quick_entrypoints_arm64.S revision b048cb74b742b03eb6dd5f1d6dd49e559f730b36
1/* 2 * Copyright (C) 2014 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17#include "asm_support_arm64.S" 18 19#include "arch/quick_alloc_entrypoints.S" 20 21 22.macro INCREASE_FRAME frame_adjustment 23 sub sp, sp, #(\frame_adjustment) 24 .cfi_adjust_cfa_offset (\frame_adjustment) 25.endm 26 27.macro DECREASE_FRAME frame_adjustment 28 add sp, sp, #(\frame_adjustment) 29 .cfi_adjust_cfa_offset -(\frame_adjustment) 30.endm 31 32.macro SAVE_REG reg, offset 33 str \reg, [sp, #(\offset)] 34 .cfi_rel_offset \reg, (\offset) 35.endm 36 37.macro RESTORE_REG reg, offset 38 ldr \reg, [sp, #(\offset)] 39 .cfi_restore \reg 40.endm 41 42.macro SAVE_TWO_REGS reg1, reg2, offset 43 stp \reg1, \reg2, [sp, #(\offset)] 44 .cfi_rel_offset \reg1, (\offset) 45 .cfi_rel_offset \reg2, (\offset) + 8 46.endm 47 48.macro RESTORE_TWO_REGS reg1, reg2, offset 49 ldp \reg1, \reg2, [sp, #(\offset)] 50 .cfi_restore \reg1 51 .cfi_restore \reg2 52.endm 53 54.macro SAVE_TWO_REGS_INCREASE_FRAME reg1, reg2, frame_adjustment 55 stp \reg1, \reg2, [sp, #-(\frame_adjustment)]! 56 .cfi_adjust_cfa_offset (\frame_adjustment) 57 .cfi_rel_offset \reg1, 0 58 .cfi_rel_offset \reg2, 8 59.endm 60 61.macro RESTORE_TWO_REGS_DECREASE_FRAME reg1, reg2, frame_adjustment 62 ldp \reg1, \reg2, [sp], #(\frame_adjustment) 63 .cfi_restore \reg1 64 .cfi_restore \reg2 65 .cfi_adjust_cfa_offset -(\frame_adjustment) 66.endm 67 68 /* 69 * Macro that sets up the callee save frame to conform with 70 * Runtime::CreateCalleeSaveMethod(kSaveAllCalleeSaves) 71 */ 72.macro SETUP_SAVE_ALL_CALLEE_SAVES_FRAME 73 // art::Runtime** xIP0 = &art::Runtime::instance_ 74 adrp xIP0, :got:_ZN3art7Runtime9instance_E 75 ldr xIP0, [xIP0, #:got_lo12:_ZN3art7Runtime9instance_E] 76 77 // Our registers aren't intermixed - just spill in order. 78 ldr xIP0, [xIP0] // art::Runtime* xIP0 = art::Runtime::instance_; 79 80 // ArtMethod* xIP0 = Runtime::instance_->callee_save_methods_[kSaveAllCalleeSaves]; 81 ldr xIP0, [xIP0, RUNTIME_SAVE_ALL_CALLEE_SAVES_METHOD_OFFSET] 82 83 INCREASE_FRAME 176 84 85 // Ugly compile-time check, but we only have the preprocessor. 86#if (FRAME_SIZE_SAVE_ALL_CALLEE_SAVES != 176) 87#error "FRAME_SIZE_SAVE_ALL_CALLEE_SAVES(ARM64) size not as expected." 88#endif 89 90 // Stack alignment filler [sp, #8]. 91 // FP callee-saves. 92 stp d8, d9, [sp, #16] 93 stp d10, d11, [sp, #32] 94 stp d12, d13, [sp, #48] 95 stp d14, d15, [sp, #64] 96 97 // GP callee-saves 98 SAVE_TWO_REGS x19, x20, 80 99 SAVE_TWO_REGS x21, x22, 96 100 SAVE_TWO_REGS x23, x24, 112 101 SAVE_TWO_REGS x25, x26, 128 102 SAVE_TWO_REGS x27, x28, 144 103 SAVE_TWO_REGS x29, xLR, 160 104 105 // Store ArtMethod* Runtime::callee_save_methods_[kSaveAllCalleeSaves]. 106 str xIP0, [sp] 107 // Place sp in Thread::Current()->top_quick_frame. 108 mov xIP0, sp 109 str xIP0, [xSELF, # THREAD_TOP_QUICK_FRAME_OFFSET] 110.endm 111 112 /* 113 * Macro that sets up the callee save frame to conform with 114 * Runtime::CreateCalleeSaveMethod(kSaveRefsOnly). 115 */ 116.macro SETUP_SAVE_REFS_ONLY_FRAME 117 // art::Runtime** xIP0 = &art::Runtime::instance_ 118 adrp xIP0, :got:_ZN3art7Runtime9instance_E 119 ldr xIP0, [xIP0, #:got_lo12:_ZN3art7Runtime9instance_E] 120 121 // Our registers aren't intermixed - just spill in order. 122 ldr xIP0, [xIP0] // art::Runtime* xIP0 = art::Runtime::instance_; 123 124 // ArtMethod* xIP0 = Runtime::instance_->callee_save_methods_[kSaveRefOnly]; 125 ldr xIP0, [xIP0, RUNTIME_SAVE_REFS_ONLY_METHOD_OFFSET] 126 127 INCREASE_FRAME 96 128 129 // Ugly compile-time check, but we only have the preprocessor. 130#if (FRAME_SIZE_SAVE_REFS_ONLY != 96) 131#error "FRAME_SIZE_SAVE_REFS_ONLY(ARM64) size not as expected." 132#endif 133 134 // GP callee-saves. 135 // x20 paired with ArtMethod* - see below. 136 SAVE_TWO_REGS x21, x22, 16 137 SAVE_TWO_REGS x23, x24, 32 138 SAVE_TWO_REGS x25, x26, 48 139 SAVE_TWO_REGS x27, x28, 64 140 SAVE_TWO_REGS x29, xLR, 80 141 142 // Store ArtMethod* Runtime::callee_save_methods_[kSaveRefsOnly]. 143 stp xIP0, x20, [sp] 144 .cfi_rel_offset x20, 8 145 146 // Place sp in Thread::Current()->top_quick_frame. 147 mov xIP0, sp 148 str xIP0, [xSELF, # THREAD_TOP_QUICK_FRAME_OFFSET] 149.endm 150 151// TODO: Probably no need to restore registers preserved by aapcs64. 152.macro RESTORE_SAVE_REFS_ONLY_FRAME 153 // Callee-saves. 154 RESTORE_REG x20, 8 155 RESTORE_TWO_REGS x21, x22, 16 156 RESTORE_TWO_REGS x23, x24, 32 157 RESTORE_TWO_REGS x25, x26, 48 158 RESTORE_TWO_REGS x27, x28, 64 159 RESTORE_TWO_REGS x29, xLR, 80 160 161 DECREASE_FRAME 96 162.endm 163 164.macro POP_SAVE_REFS_ONLY_FRAME 165 DECREASE_FRAME 96 166.endm 167 168.macro RESTORE_SAVE_REFS_ONLY_FRAME_AND_RETURN 169 RESTORE_SAVE_REFS_ONLY_FRAME 170 ret 171.endm 172 173 174.macro SETUP_SAVE_REFS_AND_ARGS_FRAME_INTERNAL 175 INCREASE_FRAME 224 176 177 // Ugly compile-time check, but we only have the preprocessor. 178#if (FRAME_SIZE_SAVE_REFS_AND_ARGS != 224) 179#error "FRAME_SIZE_SAVE_REFS_AND_ARGS(ARM64) size not as expected." 180#endif 181 182 // Stack alignment filler [sp, #8]. 183 // FP args. 184 stp d0, d1, [sp, #16] 185 stp d2, d3, [sp, #32] 186 stp d4, d5, [sp, #48] 187 stp d6, d7, [sp, #64] 188 189 // Core args. 190 SAVE_TWO_REGS x1, x2, 80 191 SAVE_TWO_REGS x3, x4, 96 192 SAVE_TWO_REGS x5, x6, 112 193 194 // x7, Callee-saves. 195 SAVE_TWO_REGS x7, x20, 128 196 SAVE_TWO_REGS x21, x22, 144 197 SAVE_TWO_REGS x23, x24, 160 198 SAVE_TWO_REGS x25, x26, 176 199 SAVE_TWO_REGS x27, x28, 192 200 201 // x29(callee-save) and LR. 202 SAVE_TWO_REGS x29, xLR, 208 203 204.endm 205 206 /* 207 * Macro that sets up the callee save frame to conform with 208 * Runtime::CreateCalleeSaveMethod(kSaveRefsAndArgs). 209 * 210 * TODO This is probably too conservative - saving FP & LR. 211 */ 212.macro SETUP_SAVE_REFS_AND_ARGS_FRAME 213 // art::Runtime** xIP0 = &art::Runtime::instance_ 214 adrp xIP0, :got:_ZN3art7Runtime9instance_E 215 ldr xIP0, [xIP0, #:got_lo12:_ZN3art7Runtime9instance_E] 216 217 // Our registers aren't intermixed - just spill in order. 218 ldr xIP0, [xIP0] // art::Runtime* xIP0 = art::Runtime::instance_; 219 220 // ArtMethod* xIP0 = Runtime::instance_->callee_save_methods_[kSaveRefAndArgs]; 221 ldr xIP0, [xIP0, RUNTIME_SAVE_REFS_AND_ARGS_METHOD_OFFSET] 222 223 SETUP_SAVE_REFS_AND_ARGS_FRAME_INTERNAL 224 225 str xIP0, [sp] // Store ArtMethod* Runtime::callee_save_methods_[kSaveRefsAndArgs]. 226 // Place sp in Thread::Current()->top_quick_frame. 227 mov xIP0, sp 228 str xIP0, [xSELF, # THREAD_TOP_QUICK_FRAME_OFFSET] 229.endm 230 231.macro SETUP_SAVE_REFS_AND_ARGS_FRAME_WITH_METHOD_IN_X0 232 SETUP_SAVE_REFS_AND_ARGS_FRAME_INTERNAL 233 str x0, [sp, #0] // Store ArtMethod* to bottom of stack. 234 // Place sp in Thread::Current()->top_quick_frame. 235 mov xIP0, sp 236 str xIP0, [xSELF, # THREAD_TOP_QUICK_FRAME_OFFSET] 237.endm 238 239// TODO: Probably no need to restore registers preserved by aapcs64. 240.macro RESTORE_SAVE_REFS_AND_ARGS_FRAME 241 // FP args. 242 ldp d0, d1, [sp, #16] 243 ldp d2, d3, [sp, #32] 244 ldp d4, d5, [sp, #48] 245 ldp d6, d7, [sp, #64] 246 247 // Core args. 248 RESTORE_TWO_REGS x1, x2, 80 249 RESTORE_TWO_REGS x3, x4, 96 250 RESTORE_TWO_REGS x5, x6, 112 251 252 // x7, Callee-saves. 253 RESTORE_TWO_REGS x7, x20, 128 254 RESTORE_TWO_REGS x21, x22, 144 255 RESTORE_TWO_REGS x23, x24, 160 256 RESTORE_TWO_REGS x25, x26, 176 257 RESTORE_TWO_REGS x27, x28, 192 258 259 // x29(callee-save) and LR. 260 RESTORE_TWO_REGS x29, xLR, 208 261 262 DECREASE_FRAME 224 263.endm 264 265 /* 266 * Macro that sets up the callee save frame to conform with 267 * Runtime::CreateCalleeSaveMethod(kSaveEverything) 268 * when the SP has already been decremented by FRAME_SIZE_SAVE_EVERYTHING 269 * and saving registers x29 and LR is handled elsewhere. 270 */ 271.macro SETUP_SAVE_EVERYTHING_FRAME_DECREMENTED_SP_SKIP_X29_LR 272 // Ugly compile-time check, but we only have the preprocessor. 273#if (FRAME_SIZE_SAVE_EVERYTHING != 512) 274#error "FRAME_SIZE_SAVE_EVERYTHING(ARM64) size not as expected." 275#endif 276 277 // Save FP registers. 278 // For better performance, store d0 and d31 separately, so that all STPs are 16-byte aligned. 279 str d0, [sp, #8] 280 stp d1, d2, [sp, #16] 281 stp d3, d4, [sp, #32] 282 stp d5, d6, [sp, #48] 283 stp d7, d8, [sp, #64] 284 stp d9, d10, [sp, #80] 285 stp d11, d12, [sp, #96] 286 stp d13, d14, [sp, #112] 287 stp d15, d16, [sp, #128] 288 stp d17, d18, [sp, #144] 289 stp d19, d20, [sp, #160] 290 stp d21, d22, [sp, #176] 291 stp d23, d24, [sp, #192] 292 stp d25, d26, [sp, #208] 293 stp d27, d28, [sp, #224] 294 stp d29, d30, [sp, #240] 295 str d31, [sp, #256] 296 297 // Save core registers. 298 SAVE_REG x0, 264 299 SAVE_TWO_REGS x1, x2, 272 300 SAVE_TWO_REGS x3, x4, 288 301 SAVE_TWO_REGS x5, x6, 304 302 SAVE_TWO_REGS x7, x8, 320 303 SAVE_TWO_REGS x9, x10, 336 304 SAVE_TWO_REGS x11, x12, 352 305 SAVE_TWO_REGS x13, x14, 368 306 SAVE_TWO_REGS x15, x16, 384 307 SAVE_TWO_REGS x17, x18, 400 308 SAVE_TWO_REGS x19, x20, 416 309 SAVE_TWO_REGS x21, x22, 432 310 SAVE_TWO_REGS x23, x24, 448 311 SAVE_TWO_REGS x25, x26, 464 312 SAVE_TWO_REGS x27, x28, 480 313 314 // art::Runtime** xIP0 = &art::Runtime::instance_ 315 adrp xIP0, :got:_ZN3art7Runtime9instance_E 316 ldr xIP0, [xIP0, #:got_lo12:_ZN3art7Runtime9instance_E] 317 318 ldr xIP0, [xIP0] // art::Runtime* xIP0 = art::Runtime::instance_; 319 320 // ArtMethod* xIP0 = Runtime::instance_->callee_save_methods_[kSaveEverything]; 321 ldr xIP0, [xIP0, RUNTIME_SAVE_EVERYTHING_METHOD_OFFSET] 322 323 // Store ArtMethod* Runtime::callee_save_methods_[kSaveEverything]. 324 str xIP0, [sp] 325 // Place sp in Thread::Current()->top_quick_frame. 326 mov xIP0, sp 327 str xIP0, [xSELF, # THREAD_TOP_QUICK_FRAME_OFFSET] 328.endm 329 330 /* 331 * Macro that sets up the callee save frame to conform with 332 * Runtime::CreateCalleeSaveMethod(kSaveEverything) 333 */ 334.macro SETUP_SAVE_EVERYTHING_FRAME 335 INCREASE_FRAME 512 336 SAVE_TWO_REGS x29, xLR, 496 337 SETUP_SAVE_EVERYTHING_FRAME_DECREMENTED_SP_SKIP_X29_LR 338.endm 339 340.macro RESTORE_SAVE_EVERYTHING_FRAME_KEEP_X0 341 // Restore FP registers. 342 // For better performance, load d0 and d31 separately, so that all LDPs are 16-byte aligned. 343 ldr d0, [sp, #8] 344 ldp d1, d2, [sp, #16] 345 ldp d3, d4, [sp, #32] 346 ldp d5, d6, [sp, #48] 347 ldp d7, d8, [sp, #64] 348 ldp d9, d10, [sp, #80] 349 ldp d11, d12, [sp, #96] 350 ldp d13, d14, [sp, #112] 351 ldp d15, d16, [sp, #128] 352 ldp d17, d18, [sp, #144] 353 ldp d19, d20, [sp, #160] 354 ldp d21, d22, [sp, #176] 355 ldp d23, d24, [sp, #192] 356 ldp d25, d26, [sp, #208] 357 ldp d27, d28, [sp, #224] 358 ldp d29, d30, [sp, #240] 359 ldr d31, [sp, #256] 360 361 // Restore core registers. 362 RESTORE_TWO_REGS x1, x2, 272 363 RESTORE_TWO_REGS x3, x4, 288 364 RESTORE_TWO_REGS x5, x6, 304 365 RESTORE_TWO_REGS x7, x8, 320 366 RESTORE_TWO_REGS x9, x10, 336 367 RESTORE_TWO_REGS x11, x12, 352 368 RESTORE_TWO_REGS x13, x14, 368 369 RESTORE_TWO_REGS x15, x16, 384 370 RESTORE_TWO_REGS x17, x18, 400 371 RESTORE_TWO_REGS x19, x20, 416 372 RESTORE_TWO_REGS x21, x22, 432 373 RESTORE_TWO_REGS x23, x24, 448 374 RESTORE_TWO_REGS x25, x26, 464 375 RESTORE_TWO_REGS x27, x28, 480 376 RESTORE_TWO_REGS x29, xLR, 496 377 378 DECREASE_FRAME 512 379.endm 380 381.macro RESTORE_SAVE_EVERYTHING_FRAME 382 RESTORE_REG x0, 264 383 RESTORE_SAVE_EVERYTHING_FRAME_KEEP_X0 384.endm 385 386.macro RETURN_IF_RESULT_IS_ZERO 387 cbnz x0, 1f // result non-zero branch over 388 ret // return 3891: 390.endm 391 392.macro RETURN_IF_RESULT_IS_NON_ZERO 393 cbz x0, 1f // result zero branch over 394 ret // return 3951: 396.endm 397 398 /* 399 * Macro that calls through to artDeliverPendingExceptionFromCode, where the pending 400 * exception is Thread::Current()->exception_ when the runtime method frame is ready. 