1/*
   2 * OpenRISC entry.S
   3 *
   4 * Linux architectural port borrowing liberally from similar works of
   5 * others.  All original copyrights apply as per the original source
   6 * declaration.
   7 *
   8 * Modifications for the OpenRISC architecture:
   9 * Copyright (C) 2003 Matjaz Breskvar <phoenix@bsemi.com>
  10 * Copyright (C) 2005 Gyorgy Jeney <nog@bsemi.com>
  11 * Copyright (C) 2010-2011 Jonas Bonn <jonas@southpole.se>
  12 *
  13 *      This program is free software; you can redistribute it and/or
  14 *      modify it under the terms of the GNU General Public License
  15 *      as published by the Free Software Foundation; either version
  16 *      2 of the License, or (at your option) any later version.
  17 */
  18
  19#include <linux/linkage.h>
  20
  21#include <asm/processor.h>
  22#include <asm/unistd.h>
  23#include <asm/thread_info.h>
  24#include <asm/errno.h>
  25#include <asm/spr_defs.h>
  26#include <asm/page.h>
  27#include <asm/mmu.h>
  28#include <asm/pgtable.h>
  29#include <asm/asm-offsets.h>
  30
  31#define DISABLE_INTERRUPTS(t1,t2)			\
  32	l.mfspr t2,r0,SPR_SR				;\
  33	l.movhi	t1,hi(~(SPR_SR_IEE|SPR_SR_TEE))		;\
  34	l.ori	t1,t1,lo(~(SPR_SR_IEE|SPR_SR_TEE))	;\
  35	l.and   t2,t2,t1				;\
  36	l.mtspr r0,t2,SPR_SR
  37
  38#define ENABLE_INTERRUPTS(t1)				\
  39	l.mfspr	t1,r0,SPR_SR				;\
  40	l.ori	t1,t1,lo(SPR_SR_IEE|SPR_SR_TEE)		;\
  41	l.mtspr	r0,t1,SPR_SR
  42
  43/* =========================================================[ macros ]=== */
  44
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
  45/*
  46 * We need to disable interrupts at beginning of RESTORE_ALL
  47 * since interrupt might come in after we've loaded EPC return address
  48 * and overwrite EPC with address somewhere in RESTORE_ALL
  49 * which is of course wrong!
  50 */
  51
  52#define RESTORE_ALL						\
  53	DISABLE_INTERRUPTS(r3,r4)				;\
  54	l.lwz   r3,PT_PC(r1)					;\
  55	l.mtspr r0,r3,SPR_EPCR_BASE				;\
  56	l.lwz   r3,PT_SR(r1)					;\
  57	l.mtspr r0,r3,SPR_ESR_BASE				;\
  58	l.lwz   r2,PT_GPR2(r1)					;\
  59	l.lwz   r3,PT_GPR3(r1)					;\
  60	l.lwz   r4,PT_GPR4(r1)					;\
  61	l.lwz   r5,PT_GPR5(r1)					;\
  62	l.lwz   r6,PT_GPR6(r1)					;\
  63	l.lwz   r7,PT_GPR7(r1)					;\
  64	l.lwz   r8,PT_GPR8(r1)					;\
  65	l.lwz   r9,PT_GPR9(r1)					;\
  66	l.lwz   r10,PT_GPR10(r1)					;\
  67	l.lwz   r11,PT_GPR11(r1)					;\
  68	l.lwz   r12,PT_GPR12(r1)					;\
  69	l.lwz   r13,PT_GPR13(r1)					;\
  70	l.lwz   r14,PT_GPR14(r1)					;\
  71	l.lwz   r15,PT_GPR15(r1)					;\
  72	l.lwz   r16,PT_GPR16(r1)					;\
  73	l.lwz   r17,PT_GPR17(r1)					;\
  74	l.lwz   r18,PT_GPR18(r1)					;\
  75	l.lwz   r19,PT_GPR19(r1)					;\
  76	l.lwz   r20,PT_GPR20(r1)					;\
  77	l.lwz   r21,PT_GPR21(r1)					;\
  78	l.lwz   r22,PT_GPR22(r1)					;\
  79	l.lwz   r23,PT_GPR23(r1)					;\
  80	l.lwz   r24,PT_GPR24(r1)					;\
  81	l.lwz   r25,PT_GPR25(r1)					;\
  82	l.lwz   r26,PT_GPR26(r1)					;\
  83	l.lwz   r27,PT_GPR27(r1)					;\
  84	l.lwz   r28,PT_GPR28(r1)					;\
  85	l.lwz   r29,PT_GPR29(r1)					;\
  86	l.lwz   r30,PT_GPR30(r1)					;\
  87	l.lwz   r31,PT_GPR31(r1)					;\
  88	l.lwz   r1,PT_SP(r1)					;\
  89	l.rfe
  90
  91
  92#define EXCEPTION_ENTRY(handler)				\
  93	.global	handler						;\
  94handler:							;\
  95	/* r1, EPCR, ESR a already saved */			;\
  96	l.sw	PT_GPR2(r1),r2					;\
  97	l.sw    PT_GPR3(r1),r3					;\
  98	l.sw    PT_ORIG_GPR11(r1),r11				;\
  99	/* r4 already save */					;\
 100	l.sw    PT_GPR5(r1),r5					;\
 101	l.sw    PT_GPR6(r1),r6					;\
 102	l.sw    PT_GPR7(r1),r7					;\
 103	l.sw    PT_GPR8(r1),r8					;\
 104	l.sw    PT_GPR9(r1),r9					;\
 105	/* r10 already saved */					;\
 106	l.sw    PT_GPR11(r1),r11					;\
 107	/* r12 already saved */					;\
 108	l.sw    PT_GPR13(r1),r13					;\
 109	l.sw    PT_GPR14(r1),r14					;\
 110	l.sw    PT_GPR15(r1),r15					;\
 111	l.sw    PT_GPR16(r1),r16					;\
 112	l.sw    PT_GPR17(r1),r17					;\
 113	l.sw    PT_GPR18(r1),r18					;\
 114	l.sw    PT_GPR19(r1),r19					;\
 115	l.sw    PT_GPR20(r1),r20					;\
 116	l.sw    PT_GPR21(r1),r21					;\
 117	l.sw    PT_GPR22(r1),r22					;\
 118	l.sw    PT_GPR23(r1),r23					;\
 119	l.sw    PT_GPR24(r1),r24					;\
 120	l.sw    PT_GPR25(r1),r25					;\
 121	l.sw    PT_GPR26(r1),r26					;\
 122	l.sw    PT_GPR27(r1),r27					;\
 123	l.sw    PT_GPR28(r1),r28					;\
 124	l.sw    PT_GPR29(r1),r29					;\
 125	/* r30 already save */					;\
 126/*        l.sw    PT_GPR30(r1),r30*/					;\
 127	l.sw    PT_GPR31(r1),r31					;\
 128	l.sw    PT_SYSCALLNO(r1),r0
 
