joerg 37 1.1 joerg struct unw_proc_info_t { 38 1.1 joerg uintptr_t data_base; // Base address for data-relative relocations 39 1.1 joerg uintptr_t start_ip; // Start address of function 40 1.1 joerg uintptr_t end_ip; // First address after end of function 41 1.1 joerg uintptr_t lsda; // Address of Language Specific Data Area 42 1.1 joerg uintptr_t handler; // Personality routine 43 1.1 joerg uintptr_t extra_args; // Extra stack space for frameless routines 44 1.1 joerg uint32_t unwind_info_size; // Size of DWARF unwind info 45 1.1 joerg uintptr_t unwind_info; // Address of DWARF unwind info 46 1.1 joerg }; 47 1.1 joerg 48 1.1 joerg /// LocalAddressSpace is used as a template parameter to UnwindCursor when 49 1.1 joerg /// unwinding a thread in the same process. The wrappers compile away, 50 1.1 joerg /// making local unwinds fast. 51 1.1 joerg class LocalAddressSpace { 52 1.1 joerg public: 53 1.1 joerg typedef uintptr_t pint_t; 54 1.1 joerg typedef intptr_t sint_t; 55 1.1 joerg 56 1.1 joerg typedef void (*findPCRange_t)(LocalAddressSpace &, pint_t, pint_t &pcStart, 57 1.1 joerg pint_t &pcEnd); 58 1.1 joerg 59 1.1 joerg LocalAddressSpace(findPCRange_t findPCRange_) 60 1.1 joerg : findPCRange(findPCRange_), needsReload(true) { 61 1.1 joerg static const rb_tree_ops_t segmentTreeOps = { 62 1.1 joerg rangeCmp, rangeCmpKey, offsetof(Range, range_link), NULL 63 1.1 joerg }; 64 1.1 joerg static const rb_tree_ops_t dsoTreeOps = { 65 1.1 joerg dsoTableCmp, dsoTableCmpKey, offsetof(Range, dso_link), NULL 66 1.1 joerg }; 67 1.1 joerg rb_tree_init(&segmentTree, &segmentTreeOps); 68 1.1 joerg rb_tree_init(&dsoTree, &dsoTreeOps); 69 1.1 joerg pthread_rwlock_init(&fdeTreeLock, NULL); 70 1.1 joerg } 71 1.1 joerg 72 1.1 joerg uint8_t get8(pint_t addr) { return *((uint8_t *)addr); } 73 1.1 joerg 74 1.1 joerg uint16_t get16(pint_t addr) { return *((uint16_t *)addr); } 75 1.1 joerg 76 1.1 joerg uint32_t get32(pint_t addr) { return *((uint32_t *)addr); } 77 1.1 joerg 78 1.1 joerg uint64_t get64(pint_t addr) { return *((uint64_t *)addr); } 79 1.1 joerg 80 1.1 joerg uintptr_t getP(pint_t addr) { 81 1.1 joerg if (sizeof(uintptr_t) == sizeof(uint32_t)) 82 1.1 joerg return get32(addr); 83 1.1 joerg else 84 1.1 joerg return get64(addr); 85 1.1 joerg } 86 1.1 joerg 87 1.1 joerg uint64_t getULEB128(pint_t &addr, pint_t end) { 88 1.1 joerg uint64_t result = 0; 89 1.1 joerg uint8_t byte; 90 1.1 joerg int bit = 0; 91 1.1 joerg do { 92 1.1 joerg uint64_t b; 93 1.1 joerg 94 1.1 joerg assert(addr != end); 95 1.1 joerg 96 1.1 joerg byte = get8(addr++); 97 1.1 joerg b = byte & 0x7f; 98 1.1 joerg 99 1.1 joerg assert(bit < 64); 100 1.1 joerg assert(b << bit >> bit == b); 101 1.1 joerg 102 1.1 joerg result |= b << bit; 103 1.1 joerg bit += 7; 104 1.1 joerg } while (byte >= 0x80); 105 1.1 joerg return result; 106 1.1 joerg } 107 1.1 joerg 108 1.1 joerg int64_t getSLEB128(pint_t &addr, pint_t end) { 109 1.1 joerg uint64_t result = 0; 110 1.1 joerg uint8_t byte; 111 1.1 joerg int bit = 0; 112 1.1 joerg do { 113 1.1 joerg uint64_t b; 114 1.1 joerg 115 1.1 joerg assert(addr != end); 116 1.1 joerg 117 1.1 joerg byte = get8(addr++); 118 1.1 joerg b = byte & 0x7f; 119 1.1 joerg 120 1.1 joerg assert(bit < 64); 121 1.1 joerg assert(b << bit >> bit == b); 122 1.1 joerg 123 1.1 joerg result |= b << bit; 124 1.1 joerg bit += 7; 125 1.1 joerg } while (byte >= 0x80); 126 1.1 joerg // sign extend negative numbers 127 1.1 joerg if ((byte & 0x40) != 0) 128 1.1 joerg result |= (-1LL) << bit; 129 1.1 joerg return result; 130 1.1 joerg } 131 1.1 joerg 132 1.1 joerg pint_t getEncodedP(pint_t &addr, pint_t end, uint8_t encoding, 133 1.1 joerg const unw_proc_info_t *ctx) { 134 1.1 joerg pint_t startAddr = addr; 135 1.1 joerg const uint8_t *p = (uint8_t *)addr; 136 1.1 joerg pint_t result; 137 1.1 joerg 138 1.1 joerg if (encoding == DW_EH_PE_omit) 139 1.1 joerg return 0; 140 1.1 joerg if (encoding == DW_EH_PE_aligned) { 141 1.1 joerg addr = (addr + sizeof(pint_t) - 1) & sizeof(pint_t); 142 1.1 joerg return getP(addr); 143 1.1 joerg } 144 1.1 joerg 145 1.1 joerg // first get value 146 1.1 joerg switch (encoding & 0x0F) { 147 1.1 joerg case DW_EH_PE_ptr: 148 1.1 joerg result = getP(addr); 149 1.1 joerg p += sizeof(pint_t); 150 1.1 joerg addr = (pint_t)p; 151 1.1 joerg break; 152 1.1 joerg case DW_EH_PE_uleb128: 153 1.1 joerg result = getULEB128(addr, end); 154 1.1 joerg break; 155 1.1 joerg case DW_EH_PE_udata2: 156 1.1 joerg result = get16(addr); 157 1.1 joerg p += 2; 158 1.1 joerg addr = (pint_t)p; 159 1.1 joerg break; 160 1.1 joerg case DW_EH_PE_udata4: 161 1.1 joerg result = get32(addr); 162 1.1 joerg p += 4; 163 1.1 joerg addr = (pint_t)p; 164 1.1 joerg break; 165 1.1 joerg case DW_EH_PE_udata8: 166 1.1 joerg result = get64(addr); 167 1.1 joerg p += 8; 168 1.1 joerg addr = (pint_t)p; 169 1.1 joerg break; 170 1.1 joerg case DW_EH_PE_sleb128: 171 1.1 joerg result = getSLEB128(addr, end); 172 1.1 joerg break; 173 1.1 joerg case DW_EH_PE_sdata2: 174 1.1 joerg result = (int16_t)get16(addr); 175 1.1 joerg p += 2; 176 1.1 joerg addr = (pint_t)p; 177 1.1 joerg break; 178 1.1 joerg case DW_EH_PE_sdata4: 179 1.1 joerg result = (int32_t)get32(addr); 180 1.1 joerg p += 4; 181 1.1 joerg addr = (pint_t)p; 182 1.1 joerg break; 183 1.1 joerg case DW_EH_PE_sdata8: 184 1.1 joerg result = get64(addr); 185 