401 */ 402.macro DELIVER_PENDING_EXCEPTION_FRAME_READY 403 mov x0, xSELF 404 405 // Point of no return. 406 bl artDeliverPendingExceptionFromCode // artDeliverPendingExceptionFromCode(Thread*) 407 brk 0 // Unreached 408.endm 409 410 /* 411 * Macro that calls through to artDeliverPendingExceptionFromCode, where the pending 412 * exception is Thread::Current()->exception_. 413 */ 414.macro DELIVER_PENDING_EXCEPTION 415 SETUP_SAVE_ALL_CALLEE_SAVES_FRAME 416 DELIVER_PENDING_EXCEPTION_FRAME_READY 417.endm 418 419.macro RETURN_OR_DELIVER_PENDING_EXCEPTION_REG reg 420 ldr \reg, [xSELF, # THREAD_EXCEPTION_OFFSET] // Get exception field. 421 cbnz \reg, 1f 422 ret 4231: 424 DELIVER_PENDING_EXCEPTION 425.endm 426 427.macro RETURN_OR_DELIVER_PENDING_EXCEPTION 428 RETURN_OR_DELIVER_PENDING_EXCEPTION_REG xIP0 429.endm 430 431// Same as above with x1. This is helpful in stubs that want to avoid clobbering another register. 432.macro RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 433 RETURN_OR_DELIVER_PENDING_EXCEPTION_REG x1 434.endm 435 436.macro RETURN_IF_W0_IS_ZERO_OR_DELIVER 437 cbnz w0, 1f // result non-zero branch over 438 ret // return 4391: 440 DELIVER_PENDING_EXCEPTION 441.endm 442 443.macro NO_ARG_RUNTIME_EXCEPTION c_name, cxx_name 444 .extern \cxx_name 445ENTRY \c_name 446 SETUP_SAVE_ALL_CALLEE_SAVES_FRAME // save all registers as basis for long jump context 447 mov x0, xSELF // pass Thread::Current 448 bl \cxx_name // \cxx_name(Thread*) 449 brk 0 450END \c_name 451.endm 452 453.macro NO_ARG_RUNTIME_EXCEPTION_SAVE_EVERYTHING c_name, cxx_name 454 .extern \cxx_name 455ENTRY \c_name 456 SETUP_SAVE_EVERYTHING_FRAME // save all registers as basis for long jump context 457 mov x0, xSELF // pass Thread::Current 458 bl \cxx_name // \cxx_name(Thread*) 459 brk 0 460END \c_name 461.endm 462 463.macro ONE_ARG_RUNTIME_EXCEPTION c_name, cxx_name 464 .extern \cxx_name 465ENTRY \c_name 466 SETUP_SAVE_ALL_CALLEE_SAVES_FRAME // save all registers as basis for long jump context. 467 mov x1, xSELF // pass Thread::Current. 468 bl \cxx_name // \cxx_name(arg, Thread*). 469 brk 0 470END \c_name 471.endm 472 473.macro TWO_ARG_RUNTIME_EXCEPTION_SAVE_EVERYTHING c_name, cxx_name 474 .extern \cxx_name 475ENTRY \c_name 476 SETUP_SAVE_EVERYTHING_FRAME // save all registers as basis for long jump context 477 mov x2, xSELF // pass Thread::Current 478 bl \cxx_name // \cxx_name(arg1, arg2, Thread*) 479 brk 0 480END \c_name 481.endm 482 483 /* 484 * Called by managed code, saves callee saves and then calls artThrowException 485 * that will place a mock Method* at the bottom of the stack. Arg1 holds the exception. 486 */ 487ONE_ARG_RUNTIME_EXCEPTION art_quick_deliver_exception, artDeliverExceptionFromCode 488 489 /* 490 * Called by managed code to create and deliver a NullPointerException. 491 */ 492NO_ARG_RUNTIME_EXCEPTION_SAVE_EVERYTHING art_quick_throw_null_pointer_exception, artThrowNullPointerExceptionFromCode 493 494 /* 495 * Call installed by a signal handler to create and deliver a NullPointerException. 496 */ 497 .extern art_quick_throw_null_pointer_exception_from_signal 498ENTRY art_quick_throw_null_pointer_exception_from_signal 499 // The fault handler pushes the gc map address, i.e. "return address", to stack 500 // and passes the fault address in LR. So we need to set up the CFI info accordingly. 501 .cfi_def_cfa_offset __SIZEOF_POINTER__ 502 .cfi_rel_offset lr, 0 503 // Save all registers as basis for long jump context. 504 INCREASE_FRAME (FRAME_SIZE_SAVE_EVERYTHING - __SIZEOF_POINTER__) 505 SAVE_REG x29, (FRAME_SIZE_SAVE_EVERYTHING - 2 * __SIZEOF_POINTER__) // LR already saved. 506 SETUP_SAVE_EVERYTHING_FRAME_DECREMENTED_SP_SKIP_X29_LR 507 mov x0, lr // pass the fault address stored in LR by the fault handler. 508 mov x1, xSELF // pass Thread::Current. 509 bl artThrowNullPointerExceptionFromSignal // (arg, Thread*). 510 brk 0 511END art_quick_throw_null_pointer_exception_from_signal 512 513 /* 514 * Called by managed code to create and deliver an ArithmeticException. 515 */ 516NO_ARG_RUNTIME_EXCEPTION_SAVE_EVERYTHING art_quick_throw_div_zero, artThrowDivZeroFromCode 517 518 /* 519 * Called by managed code to create and deliver an ArrayIndexOutOfBoundsException. Arg1 holds 520 * index, arg2 holds limit. 521 */ 522TWO_ARG_RUNTIME_EXCEPTION_SAVE_EVERYTHING art_quick_throw_array_bounds, artThrowArrayBoundsFromCode 523 524 /* 525 * Called by managed code to create and deliver a StringIndexOutOfBoundsException 526 * as if thrown from a call to String.charAt(). Arg1 holds index, arg2 holds limit. 527 */ 528TWO_ARG_RUNTIME_EXCEPTION_SAVE_EVERYTHING art_quick_throw_string_bounds, artThrowStringBoundsFromCode 529 530 /* 531 * Called by managed code to create and deliver a StackOverflowError. 532 */ 533NO_ARG_RUNTIME_EXCEPTION art_quick_throw_stack_overflow, artThrowStackOverflowFromCode 534 535 /* 536 * All generated callsites for interface invokes and invocation slow paths will load arguments 537 * as usual - except instead of loading arg0/x0 with the target Method*, arg0/x0 will contain 538 * the method_idx. This wrapper will save arg1-arg3, and call the appropriate C helper. 539 * NOTE: "this" is first visible argument of the target, and so can be found in arg1/x1. 540 * 541 * The helper will attempt to locate the target and return a 128-bit result in x0/x1 consisting 542 * of the target Method* in x0 and method->code_ in x1. 543 * 544 * If unsuccessful, the helper will return null/????. There will be a pending exception in the 545 * thread and we branch to another stub to deliver it. 546 * 547 * On success this wrapper will restore arguments and *jump* to the target, leaving the lr 548 * pointing back to the original caller. 549 * 550 * Adapted from ARM32 code. 551 * 552 * Clobbers xIP0. 553 */ 554.macro INVOKE_TRAMPOLINE_BODY cxx_name 555 .extern \cxx_name 556 SETUP_SAVE_REFS_AND_ARGS_FRAME // save callee saves in case allocation triggers GC 557 // Helper signature is always 558 // (method_idx, *this_object, *caller_method, *self, sp) 559 560 mov x2, xSELF // pass Thread::Current 561 mov x3, sp 562 bl \cxx_name // (method_idx, this, Thread*, SP) 563 mov xIP0, x1 // save Method*->code_ 564 RESTORE_SAVE_REFS_AND_ARGS_FRAME 565 cbz x0, 1f // did we find the target? if not go to exception delivery 566 br xIP0 // tail call to target 5671: 568 DELIVER_PENDING_EXCEPTION 569.endm 570.macro INVOKE_TRAMPOLINE c_name, cxx_name 571ENTRY \c_name 572 INVOKE_TRAMPOLINE_BODY \cxx_name 573END \c_name 574.endm 575 576INVOKE_TRAMPOLINE art_quick_invoke_interface_trampoline_with_access_check, artInvokeInterfaceTrampolineWithAccessCheck 577 578INVOKE_TRAMPOLINE art_quick_invoke_static_trampoline_with_access_check, artInvokeStaticTrampolineWithAccessCheck 579INVOKE_TRAMPOLINE art_quick_invoke_direct_trampoline_with_access_check, artInvokeDirectTrampolineWithAccessCheck 580INVOKE_TRAMPOLINE art_quick_invoke_super_trampoline_with_access_check, artInvokeSuperTrampolineWithAccessCheck 581INVOKE_TRAMPOLINE art_quick_invoke_virtual_trampoline_with_access_check, artInvokeVirtualTrampolineWithAccessCheck 582 583 584.macro INVOKE_STUB_CREATE_FRAME 585 586SAVE_SIZE=15*8 // x4, x5, x19, x20, x21, x22, x23, x24, x25, x26, x27, x28, SP, LR, FP saved. 587SAVE_SIZE_AND_METHOD=SAVE_SIZE+8 588 589 590 mov x9, sp // Save stack pointer. 591 .cfi_register sp,x9 592 593 add x10, x2, # SAVE_SIZE_AND_METHOD // calculate size of frame. 594 sub x10, sp, x10 // Calculate SP position - saves + ArtMethod* + args 595 and x10, x10, # ~0xf // Enforce 16 byte stack alignment. 596 mov sp, x10 // Set new SP. 597 598 sub x10, x9, #SAVE_SIZE // Calculate new FP (later). Done here as we must move SP 599 .cfi_def_cfa_register x10 // before this. 600 .cfi_adjust_cfa_offset SAVE_SIZE 601 602 str x28, [x10, #112] 603 .cfi_rel_offset x28, 112 604 605 stp x26, x27, [x10, #96] 606 .cfi_rel_offset x26, 96 607 .cfi_rel_offset x27, 104 608 609 stp x24, x25, [x10, #80] 610 .cfi_rel_offset x24, 80 611 .cfi_rel_offset x25, 88 612 613 stp x22, x23, [x10, #64] 614 .cfi_rel_offset x22, 64 615 .cfi_rel_offset x23, 72 616 617 stp x20, x21, [x10, #48] 618 .cfi_rel_offset x20, 48 619 .cfi_rel_offset x21, 56 620 621 stp x9, x19, [x10, #32] // Save old stack pointer and x19. 622 .cfi_rel_offset sp, 32 623 .cfi_rel_offset x19, 40 624 625 stp x4, x5, [x10, #16] // Save result and shorty addresses. 626 .cfi_rel_offset x4, 16 627 .cfi_rel_offset x5, 24 628 629 stp xFP, xLR, [x10] // Store LR & FP. 630 .cfi_rel_offset x29, 0 631 .cfi_rel_offset x30, 8 632 633 mov xFP, x10 // Use xFP now, as it's callee-saved. 634 .cfi_def_cfa_register x29 635 mov xSELF, x3 // Move thread pointer into SELF register. 636 637 // Copy arguments into stack frame. 638 // Use simple copy routine for now. 639 // 4 bytes per slot. 640 // X1 - source address 641 // W2 - args length 642 // X9 - destination address. 643 // W10 - temporary 644 add x9, sp, #8 // Destination address is bottom of stack + null. 645 646 // Copy parameters into the stack. Use numeric label as this is a macro and Clang's assembler 647 // does not have unique-id variables. 6481: 649 cmp w2, #0 650 beq 2f 651 sub w2, w2, #4 // Need 65536 bytes of range. 652 ldr w10, [x1, x2] 653 str w10, [x9, x2] 654 655 b 1b 656 6572: 658 // Store null into ArtMethod* at bottom of frame. 659 str xzr, [sp] 660.endm 661 662.macro INVOKE_STUB_CALL_AND_RETURN 663 664 // load method-> METHOD_QUICK_CODE_OFFSET 665 ldr x9, [x0, #ART_METHOD_QUICK_CODE_OFFSET_64] 666 // Branch to method. 667 blr x9 668 669 // Restore return value address and shorty address. 670 ldp x4,x5, [xFP, #16] 671 .cfi_restore x4 672 .cfi_restore x5 673 674 ldr x28, [xFP, #112] 675 .cfi_restore x28 676 677 ldp x26, x27, [xFP, #96] 678 .cfi_restore x26 679 .cfi_restore x27 680 681 ldp x24, x25, [xFP, #80] 682 .cfi_restore x24 683 .cfi_restore x25 684 685 ldp x22, x23, [xFP, #64] 686 .cfi_restore x22 687 .cfi_restore x23 688 689 ldp x20, x21, [xFP, #48] 690 .cfi_restore x20 691 .cfi_restore x21 692 693 // Store result (w0/x0/s0/d0) appropriately, depending on resultType. 694 ldrb w10, [x5] 695 696 // Check the return type and store the correct register into the jvalue in memory. 697 // Use numeric label as this is a macro and Clang's assembler does not have unique-id variables. 698 699 // Don't set anything for a void type. 700 cmp w10, #'V' 701 beq 3f 702 703 // Is it a double? 704 cmp w10, #'D' 705 bne 1f 706 str d0, [x4] 707 b 3f 708 7091: // Is it a float? 710 cmp w10, #'F' 711 bne 2f 712 str s0, [x4] 713 b 3f 714 7152: // Just store x0. Doesn't matter if it is 64 or 32 bits. 716 str x0, [x4] 717 7183: // Finish up. 719 ldp x2, x19, [xFP, #32] // Restore stack pointer and x19. 720 .cfi_restore x19 721 mov sp, x2 722 .cfi_restore sp 723 724 ldp xFP, xLR, [xFP] // Restore old frame pointer and link register. 725 .cfi_restore x29 726 .cfi_restore x30 727 728 ret 729 730.endm 731 732 733/* 734 * extern"C" void art_quick_invoke_stub(ArtMethod *method, x0 735 * uint32_t *args, x1 736 * uint32_t argsize, w2 737 * Thread *self, x3 738 * JValue *result, x4 739 * char *shorty); x5 740 * +----------------------+ 741 * | | 742 * | C/C++ frame | 743 * | LR'' | 744 * | FP'' | <- SP' 745 * +----------------------+ 746 * +----------------------+ 747 * | x28 | <- TODO: Remove callee-saves. 748 * | : | 749 * | x19 | 750 * | SP' | 751 * | X5 | 752 * | X4 | Saved registers 753 * | LR' | 754 * | FP' | <- FP 755 * +----------------------+ 756 * | uint32_t out[n-1] | 757 * | : : | Outs 758 * | uint32_t out[0] | 759 * | ArtMethod* | <- SP value=null 760 * +----------------------+ 761 * 762 * Outgoing registers: 763 * x0 - Method* 764 * x1-x7 - integer parameters. 