 
 
 129
 130#define UNHANDLED_EXCEPTION(handler,vector)			\
 131	.global	handler						;\
 132handler:							;\
 133	/* r1, EPCR, ESR already saved */			;\
 134	l.sw    PT_GPR2(r1),r2					;\
 135	l.sw    PT_GPR3(r1),r3					;\
 136	l.sw    PT_ORIG_GPR11(r1),r11				;\
 137	l.sw    PT_GPR5(r1),r5					;\
 138	l.sw    PT_GPR6(r1),r6					;\
 139	l.sw    PT_GPR7(r1),r7					;\
 140	l.sw    PT_GPR8(r1),r8					;\
 141	l.sw    PT_GPR9(r1),r9					;\
 142	/* r10 already saved */					;\
 143	l.sw    PT_GPR11(r1),r11					;\
 144	/* r12 already saved */					;\
 145	l.sw    PT_GPR13(r1),r13					;\
 146	l.sw    PT_GPR14(r1),r14					;\
 147	l.sw    PT_GPR15(r1),r15					;\
 148	l.sw    PT_GPR16(r1),r16					;\
 149	l.sw    PT_GPR17(r1),r17					;\
 150	l.sw    PT_GPR18(r1),r18					;\
 151	l.sw    PT_GPR19(r1),r19					;\
 152	l.sw    PT_GPR20(r1),r20					;\
 153	l.sw    PT_GPR21(r1),r21					;\
 154	l.sw    PT_GPR22(r1),r22					;\
 155	l.sw    PT_GPR23(r1),r23					;\
 156	l.sw    PT_GPR24(r1),r24					;\
 157	l.sw    PT_GPR25(r1),r25					;\
 158	l.sw    PT_GPR26(r1),r26					;\
 159	l.sw    PT_GPR27(r1),r27					;\
 160	l.sw    PT_GPR28(r1),r28					;\
 161	l.sw    PT_GPR29(r1),r29					;\
 162	/* r31 already saved */					;\
 163	l.sw    PT_GPR30(r1),r30					;\
 164/*        l.sw    PT_GPR31(r1),r31	*/				;\
 165	l.sw    PT_SYSCALLNO(r1),r0				;\
 