1.1 joerg p += 8; 186 1.1 joerg addr = (pint_t)p; 187 1.1 joerg break; 188 1.1 joerg case DW_EH_PE_omit: 189 1.1 joerg result = 0; 190 1.1 joerg break; 191 1.1 joerg default: 192 1.1 joerg assert(0 && "unknown pointer encoding"); 193 1.1 joerg } 194 1.1 joerg 195 1.1 joerg // then add relative offset 196 1.1 joerg switch (encoding & 0x70) { 197 1.1 joerg case DW_EH_PE_absptr: 198 1.1 joerg // do nothing 199 1.1 joerg break; 200 1.1 joerg case DW_EH_PE_pcrel: 201 1.1 joerg result += startAddr; 202 1.1 joerg break; 203 1.1 joerg case DW_EH_PE_textrel: 204 1.1 joerg assert(0 && "DW_EH_PE_textrel pointer encoding not supported"); 205 1.1 joerg break; 206 1.1 joerg case DW_EH_PE_datarel: 207 1.1 joerg assert(ctx != NULL && "DW_EH_PE_datarel without context"); 208 1.1 joerg if (ctx) 209 1.1 joerg result += ctx->data_base; 210 1.1 joerg break; 211 1.1 joerg case DW_EH_PE_funcrel: 212 1.1 joerg assert(ctx != NULL && "DW_EH_PE_funcrel without context"); 213 1.1 joerg if (ctx) 214 1.1 joerg result += ctx->start_ip; 215 1.1 joerg break; 216 1.1 joerg case DW_EH_PE_aligned: 217 1.1 joerg __builtin_unreachable(); 218 1.1 joerg default: 219 1.1 joerg assert(0 && "unknown pointer encoding"); 220 1.1 joerg break; 221 1.1 joerg } 222 1.1 joerg 223 1.1 joerg if (encoding & DW_EH_PE_indirect) 224 1.1 joerg result = getP(result); 225 1.1 joerg 226 1.1 joerg return result; 227 1.1 joerg } 228 1.1 joerg 229 1.1 joerg bool findFDE(pint_t pc, pint_t &fdeStart, pint_t &data_base) { 230 1.1 joerg Range *n; 231 1.1 joerg for (;;) { 232 1.1 joerg pthread_rwlock_rdlock(&fdeTreeLock); 233 1.1 joerg n = (Range *)rb_tree_find_node(&segmentTree, &pc); 234 1.1 joerg pthread_rwlock_unlock(&fdeTreeLock); 235 1.1 joerg if (n != NULL) 236 1.1 joerg break; 237 1.1 joerg if (!needsReload) 238 1.1 joerg break; 239 1.1 joerg lazyReload(); 240 1.1 joerg } 241 1.1 joerg if (n == NULL) 242 1.1 joerg return false; 243 1.1 joerg if (n->hdr_start == 0) { 244 1.1 joerg fdeStart = n->hdr_base; 245 1.1 joerg return true; 246 1.1 joerg } 247 1.1 joerg 248 1.1 joerg pint_t base = n->hdr_base; 249 1.1 joerg pint_t first = n->hdr_start; 250 1.1 joerg pint_t len = n->hdr_entries; 251 1.1 joerg while (len) { 252 1.1 joerg pint_t next = first + ((len + 1) / 2) * 8; 253 1.1 joerg pint_t nextPC = base + (int32_t)get32(next); 254 1.1 joerg if (nextPC == pc) { 255 1.1 joerg first = next; 256 1.1 joerg break; 257 1.1 joerg } 258 1.1 joerg if (nextPC < pc) { 259 1.1 joerg len -= (len + 1) / 2; 260 1.1 joerg first = next; 261 1.1 joerg } else if (len == 1) 262 1.1 joerg break; 263 1.1 joerg else 264 1.1 joerg len = (len + 1) / 2; 265 1.1 joerg } 266 1.1 joerg fdeStart = base + (int32_t)get32(first + 4); 267 1.1 joerg return true; 268 1.1 joerg } 269 1.1 joerg 270 1.1 joerg bool addFDE(pint_t pcStart, pint_t pcEnd, pint_t fde) { 271 1.1 joerg pthread_rwlock_wrlock(&fdeTreeLock); 272 1.1 joerg Range *n = (Range *)malloc(sizeof(*n)); 273 1.1 joerg n->hdr_base = fde; 274 1.1 joerg n->hdr_start = 0; 275 1.1 joerg n->hdr_entries = 0; 276 1.1 joerg n->first_pc = pcStart; 277 1.1 joerg n->last_pc = pcEnd; 278 1.1 joerg n->data_base = 0; 279 1.1 joerg n->ehframe_base = 0; 280 1.1 joerg if (rb_tree_insert_node(&segmentTree, n) == n) { 281 1.1 joerg pthread_rwlock_unlock(&fdeTreeLock); 282 1.1 joerg return true; 283 1.1 joerg } 284 1.1 joerg free(n); 285 1.1 joerg pthread_rwlock_unlock(&fdeTreeLock); 286 1.1 joerg return false; 287 1.1 joerg } 288 1.1 joerg 289 1.1 joerg bool removeFDE(pint_t pcStart, pint_t pcEnd, pint_t fde) { 290 1.1 joerg pthread_rwlock_wrlock(&fdeTreeLock); 291 1.1 joerg Range *n = (Range *)rb_tree_find_node(&segmentTree, &pcStart); 292 1.1 joerg if (n == NULL) { 293 1.1 joerg pthread_rwlock_unlock(&fdeTreeLock); 294 1.1 joerg return false; 295 1.1 joerg } 296 1.1 joerg assert(n->first_pc == pcStart); 297 1.1 joerg assert(n->last_pc == pcEnd); 298 1.1 joerg assert(n->hdr_base == fde); 299 1.1 joerg assert(n->hdr_start == 0); 300 1.1 joerg assert(n->hdr_entries == 0); 301 1.1 joerg assert(n->data_base == 0); 302 1.1 joerg assert(n->ehframe_base == 0); 303 1.1 joerg rb_tree_remove_node(&segmentTree, n); 304 1.1 joerg free(n); 305 1.1 joerg pthread_rwlock_unlock(&fdeTreeLock); 306 1.1 joerg return true; 307 1.1 joerg } 308 1.1 joerg 309 1.1 joerg void removeDSO(pint_t ehFrameBase) { 310 1.1 joerg pthread_rwlock_wrlock(&fdeTreeLock); 311 1.1 joerg Range *n; 312 1.1 joerg n = (Range *)rb_tree_find_node(&dsoTree, &ehFrameBase); 313 1.1 joerg if (n == NULL) { 314 1.1 joerg pthread_rwlock_unlock(&fdeTreeLock); 315 1.1 joerg return; 316 1.1 joerg } 317 1.1 joerg rb_tree_remove_node(&dsoTree, n); 318 1.1 joerg rb_tree_remove_node(&segmentTree, n); 319 1.1 joerg free(n); 320 1.1 joerg pthread_rwlock_unlock(&fdeTreeLock); 321 1.1 joerg } 322 1.1 joerg 323 1.1 joerg void setLazyReload() { 324 1.1 joerg pthread_rwlock_wrlock(&fdeTreeLock); 325 1.1 joerg needsReload = true; 326 1.1 joerg pthread_rwlock_unlock(&fdeTreeLock); 327 1.1 joerg } 328 1.1 joerg 329 1.1 joerg private: 330 1.1 joerg findPCRange_t findPCRange; 331 1.1 joerg bool needsReload; 332 1.1 joerg pthread_rwlock_t fdeTreeLock; 333 1.1 joerg rb_tree_t segmentTree; 334 1.1 joerg rb_tree_t dsoTree; 335 1.1 joerg 336 1.1 joerg friend int phdr_callback(struct dl_phdr_info *, size_t, void *); 337 1.1 joerg friend int rangeCmp(void *, const void *, const void *); 338 1.1 joerg friend int rangeCmpKey(void *, const void *, const void *); 339 1.1 joerg friend int dsoTableCmp(void *, const void *, const void *); 340 1.1 joerg friend int dsoTableCmpKey(void *, const void *, const void *); 341 1.1 joerg 342 1.1 joerg void updateRange(); 343 1.1 joerg 344 1.1 joerg struct Range { 345 1.1 joerg rb_node_t range_link; 346 1.1 joerg rb_node_t dso_link; 347 1.1 joerg pint_t hdr_base; // Pointer to FDE if hdr_start == 0 348 1.1 joerg pint_t hdr_start; 349 1.1 joerg pint_t hdr_entries; 350 1.1 joerg pint_t first_pc; 351 1.1 joerg pint_t last_pc; 352 1.1 joerg pint_t data_base; 353 1.1 joerg pint_t ehframe_base; 354 1.1 joerg }; 355 1.1 joerg 356 1.1 joerg void lazyReload() { 357 1.1 joerg pthread_rwlock_wrlock(&fdeTreeLock); 358 1.1 joerg dl_iterate_phdr(phdr_callback, this); 359 1.1 joerg needsReload = false; 360 1.1 joerg pthread_rwlock_unlock(&fdeTreeLock); 361 1.1 joerg } 362 1.1 joerg 363 1.1 joerg void addDSO(pint_t header, pint_t data_base) { 364 1.1 joerg if (header == 0) 365 1.1 joerg return; 366 1.1 joerg if (get8(header) != 1) 367 1.1 joerg return; 368 1.1 joerg if (get8(header + 3) != (DW_EH_PE_datarel | DW_EH_PE_sdata4)) 369 1.1 joerg return; 370 1.1 joerg pint_t end = header + 4; 371 1.1 joerg pint_t ehframe_base = getEncodedP(end, 0, get8(header + 1), NULL); 372 1.1 joerg pint_t entries = getEncodedP(end, 0, get8(header + 2), NULL); 373 1.1 joerg pint_t start = (end + 3) & ~pint_t(3); 374 1.1 joerg if (entries == 0) 375 1.1 joerg return; 376 1.1 joerg Range *n = (Range *)malloc(sizeof(*n)); 377 1.1 joerg n->hdr_base = header; 378 1.1 joerg n->hdr_start = start; 379 1.1 joerg n->hdr_entries = entries; 380 1.1 joerg n->first_pc = header + (int32_t)get32(n->hdr_start); 381 1.1 joerg pint_t tmp; 382 1.1 joerg (*findPCRange)( 383 1.1 joerg *this, header + (int32_t)get32(n->hdr_start + (entries - 1) * 8 + 4), 384 1.1 joerg tmp, n->last_pc); 385 1.1 joerg n->data_base = data_base; 386 1.1 joerg n->ehframe_base = ehframe_base; 387 1.1 joerg 388 1.1 joerg if (rb_tree_insert_node(&segmentTree, n) != n) { 389 1.1 joerg free(n); 390 1.1 joerg return; 391 1.1 joerg } 392 1.1 joerg rb_tree_insert_node(&dsoTree, n); 393 1.1 joerg } 394 1.1 joerg }; 395 1.1 joerg 396 1.1 joerg static int phdr_callback(struct dl_phdr_info *info, size_t size, void *data_) { 397 1.1 joerg LocalAddressSpace *data = (LocalAddressSpace *)data_; 398 1.1 joerg size_t eh_frame = 0, data_base = 0; 399 1.1 joerg const Elf_Phdr *hdr = info->dlpi_phdr; 400 1.1 joerg const Elf_Phdr *last_hdr = hdr + info->dlpi_phnum; 401 1.1 joerg const Elf_Dyn *dyn; 402 1.1 joerg 403 1.1 joerg for (; hdr != last_hdr; ++hdr) { 404 1.1 joerg switch (hdr->p_type) { 405 1.1 joerg case PT_GNU_EH_FRAME: 406 1.1 joerg eh_frame = info->dlpi_addr + hdr->p_vaddr; 407 1.1 joerg break; 408 1.1 joerg case PT_DYNAMIC: 409 1.1 joerg dyn = (const Elf_Dyn *)(info->dlpi_addr + hdr->p_vaddr); 410 1.1 joerg while (dyn->d_tag != DT_NULL) { 411 1.1 joerg if (dyn->d_tag == DT_PLTGOT) { 412 1.1 joerg data_base = info->dlpi_addr + dyn->d_un.d_ptr; 413 1.1 joerg break; 414 1.1 joerg } 415 1.1 joerg ++dyn; 416 1.1 joerg } 417 1.1 joerg } 418 1.1 joerg } 419 1.1 joerg 420 1.1 joerg if (eh_frame) 421 1.1 joerg data->addDSO(eh_frame, data_base); 422 1.1 joerg 423 1.1 joerg return 0; 424 1.1 joerg } 425 1.1 joerg 426 1.1 joerg static int rangeCmp(void *context, const void *n1_, const void *n2_) { 427 1.1 joerg LocalAddressSpace::Range *n1 = (LocalAddressSpace::Range *)n1_; 428 1.1 joerg LocalAddressSpace::Range *n2 = (LocalAddressSpace::Range *)n2_; 429 1.1 joerg 430 1.1 joerg if (n1->first_pc < n2->first_pc) 431 1.1 joerg return -1; 432 1.1 joerg if (n1->first_pc > n2->first_pc) 433 1.1 joerg return 1; 434 1.1 joerg assert(n1->last_pc == n2->last_pc); 435 1.1 joerg return 0; 436 1.1 joerg } 437 1.1 joerg 438 1.1 joerg static int rangeCmpKey(void *context, const void *n_, const void *pc_) { 439 1.1 joerg LocalAddressSpace::Range *n = (LocalAddressSpace::Range *)n_; 440 1.1 joerg LocalAddressSpace::pint_t *pc = (LocalAddressSpace::pint_t *)pc_; 441 1.1 joerg if (n->last_pc < *pc) 442 1.1 joerg return -1; 443 1.1 joerg if (n->first_pc > *pc) 444 1.1 joerg return 1; 445 1.1 joerg return 0; 446 1.1 joerg } 447 1.1 joerg 448 1.1 joerg static int dsoTableCmp(void *context, const void *n1_, const void *n2_) { 449 1.1 joerg LocalAddressSpace::Range *n1 = (LocalAddressSpace::Range *)n1_; 450 1.1 joerg LocalAddressSpace::Range *n2 = (LocalAddressSpace::Range *)n2_; 451 1.1 joerg 452 1.1 joerg if (n1->ehframe_base < n2->ehframe_base) 453 1.1 joerg return -1; 454 1.1 joerg if (n1->ehframe_base > n2->ehframe_base) 455 1.1 joerg return 1; 456 1.1 joerg return 0; 457 1.1 joerg } 458 1.1 joerg 459 1.1 joerg static int dsoTableCmpKey(void *context, const void *n_, const void *ptr_) { 460 1.1 joerg LocalAddressSpace::Range *n = (LocalAddressSpace::Range *)n_; 461 1.1 joerg LocalAddressSpace::pint_t *ptr = (LocalAddressSpace::pint_t *)ptr_; 462 1.1 joerg if (n->ehframe_base < *ptr) 463 1.1 joerg return -1; 464 1.1 joerg if (n->ehframe_base > *ptr) 465 1.1 joerg return 1; 466 1.1 joerg return 0; 467 1.1 joerg } 468 1.1 joerg 469 1.1 joerg } // namespace _Unwind 470 1.1 joerg 471 1.1 joerg #endif // __ADDRESSSPACE_HPP__ 472
Indexes created Sun Sep 21 20:09:37 GMT 2025