765 * d0-d7 - Floating point parameters. 766 * xSELF = self 767 * SP = & of ArtMethod* 768 * x1 = "this" pointer. 769 * 770 */ 771ENTRY art_quick_invoke_stub 772 // Spill registers as per AACPS64 calling convention. 773 INVOKE_STUB_CREATE_FRAME 774 775 // Fill registers x/w1 to x/w7 and s/d0 to s/d7 with parameters. 776 // Parse the passed shorty to determine which register to load. 777 // Load addresses for routines that load WXSD registers. 778 adr x11, .LstoreW2 779 adr x12, .LstoreX2 780 adr x13, .LstoreS0 781 adr x14, .LstoreD0 782 783 // Initialize routine offsets to 0 for integers and floats. 784 // x8 for integers, x15 for floating point. 785 mov x8, #0 786 mov x15, #0 787 788 add x10, x5, #1 // Load shorty address, plus one to skip return value. 789 ldr w1, [x9],#4 // Load "this" parameter, and increment arg pointer. 790 791 // Loop to fill registers. 792.LfillRegisters: 793 ldrb w17, [x10], #1 // Load next character in signature, and increment. 794 cbz w17, .LcallFunction // Exit at end of signature. Shorty 0 terminated. 795 796 cmp w17, #'F' // is this a float? 797 bne .LisDouble 798 799 cmp x15, # 8*12 // Skip this load if all registers full. 800 beq .Ladvance4 801 802 add x17, x13, x15 // Calculate subroutine to jump to. 803 br x17 804 805.LisDouble: 806 cmp w17, #'D' // is this a double? 807 bne .LisLong 808 809 cmp x15, # 8*12 // Skip this load if all registers full. 810 beq .Ladvance8 811 812 add x17, x14, x15 // Calculate subroutine to jump to. 813 br x17 814 815.LisLong: 816 cmp w17, #'J' // is this a long? 817 bne .LisOther 818 819 cmp x8, # 6*12 // Skip this load if all registers full. 820 beq .Ladvance8 821 822 add x17, x12, x8 // Calculate subroutine to jump to. 823 br x17 824 825.LisOther: // Everything else takes one vReg. 826 cmp x8, # 6*12 // Skip this load if all registers full. 827 beq .Ladvance4 828 829 add x17, x11, x8 // Calculate subroutine to jump to. 830 br x17 831 832.Ladvance4: 833 add x9, x9, #4 834 b .LfillRegisters 835 836.Ladvance8: 837 add x9, x9, #8 838 b .LfillRegisters 839 840// Macro for loading a parameter into a register. 841// counter - the register with offset into these tables 842// size - the size of the register - 4 or 8 bytes. 843// register - the name of the register to be loaded. 844.macro LOADREG counter size register return 845 ldr \register , [x9], #\size 846 add \counter, \counter, 12 847 b \return 848.endm 849 850// Store ints. 851.LstoreW2: 852 LOADREG x8 4 w2 .LfillRegisters 853 LOADREG x8 4 w3 .LfillRegisters 854 LOADREG x8 4 w4 .LfillRegisters 855 LOADREG x8 4 w5 .LfillRegisters 856 LOADREG x8 4 w6 .LfillRegisters 857 LOADREG x8 4 w7 .LfillRegisters 858 859// Store longs. 860.LstoreX2: 861 LOADREG x8 8 x2 .LfillRegisters 862 LOADREG x8 8 x3 .LfillRegisters 863 LOADREG x8 8 x4 .LfillRegisters 864 LOADREG x8 8 x5 .LfillRegisters 865 LOADREG x8 8 x6 .LfillRegisters 866 LOADREG x8 8 x7 .LfillRegisters 867 868// Store singles. 869.LstoreS0: 870 LOADREG x15 4 s0 .LfillRegisters 871 LOADREG x15 4 s1 .LfillRegisters 872 LOADREG x15 4 s2 .LfillRegisters 873 LOADREG x15 4 s3 .LfillRegisters 874 LOADREG x15 4 s4 .LfillRegisters 875 LOADREG x15 4 s5 .LfillRegisters 876 LOADREG x15 4 s6 .LfillRegisters 877 LOADREG x15 4 s7 .LfillRegisters 878 879// Store doubles. 880.LstoreD0: 881 LOADREG x15 8 d0 .LfillRegisters 882 LOADREG x15 8 d1 .LfillRegisters 883 LOADREG x15 8 d2 .LfillRegisters 884 LOADREG x15 8 d3 .LfillRegisters 885 LOADREG x15 8 d4 .LfillRegisters 886 LOADREG x15 8 d5 .LfillRegisters 887 LOADREG x15 8 d6 .LfillRegisters 888 LOADREG x15 8 d7 .LfillRegisters 889 890 891.LcallFunction: 892 893 INVOKE_STUB_CALL_AND_RETURN 894 895END art_quick_invoke_stub 896 897/* extern"C" 898 * void art_quick_invoke_static_stub(ArtMethod *method, x0 899 * uint32_t *args, x1 900 * uint32_t argsize, w2 901 * Thread *self, x3 902 * JValue *result, x4 903 * char *shorty); x5 904 */ 905ENTRY art_quick_invoke_static_stub 906 // Spill registers as per AACPS64 calling convention. 907 INVOKE_STUB_CREATE_FRAME 908 909 // Fill registers x/w1 to x/w7 and s/d0 to s/d7 with parameters. 910 // Parse the passed shorty to determine which register to load. 911 // Load addresses for routines that load WXSD registers. 912 adr x11, .LstoreW1_2 913 adr x12, .LstoreX1_2 914 adr x13, .LstoreS0_2 915 adr x14, .LstoreD0_2 916 917 // Initialize routine offsets to 0 for integers and floats. 918 // x8 for integers, x15 for floating point. 919 mov x8, #0 920 mov x15, #0 921 922 add x10, x5, #1 // Load shorty address, plus one to skip return value. 923 924 // Loop to fill registers. 925.LfillRegisters2: 926 ldrb w17, [x10], #1 // Load next character in signature, and increment. 927 cbz w17, .LcallFunction2 // Exit at end of signature. Shorty 0 terminated. 928 929 cmp w17, #'F' // is this a float? 930 bne .LisDouble2 931 932 cmp x15, # 8*12 // Skip this load if all registers full. 933 beq .Ladvance4_2 934 935 add x17, x13, x15 // Calculate subroutine to jump to. 936 br x17 937 938.LisDouble2: 939 cmp w17, #'D' // is this a double? 940 bne .LisLong2 941 942 cmp x15, # 8*12 // Skip this load if all registers full. 943 beq .Ladvance8_2 944 945 add x17, x14, x15 // Calculate subroutine to jump to. 946 br x17 947 948.LisLong2: 949 cmp w17, #'J' // is this a long? 950 bne .LisOther2 951 952 cmp x8, # 7*12 // Skip this load if all registers full. 953 beq .Ladvance8_2 954 955 add x17, x12, x8 // Calculate subroutine to jump to. 956 br x17 957 958.LisOther2: // Everything else takes one vReg. 959 cmp x8, # 7*12 // Skip this load if all registers full. 960 beq .Ladvance4_2 961 962 add x17, x11, x8 // Calculate subroutine to jump to. 963 br x17 964 965.Ladvance4_2: 966 add x9, x9, #4 967 b .LfillRegisters2 968 969.Ladvance8_2: 970 add x9, x9, #8 971 b .LfillRegisters2 972 973// Store ints. 974.LstoreW1_2: 975 LOADREG x8 4 w1 .LfillRegisters2 976 LOADREG x8 4 w2 .LfillRegisters2 977 LOADREG x8 4 w3 .LfillRegisters2 978 LOADREG x8 4 w4 .LfillRegisters2 979 LOADREG x8 4 w5 .LfillRegisters2 980 LOADREG x8 4 w6 .LfillRegisters2 981 LOADREG x8 4 w7 .LfillRegisters2 982 983// Store longs. 984.LstoreX1_2: 985 LOADREG x8 8 x1 .LfillRegisters2 986 LOADREG x8 8 x2 .LfillRegisters2 987 LOADREG x8 8 x3 .LfillRegisters2 988 LOADREG x8 8 x4 .LfillRegisters2 989 LOADREG x8 8 x5 .LfillRegisters2 990 LOADREG x8 8 x6 .LfillRegisters2 991 LOADREG x8 8 x7 .LfillRegisters2 992 993// Store singles. 994.LstoreS0_2: 995 LOADREG x15 4 s0 .LfillRegisters2 996 LOADREG x15 4 s1 .LfillRegisters2 997 LOADREG x15 4 s2 .LfillRegisters2 998 LOADREG x15 4 s3 .LfillRegisters2 999 LOADREG x15 4 s4 .LfillRegisters2 1000 LOADREG x15 4 s5 .LfillRegisters2 1001 LOADREG x15 4 s6 .LfillRegisters2 1002 LOADREG x15 4 s7 .LfillRegisters2 1003 1004// Store doubles. 1005.LstoreD0_2: 1006 LOADREG x15 8 d0 .LfillRegisters2 1007 LOADREG x15 8 d1 .LfillRegisters2 1008 LOADREG x15 8 d2 .LfillRegisters2 1009 LOADREG x15 8 d3 .LfillRegisters2 1010 LOADREG x15 8 d4 .LfillRegisters2 1011 LOADREG x15 8 d5 .LfillRegisters2 1012 LOADREG x15 8 d6 .LfillRegisters2 1013 LOADREG x15 8 d7 .LfillRegisters2 1014 1015 1016.LcallFunction2: 1017 1018 INVOKE_STUB_CALL_AND_RETURN 1019 1020END art_quick_invoke_static_stub 1021 1022 1023 1024/* extern"C" void art_quick_osr_stub(void** stack, x0 1025 * size_t stack_size_in_bytes, x1 1026 * const uin8_t* native_pc, x2 1027 * JValue *result, x3 1028 * char *shorty, x4 1029 * Thread *self) x5 1030 */ 1031ENTRY art_quick_osr_stub 1032SAVE_SIZE=15*8 // x3, x4, x19, x20, x21, x22, x23, x24, x25, x26, x27, x28, SP, LR, FP saved. 1033 mov x9, sp // Save stack pointer. 1034 .cfi_register sp,x9 1035 1036 sub x10, sp, # SAVE_SIZE 1037 and x10, x10, # ~0xf // Enforce 16 byte stack alignment. 1038 mov sp, x10 // Set new SP. 1039 1040 str x28, [sp, #112] 1041 stp x26, x27, [sp, #96] 1042 stp x24, x25, [sp, #80] 1043 stp x22, x23, [sp, #64] 1044 stp x20, x21, [sp, #48] 1045 stp x9, x19, [sp, #32] // Save old stack pointer and x19. 1046 stp x3, x4, [sp, #16] // Save result and shorty addresses. 1047 stp xFP, xLR, [sp] // Store LR & FP. 1048 mov xSELF, x5 // Move thread pointer into SELF register. 1049 1050 sub sp, sp, #16 1051 str xzr, [sp] // Store null for ArtMethod* slot 1052 // Branch to stub. 1053 bl .Losr_entry 1054 add sp, sp, #16 1055 1056 // Restore return value address and shorty address. 1057 ldp x3,x4, [sp, #16] 1058 ldr x28, [sp, #112] 1059 ldp x26, x27, [sp, #96] 1060 ldp x24, x25, [sp, #80] 1061 ldp x22, x23, [sp, #64] 1062 ldp x20, x21, [sp, #48] 1063 1064 // Store result (w0/x0/s0/d0) appropriately, depending on resultType. 1065 ldrb w10, [x4] 1066 1067 // Check the return type and store the correct register into the jvalue in memory. 1068 1069 // Don't set anything for a void type. 1070 cmp w10, #'V' 1071 beq .Losr_exit 1072 1073 // Is it a double? 1074 cmp w10, #'D' 1075 bne .Lno_double 1076 str d0, [x3] 1077 b .Losr_exit 1078 1079.Lno_double: // Is it a float? 1080 cmp w10, #'F' 1081 bne .Lno_float 1082 str s0, [x3] 1083 b .Losr_exit 1084 1085.Lno_float: // Just store x0. Doesn't matter if it is 64 or 32 bits. 1086 str x0, [x3] 1087 1088.Losr_exit: // Finish up. 1089 ldp x2, x19, [sp, #32] // Restore stack pointer and x19. 1090 ldp xFP, xLR, [sp] // Restore old frame pointer and link register. 1091 mov sp, x2 1092 ret 1093 1094.Losr_entry: 1095 // Update stack pointer for the callee 1096 sub sp, sp, x1 1097 1098 // Update link register slot expected by the callee. 1099 sub w1, w1, #8 1100 str lr, [sp, x1] 1101 1102 // Copy arguments into stack frame. 1103 // Use simple copy routine for now. 1104 // 4 bytes per slot. 1105 // X0 - source address 1106 // W1 - args length 1107 // SP - destination address. 1108 // W10 - temporary 1109.Losr_loop_entry: 1110 cmp w1, #0 1111 beq .Losr_loop_exit 1112 sub w1, w1, #4 1113 ldr w10, [x0, x1] 1114 str w10, [sp, x1] 1115 b .Losr_loop_entry 1116 1117.Losr_loop_exit: 1118 // Branch to the OSR entry point. 1119 br x2 1120 1121END art_quick_osr_stub 1122 1123 /* 1124 * On entry x0 is uintptr_t* gprs_ and x1 is uint64_t* fprs_ 1125 */ 1126 1127ENTRY art_quick_do_long_jump 1128 // Load FPRs 1129 ldp d0, d1, [x1], #16 1130 ldp d2, d3, [x1], #16 1131 ldp d4, d5, [x1], #16 1132 ldp d6, d7, [x1], #16 1133 ldp d8, d9, [x1], #16 1134 ldp d10, d11, [x1], #16 1135 ldp d12, d13, [x1], #16 1136 ldp d14, d15, [x1], #16 1137 ldp d16, d17, [x1], #16 1138 ldp d18, d19, [x1], #16 1139 ldp d20, d21, [x1], #16 1140 ldp d22, d23, [x1], #16 1141 ldp d24, d25, [x1], #16 1142 ldp d26, d27, [x1], #16 1143 ldp d28, d29, [x1], #16 1144 ldp d30, d31, [x1] 1145 1146 // Load GPRs 1147 // TODO: lots of those are smashed, could optimize. 1148 add x0, x0, #30*8 1149 ldp x30, x1, [x0], #-16 // LR & SP 1150 ldp x28, x29, [x0], #-16 1151 ldp x26, x27, [x0], #-16 1152 ldp x24, x25, [x0], #-16 1153 ldp x22, x23, [x0], #-16 1154 ldp x20, x21, [x0], #-16 1155 ldp x18, x19, [x0], #-16 1156 ldp x16, x17, [x0], #-16 1157 ldp x14, x15, [x0], #-16 1158 ldp x12, x13, [x0], #-16 1159 ldp x10, x11, [x0], #-16 1160 ldp x8, x9, [x0], #-16 1161 ldp x6, x7, [x0], #-16 1162 ldp x4, x5, [x0], #-16 1163 ldp x2, x3, [x0], #-16 1164 mov sp, x1 1165 1166 // Need to load PC, it's at the end (after the space for the unused XZR). Use x1. 1167 ldr x1, [x0, #33*8] 1168 // And the value of x0. 1169 ldr x0, [x0] 1170 1171 br x1 1172END art_quick_do_long_jump 1173 1174 /* 1175 * Entry from managed code that calls artLockObjectFromCode, may block for GC. x0 holds the 1176 * possibly null object to lock. 1177 * 1178 * Derived from arm32 code. 1179 */ 1180 .extern artLockObjectFromCode 1181ENTRY art_quick_lock_object 1182 cbz w0, .Lslow_lock 1183 add x4, x0, #MIRROR_OBJECT_LOCK_WORD_OFFSET // exclusive load/store has no immediate anymore 1184.Lretry_lock: 1185 ldr w2, [xSELF, #THREAD_ID_OFFSET] // TODO: Can the thread ID really change during the loop? 1186 ldxr w1, [x4] 1187 mov x3, x1 1188 and w3, w3, #LOCK_WORD_GC_STATE_MASK_SHIFTED_TOGGLED // zero the gc bits 1189 cbnz w3, .Lnot_unlocked // already thin locked 1190 // unlocked case - x1: original lock word that's zero except for the read barrier bits. 1191 orr x2, x1, x2 // x2 holds thread id with count of 0 with preserved read barrier bits 1192 stxr w3, w2, [x4] 1193 cbnz w3, .Llock_stxr_fail // store failed, retry 1194 dmb ishld // full (LoadLoad|LoadStore) memory barrier 1195 ret 1196.Lnot_unlocked: // x1: original lock word 1197 lsr w3, w1, LOCK_WORD_STATE_SHIFT 1198 cbnz w3, .Lslow_lock // if either of the top two bits are set, go slow path 1199 eor w2, w1, w2 // lock_word.ThreadId() ^ self->ThreadId() 1200 uxth w2, w2 // zero top 16 bits 1201 cbnz w2, .Lslow_lock // lock word and self thread id's match -> recursive lock 1202 // else contention, go to slow path 1203 mov x3, x1 // copy the lock word to check count overflow. 1204 and w3, w3, #LOCK_WORD_GC_STATE_MASK_SHIFTED_TOGGLED // zero the gc bits. 1205 add w2, w3, #LOCK_WORD_THIN_LOCK_COUNT_ONE // increment count in lock word placing in w2 to check overflow 1206 lsr w3, w2, #LOCK_WORD_GC_STATE_SHIFT // if the first gc state bit is set, we overflowed. 1207 cbnz w3, .Lslow_lock // if we overflow the count go slow path 1208 add w2, w1, #LOCK_WORD_THIN_LOCK_COUNT_ONE // increment count for real 1209 stxr w3, w2, [x4] 1210 cbnz w3, .Llock_stxr_fail // store failed, retry 1211 ret 1212.Llock_stxr_fail: 1213 b .Lretry_lock // retry 1214.Lslow_lock: 1215 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case we block 1216 mov x1, xSELF // pass Thread::Current 1217 bl artLockObjectFromCode // (Object* obj, Thread*) 1218 RESTORE_SAVE_REFS_ONLY_FRAME 1219 RETURN_IF_W0_IS_ZERO_OR_DELIVER 1220END art_quick_lock_object 1221 1222ENTRY art_quick_lock_object_no_inline 1223 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case we block 1224 mov x1, xSELF // pass Thread::Current 1225 bl artLockObjectFromCode // (Object* obj, Thread*) 1226 RESTORE_SAVE_REFS_ONLY_FRAME 1227 RETURN_IF_W0_IS_ZERO_OR_DELIVER 1228END art_quick_lock_object_no_inline 1229 1230 /* 1231 * Entry from managed code that calls artUnlockObjectFromCode and delivers exception on failure. 1232 * x0 holds the possibly null object to lock. 1233 * 1234 * Derived from arm32 code. 1235 */ 1236 .extern artUnlockObjectFromCode 1237ENTRY art_quick_unlock_object 1238 cbz x0, .Lslow_unlock 1239 add x4, x0, #MIRROR_OBJECT_LOCK_WORD_OFFSET // exclusive load/store has no immediate anymore 1240.Lretry_unlock: 1241#ifndef USE_READ_BARRIER 1242 ldr w1, [x4] 1243#else 1244 ldxr w1, [x4] // Need to use atomic instructions for read barrier 1245#endif 1246 lsr w2, w1, LOCK_WORD_STATE_SHIFT 1247 cbnz w2, .Lslow_unlock // if either of the top two bits are set, go slow path 1248 ldr w2, [xSELF, #THREAD_ID_OFFSET] 1249 mov x3, x1 // copy lock word to check thread id equality 1250 and w3, w3, #LOCK_WORD_GC_STATE_MASK_SHIFTED_TOGGLED // zero the gc bits 1251 eor w3, w3, w2 // lock_word.ThreadId() ^ self->ThreadId() 1252 uxth w3, w3 // zero top 16 bits 1253 cbnz w3, .Lslow_unlock // do lock word and self thread id's match? 1254 mov x3, x1 // copy lock word to detect transition to unlocked 1255 and w3, w3, #LOCK_WORD_GC_STATE_MASK_SHIFTED_TOGGLED // zero the gc bits 1256 cmp w3, #LOCK_WORD_THIN_LOCK_COUNT_ONE 1257 bpl .Lrecursive_thin_unlock 1258 // transition to unlocked 1259 mov x3, x1 1260 and w3, w3, #LOCK_WORD_GC_STATE_MASK_SHIFTED // w3: zero except for the preserved read barrier bits 1261 dmb ish // full (LoadStore|StoreStore) memory barrier 1262#ifndef USE_READ_BARRIER 1263 str w3, [x4] 1264#else 1265 stxr w2, w3, [x4] // Need to use atomic instructions for read barrier 1266 cbnz w2, .Lunlock_stxr_fail // store failed, retry 1267#endif 1268 ret 1269.Lrecursive_thin_unlock: // w1: original lock word 1270 sub w1, w1, #LOCK_WORD_THIN_LOCK_COUNT_ONE // decrement count 1271#ifndef USE_READ_BARRIER 1272 str w1, [x4] 1273#else 1274 stxr w2, w1, [x4] // Need to use atomic instructions for read barrier 1275 cbnz w2, .Lunlock_stxr_fail // store failed, retry 1276#endif 1277 ret 1278.Lunlock_stxr_fail: 1279 b .Lretry_unlock // retry 1280.Lslow_unlock: 1281 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case exception allocation triggers GC 1282 mov x1, xSELF // pass Thread::Current 1283 bl artUnlockObjectFromCode // (Object* obj, Thread*) 1284 RESTORE_SAVE_REFS_ONLY_FRAME 1285 RETURN_IF_W0_IS_ZERO_OR_DELIVER 1286END art_quick_unlock_object 1287 1288ENTRY art_quick_unlock_object_no_inline 1289 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case exception allocation triggers GC 1290 mov x1, xSELF // pass Thread::Current 1291 bl artUnlockObjectFromCode // (Object* obj, Thread*) 1292 RESTORE_SAVE_REFS_ONLY_FRAME 1293 RETURN_IF_W0_IS_ZERO_OR_DELIVER 1294END art_quick_unlock_object_no_inline 1295 1296 /* 1297 * Entry from managed code that calls artInstanceOfFromCode and on failure calls 1298 * artThrowClassCastExceptionForObject. 1299 */ 1300 .extern artInstanceOfFromCode 1301 .extern artThrowClassCastExceptionForObject 1302ENTRY art_quick_check_instance_of 1303 // Store arguments and link register 1304 // Stack needs to be 16B aligned on calls. 1305 SAVE_TWO_REGS_INCREASE_FRAME x0, x1, 32 1306 SAVE_REG xLR, 24 1307 1308 // Call runtime code 1309 bl artInstanceOfFromCode 1310 1311 // Check for exception 1312 cbz x0, .Lthrow_class_cast_exception 1313 1314 // Restore and return 1315 .cfi_remember_state 1316 RESTORE_REG xLR, 24 1317 RESTORE_TWO_REGS_DECREASE_FRAME x0, x1, 32 1318 ret 1319 .cfi_restore_state // Reset unwind info so following code unwinds. 1320 .cfi_def_cfa_offset 32 // workaround for clang bug: 31975598 1321 1322.Lthrow_class_cast_exception: 1323 // Restore 1324 RESTORE_REG xLR, 24 1325 RESTORE_TWO_REGS_DECREASE_FRAME x0, x1, 32 1326 1327 SETUP_SAVE_ALL_CALLEE_SAVES_FRAME // save all registers as basis for long jump context 1328 mov x2, xSELF // pass Thread::Current 1329 bl artThrowClassCastExceptionForObject // (Object*, Class*, Thread*) 1330 brk 0 // We should not return here... 1331END art_quick_check_instance_of 1332 1333// Restore xReg's value from [sp, #offset] if xReg is not the same as xExclude. 1334.macro POP_REG_NE xReg, offset, xExclude 1335 .ifnc \xReg, \xExclude 1336 ldr \xReg, [sp, #\offset] // restore xReg 1337 .cfi_restore \xReg 1338 .endif 1339.endm 1340 1341// Restore xReg1's value from [sp, #offset] if xReg1 is not the same as xExclude. 1342// Restore xReg2's value from [sp, #(offset + 8)] if xReg2 is not the same as xExclude. 1343.macro POP_REGS_NE xReg1, xReg2, offset, xExclude 1344 .ifc \xReg1, \xExclude 1345 ldr \xReg2, [sp, #(\offset + 8)] // restore xReg2 1346 .else 1347 .ifc \xReg2, \xExclude 1348 ldr \xReg1, [sp, #\offset] // restore xReg1 1349 .else 1350 ldp \xReg1, \xReg2, [sp, #\offset] // restore xReg1 and xReg2 1351 .endif 1352 .endif 1353 .cfi_restore \xReg1 1354 .cfi_restore \xReg2 1355.endm 1356 1357 /* 1358 * Macro to insert read barrier, only used in art_quick_aput_obj. 1359 * xDest, wDest and xObj are registers, offset is a defined literal such as 1360 * MIRROR_OBJECT_CLASS_OFFSET. Dest needs both x and w versions of the same register to handle 1361 * name mismatch between instructions. This macro uses the lower 32b of register when possible. 1362 * TODO: When read barrier has a fast path, add heap unpoisoning support for the fast path. 1363 */ 1364.macro READ_BARRIER xDest, wDest, xObj, xTemp, wTemp, offset, number 1365#ifdef USE_READ_BARRIER 1366#ifdef USE_BAKER_READ_BARRIER 1367 ldr \wTemp, [\xObj, #MIRROR_OBJECT_LOCK_WORD_OFFSET] 1368 tbnz \wTemp, #LOCK_WORD_READ_BARRIER_STATE_SHIFT, .Lrb_slowpath\number 1369 // False dependency to avoid needing load/load fence. 1370 add \xObj, \xObj, \xTemp, lsr #32 1371 ldr \wDest, [\xObj, #\offset] // Heap reference = 32b. This also zero-extends to \xDest. 1372 UNPOISON_HEAP_REF \wDest 1373 b .Lrb_exit\number 1374#endif 1375.Lrb_slowpath\number: 1376 // Store registers used in art_quick_aput_obj (x0-x4, LR), stack is 16B aligned. 1377 SAVE_TWO_REGS_INCREASE_FRAME x0, x1, 48 1378 SAVE_TWO_REGS x2, x3, 16 1379 SAVE_TWO_REGS x4, xLR, 32 1380 1381 // mov x0, \xRef // pass ref in x0 (no-op for now since parameter ref is unused) 1382 .ifnc \xObj, x1 1383 mov x1, \xObj // pass xObj 1384 .endif 1385 mov w2, #\offset // pass offset 1386 bl artReadBarrierSlow // artReadBarrierSlow(ref, xObj, offset) 1387 // No need to unpoison return value in w0, artReadBarrierSlow() would do the unpoisoning. 1388 .ifnc \wDest, w0 1389 mov \wDest, w0 // save return value in wDest 1390 .endif 1391 1392 // Conditionally restore saved registers 1393 POP_REG_NE x0, 0, \xDest 1394 POP_REG_NE x1, 8, \xDest 1395 POP_REG_NE x2, 16, \xDest 1396 POP_REG_NE x3, 24, \xDest 1397 POP_REG_NE x4, 32, \xDest 1398 RESTORE_REG xLR, 40 1399 DECREASE_FRAME 48 1400.Lrb_exit\number: 1401#else 1402 ldr \wDest, [\xObj, #\offset] // Heap reference = 32b. This also zero-extends to \xDest. 1403 UNPOISON_HEAP_REF \wDest 1404#endif // USE_READ_BARRIER 1405.endm 1406 1407#ifdef USE_READ_BARRIER 1408 .extern artReadBarrierSlow 1409#endif 1410ENTRY art_quick_aput_obj 1411 cbz x2, .Ldo_aput_null 1412 READ_BARRIER x3, w3, x0, x3, w3, MIRROR_OBJECT_CLASS_OFFSET, 0 // Heap reference = 32b 1413 // This also zero-extends to x3 1414 READ_BARRIER x3, w3, x3, x4, w4, MIRROR_CLASS_COMPONENT_TYPE_OFFSET, 1 // Heap reference = 32b 1415 // This also zero-extends to x3 1416 READ_BARRIER x4, w4, x2, x4, w4, MIRROR_OBJECT_CLASS_OFFSET, 2 // Heap reference = 32b 1417 // This also zero-extends to x4 1418 cmp w3, w4 // value's type == array's component type - trivial assignability 1419 bne .Lcheck_assignability 1420.Ldo_aput: 1421 add x3, x0, #MIRROR_OBJECT_ARRAY_DATA_OFFSET 1422 // "Compress" = do nothing 1423 POISON_HEAP_REF w2 1424 str w2, [x3, x1, lsl #2] // Heap reference = 32b 1425 ldr x3, [xSELF, #THREAD_CARD_TABLE_OFFSET] 1426 lsr x0, x0, #7 1427 strb w3, [x3, x0] 1428 ret 1429.Ldo_aput_null: 1430 add x3, x0, #MIRROR_OBJECT_ARRAY_DATA_OFFSET 1431 // "Compress" = do nothing 1432 str w2, [x3, x1, lsl #2] // Heap reference = 32b 1433 ret 1434.Lcheck_assignability: 1435 // Store arguments and link register 1436 SAVE_TWO_REGS_INCREASE_FRAME x0, x1, 32 1437 SAVE_TWO_REGS x2, xLR, 16 1438 1439 // Call runtime code 1440 mov x0, x3 // Heap reference, 32b, "uncompress" = do nothing, already zero-extended 1441 mov x1, x4 // Heap reference, 32b, "uncompress" = do nothing, already zero-extended 1442 bl artIsAssignableFromCode 1443 1444 // Check for exception 1445 cbz x0, .Lthrow_array_store_exception 1446 1447 // Restore 1448 .cfi_remember_state 1449 RESTORE_TWO_REGS x2, xLR, 16 1450 RESTORE_TWO_REGS_DECREASE_FRAME x0, x1, 32 1451 1452 add x3, x0, #MIRROR_OBJECT_ARRAY_DATA_OFFSET 1453 // "Compress" = do nothing 1454 POISON_HEAP_REF w2 1455 str w2, [x3, x1, lsl #2] // Heap reference = 32b 1456 ldr x3, [xSELF, #THREAD_CARD_TABLE_OFFSET] 1457 lsr x0, x0, #7 1458 strb w3, [x3, x0] 1459 ret 1460 .cfi_restore_state // Reset unwind info so following code unwinds. 1461 .cfi_def_cfa_offset 32 // workaround for clang bug: 31975598 1462.Lthrow_array_store_exception: 1463 RESTORE_TWO_REGS x2, xLR, 16 1464 RESTORE_TWO_REGS_DECREASE_FRAME x0, x1, 32 1465 1466 SETUP_SAVE_ALL_CALLEE_SAVES_FRAME 1467 mov x1, x2 // Pass value. 1468 mov x2, xSELF // Pass Thread::Current. 1469 bl artThrowArrayStoreException // (Object*, Object*, Thread*). 1470 brk 0 // Unreached. 1471END art_quick_aput_obj 1472 1473// Macro to facilitate adding new allocation entrypoints. 1474.macro ONE_ARG_DOWNCALL name, entrypoint, return 1475 .extern \entrypoint 1476ENTRY \name 1477 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case of GC 1478 mov x1, xSELF // pass Thread::Current 1479 bl \entrypoint // (uint32_t type_idx, Method* method, Thread*) 1480 RESTORE_SAVE_REFS_ONLY_FRAME 1481 \return 1482END \name 1483.endm 1484 1485// Macro to facilitate adding new allocation entrypoints. 1486.macro TWO_ARG_DOWNCALL name, entrypoint, return 1487 .extern \entrypoint 1488ENTRY \name 1489 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case of GC 1490 mov x2, xSELF // pass Thread::Current 1491 bl \entrypoint // (uint32_t type_idx, Method* method, Thread*) 1492 RESTORE_SAVE_REFS_ONLY_FRAME 1493 \return 1494END \name 1495.endm 1496 1497// Macro to facilitate adding new allocation entrypoints. 1498.macro THREE_ARG_DOWNCALL name, entrypoint, return 1499 .extern \entrypoint 1500ENTRY \name 1501 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case of GC 1502 mov x3, xSELF // pass Thread::Current 1503 bl \entrypoint 1504 RESTORE_SAVE_REFS_ONLY_FRAME 1505 \return 1506END \name 1507.endm 1508 1509// Macro to facilitate adding new allocation entrypoints. 1510.macro FOUR_ARG_DOWNCALL name, entrypoint, return 1511 .extern \entrypoint 1512ENTRY \name 1513 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case of GC 1514 mov x4, xSELF // pass Thread::Current 1515 bl \entrypoint // 1516 RESTORE_SAVE_REFS_ONLY_FRAME 1517 \return 1518 DELIVER_PENDING_EXCEPTION 1519END \name 1520.endm 1521 1522// Macros taking opportunity of code similarities for downcalls with referrer. 1523.macro ONE_ARG_REF_DOWNCALL name, entrypoint, return 1524 .extern \entrypoint 1525ENTRY \name 1526 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case of GC 1527 ldr x1, [sp, #FRAME_SIZE_SAVE_REFS_ONLY] // Load referrer 1528 mov x2, xSELF // pass Thread::Current 1529 bl \entrypoint // (uint32_t type_idx, Method* method, Thread*, SP) 1530 RESTORE_SAVE_REFS_ONLY_FRAME 1531 \return 1532END \name 1533.endm 1534 1535.macro TWO_ARG_REF_DOWNCALL name, entrypoint, return 1536 .extern \entrypoint 1537ENTRY \name 1538 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case of GC 1539 ldr x2, [sp, #FRAME_SIZE_SAVE_REFS_ONLY] // Load referrer 1540 mov x3, xSELF // pass Thread::Current 1541 bl \entrypoint 1542 RESTORE_SAVE_REFS_ONLY_FRAME 1543 \return 1544END \name 1545.endm 1546 1547.macro THREE_ARG_REF_DOWNCALL name, entrypoint, return 1548 .extern \entrypoint 1549ENTRY \name 1550 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case of GC 1551 ldr x3, [sp, #FRAME_SIZE_SAVE_REFS_ONLY] // Load referrer 1552 mov x4, xSELF // pass Thread::Current 1553 bl \entrypoint 1554 RESTORE_SAVE_REFS_ONLY_FRAME 1555 \return 1556END \name 1557.endm 1558 1559.macro RETURN_IF_RESULT_IS_NON_ZERO_OR_DELIVER 1560 cbz w0, 1f // result zero branch over 1561 ret // return 15621: 1563 DELIVER_PENDING_EXCEPTION 1564.endm 1565 1566 /* 1567 * Entry from managed code that calls artHandleFillArrayDataFromCode and delivers exception on 1568 * failure. 1569 */ 1570TWO_ARG_REF_DOWNCALL art_quick_handle_fill_data, artHandleFillArrayDataFromCode, RETURN_IF_W0_IS_ZERO_OR_DELIVER 1571 1572 /* 1573 * Entry from managed code when uninitialized static storage, this stub will run the class 1574 * initializer and deliver the exception on error. On success the static storage base is 1575 * returned. 1576 */ 1577ONE_ARG_DOWNCALL art_quick_initialize_static_storage, artInitializeStaticStorageFromCode, RETURN_IF_RESULT_IS_NON_ZERO_OR_DELIVER 1578 1579ONE_ARG_DOWNCALL art_quick_initialize_type, artInitializeTypeFromCode, RETURN_IF_RESULT_IS_NON_ZERO_OR_DELIVER 1580ONE_ARG_DOWNCALL art_quick_initialize_type_and_verify_access, artInitializeTypeAndVerifyAccessFromCode, RETURN_IF_RESULT_IS_NON_ZERO_OR_DELIVER 1581 1582ONE_ARG_REF_DOWNCALL art_quick_get_boolean_static, artGetBooleanStaticFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1583ONE_ARG_REF_DOWNCALL art_quick_get_byte_static, artGetByteStaticFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1584ONE_ARG_REF_DOWNCALL art_quick_get_char_static, artGetCharStaticFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1585ONE_ARG_REF_DOWNCALL art_quick_get_short_static, artGetShortStaticFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1586ONE_ARG_REF_DOWNCALL art_quick_get32_static, artGet32StaticFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1587ONE_ARG_REF_DOWNCALL art_quick_get64_static, artGet64StaticFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1588ONE_ARG_REF_DOWNCALL art_quick_get_obj_static, artGetObjStaticFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1589 1590TWO_ARG_REF_DOWNCALL art_quick_get_boolean_instance, artGetBooleanInstanceFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1591TWO_ARG_REF_DOWNCALL art_quick_get_byte_instance, artGetByteInstanceFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1592TWO_ARG_REF_DOWNCALL art_quick_get_char_instance, artGetCharInstanceFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1593TWO_ARG_REF_DOWNCALL art_quick_get_short_instance, artGetShortInstanceFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1594TWO_ARG_REF_DOWNCALL art_quick_get32_instance, artGet32InstanceFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1595TWO_ARG_REF_DOWNCALL art_quick_get64_instance, artGet64InstanceFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1596TWO_ARG_REF_DOWNCALL art_quick_get_obj_instance, artGetObjInstanceFromCode, RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 1597 1598TWO_ARG_REF_DOWNCALL art_quick_set8_static, artSet8StaticFromCode, RETURN_IF_W0_IS_ZERO_OR_DELIVER 1599TWO_ARG_REF_DOWNCALL art_quick_set16_static, artSet16StaticFromCode, RETURN_IF_W0_IS_ZERO_OR_DELIVER 1600TWO_ARG_REF_DOWNCALL art_quick_set32_static, artSet32StaticFromCode, RETURN_IF_W0_IS_ZERO_OR_DELIVER 1601TWO_ARG_REF_DOWNCALL art_quick_set_obj_static, artSetObjStaticFromCode, RETURN_IF_W0_IS_ZERO_OR_DELIVER 1602 1603THREE_ARG_REF_DOWNCALL art_quick_set8_instance, artSet8InstanceFromCode, RETURN_IF_W0_IS_ZERO_OR_DELIVER 1604THREE_ARG_REF_DOWNCALL art_quick_set16_instance, artSet16InstanceFromCode, RETURN_IF_W0_IS_ZERO_OR_DELIVER 1605THREE_ARG_REF_DOWNCALL art_quick_set32_instance, artSet32InstanceFromCode, RETURN_IF_W0_IS_ZERO_OR_DELIVER 1606THREE_ARG_REF_DOWNCALL art_quick_set64_instance, artSet64InstanceFromCode, RETURN_IF_W0_IS_ZERO_OR_DELIVER 1607THREE_ARG_REF_DOWNCALL art_quick_set_obj_instance, artSetObjInstanceFromCode, RETURN_IF_W0_IS_ZERO_OR_DELIVER 1608 1609// This is separated out as the argument order is different. 1610 .extern artSet64StaticFromCode 1611ENTRY art_quick_set64_static 1612 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case of GC 1613 ldr x1, [sp, #FRAME_SIZE_SAVE_REFS_ONLY] // Load referrer 1614 // x2 contains the parameter 1615 mov x3, xSELF // pass Thread::Current 1616 bl artSet64StaticFromCode 1617 RESTORE_SAVE_REFS_ONLY_FRAME 1618 RETURN_IF_W0_IS_ZERO_OR_DELIVER 1619END art_quick_set64_static 1620 1621 /* 1622 * Entry from managed code to resolve a string, this stub will 1623 * check the dex cache for a matching string (the fast path), and if not found, 1624 * it will allocate a String and deliver an exception on error. 1625 * On success the String is returned. R0 holds the string index. 1626 */ 1627 1628ENTRY art_quick_resolve_string 1629 SETUP_SAVE_EVERYTHING_FRAME // save everything for stack crawl 1630 mov x1, xSELF // pass Thread::Current 1631 bl artResolveStringFromCode // (int32_t string_idx, Thread* self) 1632 cbz w0, 1f // If result is null, deliver the OOME. 1633 .cfi_remember_state 1634 RESTORE_SAVE_EVERYTHING_FRAME_KEEP_X0 1635 ret // return 1636 .cfi_restore_state 1637 .cfi_def_cfa_offset FRAME_SIZE_SAVE_EVERYTHING // workaround for clang bug: 31975598 16381: 1639 DELIVER_PENDING_EXCEPTION_FRAME_READY 1640END art_quick_resolve_string 1641 1642// Generate the allocation entrypoints for each allocator. 1643GENERATE_ALLOC_ENTRYPOINTS_FOR_NON_REGION_TLAB_ALLOCATORS 1644// Comment out allocators that have arm64 specific asm. 1645// GENERATE_ALLOC_ENTRYPOINTS_ALLOC_OBJECT_RESOLVED(_region_tlab, RegionTLAB) 1646// GENERATE_ALLOC_ENTRYPOINTS_ALLOC_OBJECT_INITIALIZED(_region_tlab, RegionTLAB) 1647GENERATE_ALLOC_ENTRYPOINTS_ALLOC_OBJECT_WITH_ACCESS_CHECK(_region_tlab, RegionTLAB) 1648// GENERATE_ALLOC_ENTRYPOINTS_ALLOC_ARRAY_RESOLVED(_region_tlab, RegionTLAB) 1649// GENERATE_ALLOC_ENTRYPOINTS_ALLOC_ARRAY_RESOLVED8(_region_tlab, RegionTLAB) 1650// GENERATE_ALLOC_ENTRYPOINTS_ALLOC_ARRAY_RESOLVED16(_region_tlab, RegionTLAB) 1651// GENERATE_ALLOC_ENTRYPOINTS_ALLOC_ARRAY_RESOLVED32(_region_tlab, RegionTLAB) 1652// GENERATE_ALLOC_ENTRYPOINTS_ALLOC_ARRAY_RESOLVED64(_region_tlab, RegionTLAB) 1653GENERATE_ALLOC_ENTRYPOINTS_ALLOC_STRING_FROM_BYTES(_region_tlab, RegionTLAB) 1654GENERATE_ALLOC_ENTRYPOINTS_ALLOC_STRING_FROM_CHARS(_region_tlab, RegionTLAB) 1655GENERATE_ALLOC_ENTRYPOINTS_ALLOC_STRING_FROM_STRING(_region_tlab, RegionTLAB) 1656 1657// A hand-written override for GENERATE_ALLOC_ENTRYPOINTS_ALLOC_OBJECT_RESOLVED(_rosalloc, RosAlloc). 1658ENTRY art_quick_alloc_object_resolved_rosalloc 1659 // Fast path rosalloc allocation. 1660 // x0: type, xSELF(x19): Thread::Current 1661 // x1-x7: free. 1662 ldr x3, [xSELF, #THREAD_LOCAL_ALLOC_STACK_TOP_OFFSET] // Check if the thread local 1663 // allocation stack has room. 1664 // ldp won't work due to large offset. 1665 ldr x4, [xSELF, #THREAD_LOCAL_ALLOC_STACK_END_OFFSET] 1666 cmp x3, x4 1667 bhs .Lart_quick_alloc_object_resolved_rosalloc_slow_path 1668 ldr w3, [x0, #MIRROR_CLASS_OBJECT_SIZE_ALLOC_FAST_PATH_OFFSET] // Load the object size (x3) 1669 cmp x3, #ROSALLOC_MAX_THREAD_LOCAL_BRACKET_SIZE // Check if the size is for a thread 1670 // local allocation. Also does the 1671 // finalizable and initialization 1672 // checks. 1673 bhs .Lart_quick_alloc_object_resolved_rosalloc_slow_path 1674 // Compute the rosalloc bracket index 1675 // from the size. Since the size is 1676 // already aligned we can combine the 1677 // two shifts together. 1678 add x4, xSELF, x3, lsr #(ROSALLOC_BRACKET_QUANTUM_SIZE_SHIFT - POINTER_SIZE_SHIFT) 1679 // Subtract pointer size since ther 1680 // are no runs for 0 byte allocations 1681 // and the size is already aligned. 1682 ldr x4, [x4, #(THREAD_ROSALLOC_RUNS_OFFSET - __SIZEOF_POINTER__)] 1683 // Load the free list head (x3). This 1684 // will be the return val. 1685 ldr x3, [x4, #(ROSALLOC_RUN_FREE_LIST_OFFSET + ROSALLOC_RUN_FREE_LIST_HEAD_OFFSET)] 1686 cbz x3, .Lart_quick_alloc_object_resolved_rosalloc_slow_path 1687 // "Point of no slow path". Won't go to the slow path from here on. OK to clobber x0 and x1. 1688 ldr x1, [x3, #ROSALLOC_SLOT_NEXT_OFFSET] // Load the next pointer of the head 1689 // and update the list head with the 1690 // next pointer. 1691 str x1, [x4, #(ROSALLOC_RUN_FREE_LIST_OFFSET + ROSALLOC_RUN_FREE_LIST_HEAD_OFFSET)] 1692 // Store the class pointer in the 1693 // header. This also overwrites the 1694 // next pointer. The offsets are 1695 // asserted to match. 1696#if ROSALLOC_SLOT_NEXT_OFFSET != MIRROR_OBJECT_CLASS_OFFSET 1697#error "Class pointer needs to overwrite next pointer." 1698#endif 1699 POISON_HEAP_REF w0 1700 str w0, [x3, #MIRROR_OBJECT_CLASS_OFFSET] 1701 // Fence. This is "ish" not "ishst" so 1702 // that it also ensures ordering of 1703 // the object size load with respect 1704 // to later accesses to the class 1705 // object. Alternatively we could use 1706 // "ishst" if we use load-acquire for 1707 // the class status load. 1708 // Needs to be done before pushing on 1709 // allocation since Heap::VisitObjects 1710 // relies on seeing the class pointer. 1711 // b/28790624 1712 dmb ish 1713 // Push the new object onto the thread 1714 // local allocation stack and 1715 // increment the thread local 1716 // allocation stack top. 1717 ldr x1, [xSELF, #THREAD_LOCAL_ALLOC_STACK_TOP_OFFSET] 1718 str w3, [x1], #COMPRESSED_REFERENCE_SIZE // (Increment x1 as a side effect.) 1719 str x1, [xSELF, #THREAD_LOCAL_ALLOC_STACK_TOP_OFFSET] 1720 // Decrement the size of the free list 1721 ldr w1, [x4, #(ROSALLOC_RUN_FREE_LIST_OFFSET + ROSALLOC_RUN_FREE_LIST_SIZE_OFFSET)] 1722 sub x1, x1, #1 1723 // TODO: consider combining this store 1724 // and the list head store above using 1725 // strd. 1726 str w1, [x4, #(ROSALLOC_RUN_FREE_LIST_OFFSET + ROSALLOC_RUN_FREE_LIST_SIZE_OFFSET)] 1727 1728 mov x0, x3 // Set the return value and return. 1729 ret 1730.Lart_quick_alloc_object_resolved_rosalloc_slow_path: 1731 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case of GC 1732 mov x1, xSELF // pass Thread::Current 1733 bl artAllocObjectFromCodeResolvedRosAlloc // (mirror::Class* klass, Thread*) 1734 RESTORE_SAVE_REFS_ONLY_FRAME 1735 RETURN_IF_RESULT_IS_NON_ZERO_OR_DELIVER 1736END art_quick_alloc_object_resolved_rosalloc 1737 1738.macro ALLOC_ARRAY_TLAB_FAST_PATH_RESOLVED_WITH_SIZE slowPathLabel, xClass, wClass, xCount, wCount, xTemp0, wTemp0, xTemp1, wTemp1, xTemp2, wTemp2 1739 and \xTemp1, \xTemp1, #OBJECT_ALIGNMENT_MASK_TOGGLED64 // Apply alignemnt mask 1740 // (addr + 7) & ~7. The mask must 1741 // be 64 bits to keep high bits in 1742 // case of overflow. 1743 // Negative sized arrays are handled here since xCount holds a zero extended 32 bit value. 1744 // Negative ints become large 64 bit unsigned ints which will always be larger than max signed 1745 // 32 bit int. Since the max shift for arrays is 3, it can not become a negative 64 bit int. 1746 cmp \xTemp1, #MIN_LARGE_OBJECT_THRESHOLD // Possibly a large object, go slow 1747 bhs \slowPathLabel // path. 1748 1749 ldr \xTemp0, [xSELF, #THREAD_LOCAL_POS_OFFSET] // Check tlab for space, note that 1750 // we use (end - begin) to handle 1751 // negative size arrays. It is 1752 // assumed that a negative size will 1753 // always be greater unsigned than 1754 // region size. 1755 ldr \xTemp2, [xSELF, #THREAD_LOCAL_END_OFFSET] 1756 sub \xTemp2, \xTemp2, \xTemp0 1757 cmp \xTemp1, \xTemp2 1758 bhi \slowPathLabel 1759 // "Point of no slow path". Won't go to the slow path from here on. OK to clobber x0 and x1. 1760 // Move old thread_local_pos to x0 1761 // for the return value. 1762 mov x0, \xTemp0 1763 add \xTemp0, \xTemp0, \xTemp1 1764 str \xTemp0, [xSELF, #THREAD_LOCAL_POS_OFFSET] // Store new thread_local_pos. 1765 ldr \xTemp0, [xSELF, #THREAD_LOCAL_OBJECTS_OFFSET] // Increment thread_local_objects. 1766 add \xTemp0, \xTemp0, #1 1767 str \xTemp0, [xSELF, #THREAD_LOCAL_OBJECTS_OFFSET] 1768 POISON_HEAP_REF \wClass 1769 str \wClass, [x0, #MIRROR_OBJECT_CLASS_OFFSET] // Store the class pointer. 1770 str \wCount, [x0, #MIRROR_ARRAY_LENGTH_OFFSET] // Store the array length. 1771 // Fence. 1772 dmb ishst 1773 ret 1774.endm 1775 1776// TODO: delete ALLOC_OBJECT_TLAB_FAST_PATH_RESOLVED since it is the same as 1777// ALLOC_OBJECT_TLAB_FAST_PATH_INITIALIZED. 1778.macro ALLOC_OBJECT_TLAB_FAST_PATH_RESOLVED slowPathLabel 1779 ALLOC_OBJECT_TLAB_FAST_PATH_INITIALIZED \slowPathLabel 1780.endm 1781 1782.macro ALLOC_OBJECT_TLAB_FAST_PATH_INITIALIZED slowPathLabel 1783 ldr x4, [xSELF, #THREAD_LOCAL_POS_OFFSET] 1784 ldr x5, [xSELF, #THREAD_LOCAL_END_OFFSET] 1785 ldr w7, [x0, #MIRROR_CLASS_OBJECT_SIZE_ALLOC_FAST_PATH_OFFSET] // Load the object size (x7). 1786 add x6, x4, x7 // Add object size to tlab pos. 1787 cmp x6, x5 // Check if it fits, overflow works 1788 // since the tlab pos and end are 32 1789 // bit values. 1790 bhi \slowPathLabel 1791 str x6, [xSELF, #THREAD_LOCAL_POS_OFFSET] // Store new thread_local_pos. 1792 ldr x5, [xSELF, #THREAD_LOCAL_OBJECTS_OFFSET] // Increment thread_local_objects. 1793 add x5, x5, #1 1794 str x5, [xSELF, #THREAD_LOCAL_OBJECTS_OFFSET] 1795 POISON_HEAP_REF w0 1796 str w0, [x4, #MIRROR_OBJECT_CLASS_OFFSET] // Store the class pointer. 1797 // Fence. This is "ish" not "ishst" so 1798 // that the code after this allocation 1799 // site will see the right values in 1800 // the fields of the class. 1801 // Alternatively we could use "ishst" 1802 // if we use load-acquire for the 1803 // object size load.) 1804 mov x0, x4 1805 dmb ish 1806 ret 1807.endm 1808 1809// A hand-written override for GENERATE_ALLOC_ENTRYPOINTS_ALLOC_OBJECT_RESOLVED(_tlab, TLAB). 1810ENTRY art_quick_alloc_object_resolved_tlab 1811 // Fast path tlab allocation. 1812 // x0: type, xSELF(x19): Thread::Current 1813 // x1-x7: free. 1814#if defined(USE_READ_BARRIER) 1815 mvn x0, xzr // Read barrier not supported here. 1816 ret // Return -1. 1817#endif 1818 ALLOC_OBJECT_TLAB_FAST_PATH_RESOLVED .Lart_quick_alloc_object_resolved_tlab_slow_path 1819.Lart_quick_alloc_object_resolved_tlab_slow_path: 1820 SETUP_SAVE_REFS_ONLY_FRAME // Save callee saves in case of GC. 1821 mov x1, xSELF // Pass Thread::Current. 1822 bl artAllocObjectFromCodeResolvedTLAB // (mirror::Class*, Thread*) 1823 RESTORE_SAVE_REFS_ONLY_FRAME 1824 RETURN_IF_RESULT_IS_NON_ZERO_OR_DELIVER 1825END art_quick_alloc_object_resolved_tlab 1826 1827// The common code for art_quick_alloc_object_*region_tlab 1828.macro GENERATE_ALLOC_OBJECT_RESOLVED_REGION_TLAB name, entrypoint, fast_path 1829ENTRY \name 1830 // Fast path region tlab allocation. 1831 // x0: type, xSELF(x19): Thread::Current 1832 // x1-x7: free. 1833#if !defined(USE_READ_BARRIER) 1834 mvn x0, xzr // Read barrier must be enabled here. 1835 ret // Return -1. 1836#endif 1837.Ldo_allocation\name: 1838 \fast_path .Lslow_path\name 1839.Lslow_path\name: 1840 SETUP_SAVE_REFS_ONLY_FRAME // Save callee saves in case of GC. 1841 mov x1, xSELF // Pass Thread::Current. 1842 bl \entrypoint // (mirror::Class*, Thread*) 1843 RESTORE_SAVE_REFS_ONLY_FRAME 1844 RETURN_IF_RESULT_IS_NON_ZERO_OR_DELIVER 1845END \name 1846.endm 1847 1848GENERATE_ALLOC_OBJECT_RESOLVED_REGION_TLAB art_quick_alloc_object_resolved_region_tlab, artAllocObjectFromCodeResolvedRegionTLAB, ALLOC_OBJECT_TLAB_FAST_PATH_RESOLVED 1849GENERATE_ALLOC_OBJECT_RESOLVED_REGION_TLAB art_quick_alloc_object_initialized_region_tlab, artAllocObjectFromCodeInitializedRegionTLAB, ALLOC_OBJECT_TLAB_FAST_PATH_INITIALIZED 1850 1851// TODO: We could use this macro for the normal tlab allocator too. 1852 1853.macro GENERATE_ALLOC_ARRAY_REGION_TLAB name, entrypoint, size_setup 1854ENTRY \name 1855 // Fast path array allocation for region tlab allocation. 1856 // x0: mirror::Class* type 1857 // x1: int32_t component_count 1858 // x2-x7: free. 1859#if !defined(USE_READ_BARRIER) 1860 mvn x0, xzr // Read barrier must be enabled here. 1861 ret // Return -1. 1862#endif 1863 mov x3, x0 1864 \size_setup x3, w3, x1, w1, x4, w4, x5, w5, x6, w6 1865 ALLOC_ARRAY_TLAB_FAST_PATH_RESOLVED_WITH_SIZE .Lslow_path\name, x3, w3, x1, w1, x4, w4, x5, w5, x6, w6 1866.Lslow_path\name: 1867 // x0: mirror::Class* klass 1868 // x1: int32_t component_count 1869 // x2: Thread* self 1870 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves in case of GC 1871 mov x2, xSELF // pass Thread::Current 1872 bl \entrypoint 1873 RESTORE_SAVE_REFS_ONLY_FRAME 1874 RETURN_IF_RESULT_IS_NON_ZERO_OR_DELIVER 1875END \name 1876.endm 1877 1878.macro COMPUTE_ARRAY_SIZE_UNKNOWN xClass, wClass, xCount, wCount, xTemp0, wTemp0, xTemp1, wTemp1, xTemp2, wTemp2 1879 // Array classes are never finalizable or uninitialized, no need to check. 1880 ldr \wTemp0, [\xClass, #MIRROR_CLASS_COMPONENT_TYPE_OFFSET] // Load component type 1881 UNPOISON_HEAP_REF \wTemp0 1882 ldr \wTemp0, [\xTemp0, #MIRROR_CLASS_OBJECT_PRIMITIVE_TYPE_OFFSET] 1883 lsr \xTemp0, \xTemp0, #PRIMITIVE_TYPE_SIZE_SHIFT_SHIFT // Component size shift is in high 16 1884 // bits. 1885 // xCount is holding a 32 bit value, 1886 // it can not overflow. 1887 lsl \xTemp1, \xCount, \xTemp0 // Calculate data size 1888 // Add array data offset and alignment. 1889 add \xTemp1, \xTemp1, #(MIRROR_INT_ARRAY_DATA_OFFSET + OBJECT_ALIGNMENT_MASK) 1890#if MIRROR_LONG_ARRAY_DATA_OFFSET != MIRROR_INT_ARRAY_DATA_OFFSET + 4 1891#error Long array data offset must be 4 greater than int array data offset. 1892#endif 1893 1894 add \xTemp0, \xTemp0, #1 // Add 4 to the length only if the 1895 // component size shift is 3 1896 // (for 64 bit alignment). 1897 and \xTemp0, \xTemp0, #4 1898 add \xTemp1, \xTemp1, \xTemp0 1899.endm 1900 1901.macro COMPUTE_ARRAY_SIZE_8 xClass, wClass, xCount, wCount, xTemp0, wTemp0, xTemp1, wTemp1, xTemp2, wTemp2 1902 // Add array data offset and alignment. 1903 add \xTemp1, \xCount, #(MIRROR_INT_ARRAY_DATA_OFFSET + OBJECT_ALIGNMENT_MASK) 1904.endm 1905 1906.macro COMPUTE_ARRAY_SIZE_16 xClass, wClass, xCount, wCount, xTemp0, wTemp0, xTemp1, wTemp1, xTemp2, wTemp2 1907 lsl \xTemp1, \xCount, #1 1908 // Add array data offset and alignment. 1909 add \xTemp1, \xTemp1, #(MIRROR_INT_ARRAY_DATA_OFFSET + OBJECT_ALIGNMENT_MASK) 1910.endm 1911 1912.macro COMPUTE_ARRAY_SIZE_32 xClass, wClass, xCount, wCount, xTemp0, wTemp0, xTemp1, wTemp1, xTemp2, wTemp2 1913 lsl \xTemp1, \xCount, #2 1914 // Add array data offset and alignment. 1915 add \xTemp1, \xTemp1, #(MIRROR_INT_ARRAY_DATA_OFFSET + OBJECT_ALIGNMENT_MASK) 1916.endm 1917 1918.macro COMPUTE_ARRAY_SIZE_64 xClass, wClass, xCount, wCount, xTemp0, wTemp0, xTemp1, wTemp1, xTemp2, wTemp2 1919 lsl \xTemp1, \xCount, #3 1920 // Add array data offset and alignment. 1921 // Add 4 to the size for 64 bit alignment. 1922 add \xTemp1, \xTemp1, #(MIRROR_INT_ARRAY_DATA_OFFSET + OBJECT_ALIGNMENT_MASK + 4) 1923.endm 1924 1925# TODO(ngeoffray): art_quick_alloc_array_resolved_region_tlab is not used for arm64, remove 1926# the entrypoint once all backends have been updated to use the size variants. 1927GENERATE_ALLOC_ARRAY_REGION_TLAB art_quick_alloc_array_resolved_region_tlab, artAllocArrayFromCodeResolvedRegionTLAB, COMPUTE_ARRAY_SIZE_UNKNOWN 1928GENERATE_ALLOC_ARRAY_REGION_TLAB art_quick_alloc_array_resolved8_region_tlab, artAllocArrayFromCodeResolvedRegionTLAB, COMPUTE_ARRAY_SIZE_8 1929GENERATE_ALLOC_ARRAY_REGION_TLAB art_quick_alloc_array_resolved16_region_tlab, artAllocArrayFromCodeResolvedRegionTLAB, COMPUTE_ARRAY_SIZE_16 1930GENERATE_ALLOC_ARRAY_REGION_TLAB art_quick_alloc_array_resolved32_region_tlab, artAllocArrayFromCodeResolvedRegionTLAB, COMPUTE_ARRAY_SIZE_32 1931GENERATE_ALLOC_ARRAY_REGION_TLAB art_quick_alloc_array_resolved64_region_tlab, artAllocArrayFromCodeResolvedRegionTLAB, COMPUTE_ARRAY_SIZE_64 1932 1933 /* 1934 * Called by managed code when the thread has been asked to suspend. 1935 */ 1936 .extern artTestSuspendFromCode 1937ENTRY art_quick_test_suspend 1938 SETUP_SAVE_EVERYTHING_FRAME // save callee saves for stack crawl 1939 mov x0, xSELF 1940 bl artTestSuspendFromCode // (Thread*) 1941 RESTORE_SAVE_EVERYTHING_FRAME 1942 ret 1943END art_quick_test_suspend 1944 1945ENTRY art_quick_implicit_suspend 1946 mov x0, xSELF 1947 SETUP_SAVE_REFS_ONLY_FRAME // save callee saves for stack crawl 1948 bl artTestSuspendFromCode // (Thread*) 1949 RESTORE_SAVE_REFS_ONLY_FRAME_AND_RETURN 1950END art_quick_implicit_suspend 1951 1952 /* 1953 * Called by managed code that is attempting to call a method on a proxy class. On entry 1954 * x0 holds the proxy method and x1 holds the receiver; The frame size of the invoked proxy 1955 * method agrees with a ref and args callee save frame. 1956 */ 1957 .extern artQuickProxyInvokeHandler 1958ENTRY art_quick_proxy_invoke_handler 1959 SETUP_SAVE_REFS_AND_ARGS_FRAME_WITH_METHOD_IN_X0 1960 mov x2, xSELF // pass Thread::Current 1961 mov x3, sp // pass SP 1962 bl artQuickProxyInvokeHandler // (Method* proxy method, receiver, Thread*, SP) 1963 ldr x2, [xSELF, THREAD_EXCEPTION_OFFSET] 1964 cbnz x2, .Lexception_in_proxy // success if no exception is pending 1965 RESTORE_SAVE_REFS_AND_ARGS_FRAME // Restore frame 1966 fmov d0, x0 // Store result in d0 in case it was float or double 1967 ret // return on success 1968.Lexception_in_proxy: 1969 RESTORE_SAVE_REFS_AND_ARGS_FRAME 1970 DELIVER_PENDING_EXCEPTION 1971END art_quick_proxy_invoke_handler 1972 1973 /* 1974 * Called to resolve an imt conflict. 1975 * x0 is the conflict ArtMethod. 1976 * xIP1 is a hidden argument that holds the target interface method's dex method index. 1977 * 1978 * Note that this stub writes to xIP0, xIP1, and x0. 1979 */ 1980 .extern artInvokeInterfaceTrampoline 1981ENTRY art_quick_imt_conflict_trampoline 1982 ldr xIP0, [sp, #0] // Load referrer 1983 ldr xIP0, [xIP0, #ART_METHOD_DEX_CACHE_METHODS_OFFSET_64] // Load dex cache methods array 1984 ldr xIP0, [xIP0, xIP1, lsl #POINTER_SIZE_SHIFT] // Load interface method 1985 ldr xIP1, [x0, #ART_METHOD_JNI_OFFSET_64] // Load ImtConflictTable 1986 ldr x0, [xIP1] // Load first entry in ImtConflictTable. 1987.Limt_table_iterate: 1988 cmp x0, xIP0 1989 // Branch if found. Benchmarks have shown doing a branch here is better. 1990 beq .Limt_table_found 1991 // If the entry is null, the interface method is not in the ImtConflictTable. 1992 cbz x0, .Lconflict_trampoline 1993 // Iterate over the entries of the ImtConflictTable. 1994 ldr x0, [xIP1, #(2 * __SIZEOF_POINTER__)]! 1995 b .Limt_table_iterate 1996.Limt_table_found: 1997 // We successfully hit an entry in the table. Load the target method 1998 // and jump to it. 1999 ldr x0, [xIP1, #__SIZEOF_POINTER__] 2000 ldr xIP0, [x0, #ART_METHOD_QUICK_CODE_OFFSET_64] 2001 br xIP0 2002.Lconflict_trampoline: 2003 // Call the runtime stub to populate the ImtConflictTable and jump to the 2004 // resolved method. 2005 INVOKE_TRAMPOLINE_BODY artInvokeInterfaceTrampoline 2006END art_quick_imt_conflict_trampoline 2007 2008ENTRY art_quick_resolution_trampoline 2009 SETUP_SAVE_REFS_AND_ARGS_FRAME 2010 mov x2, xSELF 2011 mov x3, sp 2012 bl artQuickResolutionTrampoline // (called, receiver, Thread*, SP) 2013 cbz x0, 1f 2014 mov xIP0, x0 // Remember returned code pointer in xIP0. 2015 ldr x0, [sp, #0] // artQuickResolutionTrampoline puts called method in *SP. 2016 RESTORE_SAVE_REFS_AND_ARGS_FRAME 2017 br xIP0 20181: 2019 RESTORE_SAVE_REFS_AND_ARGS_FRAME 2020 DELIVER_PENDING_EXCEPTION 2021END art_quick_resolution_trampoline 2022 2023/* 2024 * Generic JNI frame layout: 2025 * 2026 * #-------------------# 2027 * | | 2028 * | caller method... | 2029 * #-------------------# <--- SP on entry 2030 * | Return X30/LR | 2031 * | X29/FP | callee save 2032 * | X28 | callee save 2033 * | X27 | callee save 2034 * | X26 | callee save 2035 * | X25 | callee save 2036 * | X24 | callee save 2037 * | X23 | callee save 2038 * | X22 | callee save 2039 * | X21 | callee save 2040 * | X20 | callee save 2041 * | X19 | callee save 2042 * | X7 | arg7 2043 * | X6 | arg6 2044 * | X5 | arg5 2045 * | X4 | arg4 2046 * | X3 | arg3 2047 * | X2 | arg2 2048 * | X1 | arg1 2049 * | D7 | float arg 8 2050 * | D6 | float arg 7 2051 * | D5 | float arg 6 2052 * | D4 | float arg 5 2053 * | D3 | float arg 4 2054 * | D2 | float arg 3 2055 * | D1 | float arg 2 2056 * | D0 | float arg 1 2057 * | Method* | <- X0 2058 * #-------------------# 2059 * | local ref cookie | // 4B 2060 * | handle scope size | // 4B 2061 * #-------------------# 2062 * | JNI Call Stack | 2063 * #-------------------# <--- SP on native call 2064 * | | 2065 * | Stack for Regs | The trampoline assembly will pop these values 2066 * | | into registers for native call 2067 * #-------------------# 2068 * | Native code ptr | 2069 * #-------------------# 2070 * | Free scratch | 2071 * #-------------------# 2072 * | Ptr to (1) | <--- SP 2073 * #-------------------# 2074 */ 2075 /* 2076 * Called to do a generic JNI down-call 2077 */ 2078ENTRY art_quick_generic_jni_trampoline 2079 SETUP_SAVE_REFS_AND_ARGS_FRAME_WITH_METHOD_IN_X0 2080 2081 // Save SP , so we can have static CFI info. 2082 mov x28, sp 2083 .cfi_def_cfa_register x28 2084 2085 // This looks the same, but is different: this will be updated to point to the bottom 2086 // of the frame when the handle scope is inserted. 2087 mov xFP, sp 2088 2089 mov xIP0, #5120 2090 sub sp, sp, xIP0 2091 2092 // prepare for artQuickGenericJniTrampoline call 2093 // (Thread*, SP) 2094 // x0 x1 <= C calling convention 2095 // xSELF xFP <= where they are 2096 2097 mov x0, xSELF // Thread* 2098 mov x1, xFP 2099 bl artQuickGenericJniTrampoline // (Thread*, sp) 2100 2101 // The C call will have registered the complete save-frame on success. 2102 // The result of the call is: 2103 // x0: pointer to native code, 0 on error. 2104 // x1: pointer to the bottom of the used area of the alloca, can restore stack till there. 2105 2106 // Check for error = 0. 2107 cbz x0, .Lexception_in_native 2108 2109 // Release part of the alloca. 2110 mov sp, x1 2111 2112 // Save the code pointer 2113 mov xIP0, x0 2114 2115 // Load parameters from frame into registers. 2116 // TODO Check with artQuickGenericJniTrampoline. 2117 // Also, check again APPCS64 - the stack arguments are interleaved. 2118 ldp x0, x1, [sp] 2119 ldp x2, x3, [sp, #16] 2120 ldp x4, x5, [sp, #32] 2121 ldp x6, x7, [sp, #48] 2122 2123 ldp d0, d1, [sp, #64] 2124 ldp d2, d3, [sp, #80] 2125 ldp d4, d5, [sp, #96] 2126 ldp d6, d7, [sp, #112] 2127 2128 add sp, sp, #128 2129 2130 blr xIP0 // native call. 2131 2132 // result sign extension is handled in C code 2133 // prepare for artQuickGenericJniEndTrampoline call 2134 // (Thread*, result, result_f) 2135 // x0 x1 x2 <= C calling convention 2136 mov x1, x0 // Result (from saved). 2137 mov x0, xSELF // Thread register. 2138 fmov x2, d0 // d0 will contain floating point result, but needs to go into x2 2139 2140 bl artQuickGenericJniEndTrampoline 2141 2142 // Pending exceptions possible. 2143 ldr x2, [xSELF, THREAD_EXCEPTION_OFFSET] 2144 cbnz x2, .Lexception_in_native 2145 2146 // Tear down the alloca. 2147 mov sp, x28 2148 .cfi_def_cfa_register sp 2149 2150 // Tear down the callee-save frame. 2151 RESTORE_SAVE_REFS_AND_ARGS_FRAME 2152 2153 // store into fpr, for when it's a fpr return... 2154 fmov d0, x0 2155 ret 2156 2157.Lexception_in_native: 2158 // Move to x1 then sp to please assembler. 2159 ldr x1, [xSELF, # THREAD_TOP_QUICK_FRAME_OFFSET] 2160 mov sp, x1 2161 .cfi_def_cfa_register sp 2162 # This will create a new save-all frame, required by the runtime. 2163 DELIVER_PENDING_EXCEPTION 2164END art_quick_generic_jni_trampoline 2165 2166/* 2167 * Called to bridge from the quick to interpreter ABI. On entry the arguments match those 2168 * of a quick call: 2169 * x0 = method being called/to bridge to. 2170 * x1..x7, d0..d7 = arguments to that method. 2171 */ 2172ENTRY art_quick_to_interpreter_bridge 2173 SETUP_SAVE_REFS_AND_ARGS_FRAME // Set up frame and save arguments. 2174 2175 // x0 will contain mirror::ArtMethod* method. 2176 mov x1, xSELF // How to get Thread::Current() ??? 2177 mov x2, sp 2178 2179 // uint64_t artQuickToInterpreterBridge(mirror::ArtMethod* method, Thread* self, 2180 // mirror::ArtMethod** sp) 2181 bl artQuickToInterpreterBridge 2182 2183 RESTORE_SAVE_REFS_AND_ARGS_FRAME // TODO: no need to restore arguments in this case. 2184 2185 fmov d0, x0 2186 2187 RETURN_OR_DELIVER_PENDING_EXCEPTION 2188END art_quick_to_interpreter_bridge 2189 2190 2191// 2192// Instrumentation-related stubs 2193// 2194 .extern artInstrumentationMethodEntryFromCode 2195ENTRY art_quick_instrumentation_entry 2196 SETUP_SAVE_REFS_AND_ARGS_FRAME 2197 2198 mov x20, x0 // Preserve method reference in a callee-save. 2199 2200 mov x2, xSELF 2201 mov x3, xLR 2202 bl artInstrumentationMethodEntryFromCode // (Method*, Object*, Thread*, LR) 2203 2204 mov xIP0, x0 // x0 = result of call. 2205 mov x0, x20 // Reload method reference. 2206 2207 RESTORE_SAVE_REFS_AND_ARGS_FRAME // Note: will restore xSELF 2208 adr xLR, art_quick_instrumentation_exit 2209 br xIP0 // Tail-call method with lr set to art_quick_instrumentation_exit. 2210END art_quick_instrumentation_entry 2211 2212 .extern artInstrumentationMethodExitFromCode 2213ENTRY art_quick_instrumentation_exit 2214 mov xLR, #0 // Clobber LR for later checks. 2215 2216 SETUP_SAVE_REFS_ONLY_FRAME 2217 2218 // We need to save x0 and d0. We could use a callee-save from SETUP_REF_ONLY, but then 2219 // we would need to fully restore it. As there are a lot of callee-save registers, it seems 2220 // easier to have an extra small stack area. 2221 2222 str x0, [sp, #-16]! // Save integer result. 2223 .cfi_adjust_cfa_offset 16 2224 str d0, [sp, #8] // Save floating-point result. 2225 2226 add x1, sp, #16 // Pass SP. 2227 mov x2, x0 // Pass integer result. 2228 fmov x3, d0 // Pass floating-point result. 2229 mov x0, xSELF // Pass Thread. 2230 bl artInstrumentationMethodExitFromCode // (Thread*, SP, gpr_res, fpr_res) 2231 2232 mov xIP0, x0 // Return address from instrumentation call. 2233 mov xLR, x1 // r1 is holding link register if we're to bounce to deoptimize 2234 2235 ldr d0, [sp, #8] // Restore floating-point result. 2236 ldr x0, [sp], #16 // Restore integer result, and drop stack area. 2237 .cfi_adjust_cfa_offset 16 2238 2239 POP_SAVE_REFS_ONLY_FRAME 2240 2241 br xIP0 // Tail-call out. 2242END art_quick_instrumentation_exit 2243 2244 /* 2245 * Instrumentation has requested that we deoptimize into the interpreter. The deoptimization 2246 * will long jump to the upcall with a special exception of -1. 2247 */ 2248 .extern artDeoptimize 2249ENTRY art_quick_deoptimize 2250 SETUP_SAVE_ALL_CALLEE_SAVES_FRAME 2251 mov x0, xSELF // Pass thread. 2252 bl artDeoptimize // artDeoptimize(Thread*) 2253 brk 0 2254END art_quick_deoptimize 2255 2256 /* 2257 * Compiled code has requested that we deoptimize into the interpreter. The deoptimization 2258 * will long jump to the upcall with a special exception of -1. 2259 */ 2260 .extern artDeoptimizeFromCompiledCode 2261ENTRY art_quick_deoptimize_from_compiled_code 2262 SETUP_SAVE_EVERYTHING_FRAME 2263 mov x0, xSELF // Pass thread. 2264 bl artDeoptimizeFromCompiledCode // artDeoptimizeFromCompiledCode(Thread*) 2265 brk 0 2266END art_quick_deoptimize_from_compiled_code 2267 2268 2269 /* 2270 * String's indexOf. 2271 * 2272 * TODO: Not very optimized. 2273 * On entry: 2274 * x0: string object (known non-null) 2275 * w1: char to match (known <= 0xFFFF) 2276 * w2: Starting offset in string data 2277 */ 2278ENTRY art_quick_indexof 2279#if (STRING_COMPRESSION_FEATURE) 2280 ldr w4, [x0, #MIRROR_STRING_COUNT_OFFSET] 2281#else 2282 ldr w3, [x0, #MIRROR_STRING_COUNT_OFFSET] 2283#endif 2284 add x0, x0, #MIRROR_STRING_VALUE_OFFSET 2285#if (STRING_COMPRESSION_FEATURE) 2286 /* w4 holds count (with flag) and w3 holds actual length */ 2287 lsr w3, w4, #1 2288#endif 2289 /* Clamp start to [0..count] */ 2290 cmp w2, #0 2291 csel w2, wzr, w2, lt 2292 cmp w2, w3 2293 csel w2, w3, w2, gt 2294 2295 /* Save a copy to compute result */ 2296 mov x5, x0 2297 2298#if (STRING_COMPRESSION_FEATURE) 2299 tbz w4, #0, .Lstring_indexof_compressed 2300#endif 2301 /* Build pointer to start of data to compare and pre-bias */ 2302 add x0, x0, x2, lsl #1 2303 sub x0, x0, #2 2304 /* Compute iteration count */ 2305 sub w2, w3, w2 2306 2307 /* 2308 * At this point we have: 2309 * x0: start of the data to test 2310 * w1: char to compare 2311 * w2: iteration count 2312 * x5: original start of string data 2313 */ 2314 2315 subs w2, w2, #4 2316 b.lt .Lindexof_remainder 2317 2318.Lindexof_loop4: 2319 ldrh w6, [x0, #2]! 2320 ldrh w7, [x0, #2]! 2321 ldrh wIP0, [x0, #2]! 2322 ldrh wIP1, [x0, #2]! 2323 cmp w6, w1 2324 b.eq .Lmatch_0 2325 cmp w7, w1 2326 b.eq .Lmatch_1 2327 cmp wIP0, w1 2328 b.eq .Lmatch_2 2329 cmp wIP1, w1 2330 b.eq .Lmatch_3 2331 subs w2, w2, #4 2332 b.ge .Lindexof_loop4 2333 2334.Lindexof_remainder: 2335 adds w2, w2, #4 2336 b.eq .Lindexof_nomatch 2337 2338.Lindexof_loop1: 2339 ldrh w6, [x0, #2]! 2340 cmp w6, w1 2341 b.eq .Lmatch_3 2342 subs w2, w2, #1 2343 b.ne .Lindexof_loop1 2344 2345.Lindexof_nomatch: 2346 mov x0, #-1 2347 ret 2348 2349.Lmatch_0: 2350 sub x0, x0, #6 2351 sub x0, x0, x5 2352 asr x0, x0, #1 2353 ret 2354.Lmatch_1: 2355 sub x0, x0, #4 2356 sub x0, x0, x5 2357 asr x0, x0, #1 2358 ret 2359.Lmatch_2: 2360 sub x0, x0, #2 2361 sub x0, x0, x5 2362 asr x0, x0, #1 2363 ret 2364.Lmatch_3: 2365 sub x0, x0, x5 2366 asr x0, x0, #1 2367 ret 2368#if (STRING_COMPRESSION_FEATURE) 2369 /* 2370 * Comparing compressed string character-per-character with 2371 * input character 2372 */ 2373.Lstring_indexof_compressed: 2374 add x0, x0, x2 2375 sub x0, x0, #1 2376 sub w2, w3, w2 2377.Lstring_indexof_compressed_loop: 2378 subs w2, w2, #1 2379 b.lt .Lindexof_nomatch 2380 ldrb w6, [x0, #1]! 2381 cmp w6, w1 2382 b.eq .Lstring_indexof_compressed_matched 2383 b .Lstring_indexof_compressed_loop 2384.Lstring_indexof_compressed_matched: 2385 sub x0, x0, x5 2386 ret 2387#endif 2388END art_quick_indexof 2389 2390 /* 2391 * Create a function `name` calling the ReadBarrier::Mark routine, 2392 * getting its argument and returning its result through W register 2393 * `wreg` (corresponding to X register `xreg`), saving and restoring 2394 * all caller-save registers. 2395 * 2396 * If `wreg` is different from `w0`, the generated function follows a 2397 * non-standard runtime calling convention: 2398 * - register `wreg` is used to pass the (sole) argument of this 2399 * function (instead of W0); 2400 * - register `wreg` is used to return the result of this function 2401 * (instead of W0); 2402 * - W0 is treated like a normal (non-argument) caller-save register; 2403 * - everything else is the same as in the standard runtime calling 2404 * convention (e.g. standard callee-save registers are preserved). 2405 */ 2406.macro READ_BARRIER_MARK_REG name, wreg, xreg 2407ENTRY \name 2408 // Reference is null, no work to do at all. 2409 cbz \wreg, .Lret_rb_\name 2410 /* 2411 * Allocate 46 stack slots * 8 = 368 bytes: 2412 * - 20 slots for core registers X0-X19 2413 * - 24 slots for floating-point registers D0-D7 and D16-D31 2414 * - 1 slot for return address register XLR 2415 * - 1 padding slot for 16-byte stack alignment 2416 */ 2417 // Use wIP0 as temp and check the mark bit of the reference. wIP0 is not used by the compiler. 2418 ldr wIP0, [\xreg, #MIRROR_OBJECT_LOCK_WORD_OFFSET] 2419 tbz wIP0, #LOCK_WORD_MARK_BIT_SHIFT, .Lnot_marked_rb_\name 2420.Lret_rb_\name: 2421 ret 2422.Lnot_marked_rb_\name: 2423 // Check if the top two bits are one, if this is the case it is a forwarding address. 2424 mvn wIP0, wIP0 2425 cmp wzr, wIP0, lsr #30 2426 beq .Lret_forwarding_address\name 2427.Lslow_rb_\name: 2428 // We must not clobber IP0 since art_quick_resolve_string makes a tail call here and relies on 2429 // IP0 being restored. 2430 // Save all potentially live caller-save core registers. 2431 SAVE_TWO_REGS_INCREASE_FRAME x0, x1, 368 2432 SAVE_TWO_REGS x2, x3, 16 2433 SAVE_TWO_REGS x4, x5, 32 2434 SAVE_TWO_REGS x6, x7, 48 2435 SAVE_TWO_REGS x8, x9, 64 2436 SAVE_TWO_REGS x10, x11, 80 2437 SAVE_TWO_REGS x12, x13, 96 2438 SAVE_TWO_REGS x14, x15, 112 2439 SAVE_TWO_REGS x16, x17, 128 2440 SAVE_TWO_REGS x18, x19, 144 2441 // Save all potentially live caller-save floating-point registers. 2442 stp d0, d1, [sp, #160] 2443 stp d2, d3, [sp, #176] 2444 stp d4, d5, [sp, #192] 2445 stp d6, d7, [sp, #208] 2446 stp d16, d17, [sp, #224] 2447 stp d18, d19, [sp, #240] 2448 stp d20, d21, [sp, #256] 2449 stp d22, d23, [sp, #272] 2450 stp d24, d25, [sp, #288] 2451 stp d26, d27, [sp, #304] 2452 stp d28, d29, [sp, #320] 2453 stp d30, d31, [sp, #336] 2454 // Save return address. 2455 // (sp + #352 is a padding slot) 2456 SAVE_REG xLR, 360 2457 2458 .ifnc \wreg, w0 2459 mov w0, \wreg // Pass arg1 - obj from `wreg` 2460 .endif 2461 bl artReadBarrierMark // artReadBarrierMark(obj) 2462 .ifnc \wreg, w0 2463 mov \wreg, w0 // Return result into `wreg` 2464 .endif 2465 2466 // Restore core regs, except `xreg`, as `wreg` is used to return the 2467 // result of this function (simply remove it from the stack instead). 2468 POP_REGS_NE x0, x1, 0, \xreg 2469 POP_REGS_NE x2, x3, 16, \xreg 2470 POP_REGS_NE x4, x5, 32, \xreg 2471 POP_REGS_NE x6, x7, 48, \xreg 2472 POP_REGS_NE x8, x9, 64, \xreg 2473 POP_REGS_NE x10, x11, 80, \xreg 2474 POP_REGS_NE x12, x13, 96, \xreg 2475 POP_REGS_NE x14, x15, 112, \xreg 2476 POP_REGS_NE x16, x17, 128, \xreg 2477 POP_REGS_NE x18, x19, 144, \xreg 2478 // Restore floating-point registers. 2479 ldp d0, d1, [sp, #160] 2480 ldp d2, d3, [sp, #176] 2481 ldp d4, d5, [sp, #192] 2482 ldp d6, d7, [sp, #208] 2483 ldp d16, d17, [sp, #224] 2484 ldp d18, d19, [sp, #240] 2485 ldp d20, d21, [sp, #256] 2486 ldp d22, d23, [sp, #272] 2487 ldp d24, d25, [sp, #288] 2488 ldp d26, d27, [sp, #304] 2489 ldp d28, d29, [sp, #320] 2490 ldp d30, d31, [sp, #336] 2491 // Restore return address and remove padding. 2492 RESTORE_REG xLR, 360 2493 DECREASE_FRAME 368 2494 ret 2495.Lret_forwarding_address\name: 2496 mvn wIP0, wIP0 2497 // Shift left by the forwarding address shift. This clears out the state bits since they are 2498 // in the top 2 bits of the lock word. 2499 lsl \wreg, wIP0, #LOCK_WORD_STATE_FORWARDING_ADDRESS_SHIFT 2500 ret 2501END \name 2502.endm 2503 2504READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg00, w0, x0 2505READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg01, w1, x1 2506READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg02, w2, x2 2507READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg03, w3, x3 2508READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg04, w4, x4 2509READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg05, w5, x5 2510READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg06, w6, x6 2511READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg07, w7, x7 2512READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg08, w8, x8 2513READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg09, w9, x9 2514READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg10, w10, x10 2515READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg11, w11, x11 2516READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg12, w12, x12 2517READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg13, w13, x13 2518READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg14, w14, x14 2519READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg15, w15, x15 2520// READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg16, w16, x16 ip0 is blocked 2521READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg17, w17, x17 2522READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg18, w18, x18 2523READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg19, w19, x19 2524READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg20, w20, x20 2525READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg21, w21, x21 2526READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg22, w22, x22 2527READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg23, w23, x23 2528READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg24, w24, x24 2529READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg25, w25, x25 2530READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg26, w26, x26 2531READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg27, w27, x27 2532READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg28, w28, x28 2533READ_BARRIER_MARK_REG art_quick_read_barrier_mark_reg29, w29, x29 2534 2535.extern artInvokePolymorphic 2536ENTRY art_quick_invoke_polymorphic 2537 SETUP_SAVE_REFS_AND_ARGS_FRAME // Save callee saves in case allocation triggers GC. 2538 mov x2, xSELF 2539 mov x3, sp 2540 INCREASE_FRAME 16 // Reserve space for JValue result. 2541 str xzr, [sp, #0] // Initialize result to zero. 2542 mov x0, sp // Set r0 to point to result. 2543 bl artInvokePolymorphic // ArtInvokePolymorphic(result, receiver, thread, save_area) 2544 uxtb w0, w0 // Result is the return type descriptor as a char. 2545 sub w0, w0, 'A' // Convert to zero based index. 2546 cmp w0, 'Z' - 'A' 2547 bhi .Lcleanup_and_return // Clean-up if out-of-bounds. 2548 adrp x1, .Lhandler_table // Compute address of handler table. 2549 add x1, x1, :lo12:.Lhandler_table 2550 ldrb w0, [x1, w0, uxtw] // Lookup handler offset in handler table. 2551 adr x1, .Lstart_of_handlers 2552 add x0, x1, w0, sxtb #2 // Convert relative offset to absolute address. 2553 br x0 // Branch to handler. 2554 2555.Lstart_of_handlers: 2556.Lstore_boolean_result: 2557 ldrb w0, [sp] 2558 b .Lcleanup_and_return 2559.Lstore_char_result: 2560 ldrh w0, [sp] 2561 b .Lcleanup_and_return 2562.Lstore_float_result: 2563 ldr s0, [sp] 2564 str s0, [sp, #32] 2565 b .Lcleanup_and_return 2566.Lstore_double_result: 2567 ldr d0, [sp] 2568 str d0, [sp, #32] 2569 b .Lcleanup_and_return 2570.Lstore_long_result: 2571 ldr x0, [sp] 2572 // Fall-through 2573.Lcleanup_and_return: 2574 DECREASE_FRAME 16 2575 RESTORE_SAVE_REFS_AND_ARGS_FRAME 2576 RETURN_OR_DELIVER_PENDING_EXCEPTION_X1 2577 2578 .section .rodata // Place handler table in read-only section away from text. 2579 .align 2 2580.macro HANDLER_TABLE_OFFSET handler_label 2581 .byte (\handler_label - .Lstart_of_handlers) / 4 2582.endm 2583.Lhandler_table: 2584 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // A 2585 HANDLER_TABLE_OFFSET(.Lstore_long_result) // B (byte) 2586 HANDLER_TABLE_OFFSET(.Lstore_char_result) // C (char) 2587 HANDLER_TABLE_OFFSET(.Lstore_double_result) // D (double) 2588 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // E 2589 HANDLER_TABLE_OFFSET(.Lstore_float_result) // F (float) 2590 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // G 2591 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // H 2592 HANDLER_TABLE_OFFSET(.Lstore_long_result) // I (int) 2593 HANDLER_TABLE_OFFSET(.Lstore_long_result) // J (long) 2594 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // K 2595 HANDLER_TABLE_OFFSET(.Lstore_long_result) // L (object - references are compressed and only 32-bits) 2596 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // M 2597 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // N 2598 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // O 2599 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // P 2600 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // Q 2601 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // R 2602 HANDLER_TABLE_OFFSET(.Lstore_long_result) // S (short) 2603 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // T 2604 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // U 2605 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // V (void) 2606 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // W 2607 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // X 2608 HANDLER_TABLE_OFFSET(.Lcleanup_and_return) // Y 2609 HANDLER_TABLE_OFFSET(.Lstore_boolean_result) // Z (boolean) 2610 .text 2611 2612END art_quick_invoke_polymorphic 2613