 
 166	l.addi	r3,r1,0						;\
 167	/* r4 is exception EA */				;\
 168	l.addi	r5,r0,vector					;\
 169	l.jal	unhandled_exception				;\
 170	 l.nop							;\
 171	l.j	_ret_from_exception				;\
 172	 l.nop
 173
 
 
 
 
 
 174/*
 175 * NOTE: one should never assume that SPR_EPC, SPR_ESR, SPR_EEAR
 176 *       contain the same values as when exception we're handling
 177 *	 occured. in fact they never do. if you need them use
 178 *	 values saved on stack (for SPR_EPC, SPR_ESR) or content
 179 *       of r4 (for SPR_EEAR). for details look at EXCEPTION_HANDLE()
 180 *       in 'arch/or32/kernel/head.S'
 181 */
 182
 183/* =====================================================[ exceptions] === */
 184
 185/* ---[ 0x100: RESET exception ]----------------------------------------- */
 186
 187EXCEPTION_ENTRY(_tng_kernel_start)
 188	l.jal	_start
 189	 l.andi r0,r0,0
 190
 191/* ---[ 0x200: BUS exception ]------------------------------------------- */
 192
 193EXCEPTION_ENTRY(_bus_fault_handler)
 
 194	/* r4: EA of fault (set by EXCEPTION_HANDLE) */
 195	l.jal   do_bus_fault
 196	 l.addi  r3,r1,0 /* pt_regs */
 197
 198	l.j     _ret_from_exception
 199	 l.nop
 200
 201/* ---[ 0x300: Data Page Fault exception ]------------------------------- */
 
 
 
 
 
 202
 203EXCEPTION_ENTRY(_data_page_fault_handler)
 
 204	/* set up parameters for do_page_fault */
 
 
 205	l.addi  r3,r1,0                    // pt_regs
 206	/* r4 set be EXCEPTION_HANDLE */   // effective address of fault
 207	l.ori   r5,r0,0x300                // exception vector
 208
 209	/*
 210	 * __PHX__: TODO
 211	 *
 212	 * all this can be written much simpler. look at
 213	 * DTLB miss handler in the CONFIG_GUARD_PROTECTED_CORE part
 214	 */
 215#ifdef CONFIG_OPENRISC_NO_SPR_SR_DSX
 216	l.lwz   r6,PT_PC(r3)                  // address of an offending insn
 217	l.lwz   r6,0(r6)                   // instruction that caused pf
 218
 219	l.srli  r6,r6,26                   // check opcode for jump insn
 220	l.sfeqi r6,0                       // l.j
 221	l.bf    8f
 222	l.sfeqi r6,1                       // l.jal
 223	l.bf    8f
 224	l.sfeqi r6,3                       // l.bnf
 225	l.bf    8f
 226	l.sfeqi r6,4                       // l.bf
 227	l.bf    8f
 228	l.sfeqi r6,0x11                    // l.jr
 229	l.bf    8f
 230	l.sfeqi r6,0x12                    // l.jalr
 231	l.bf    8f
 232
 233	l.nop
 234
 235	l.j     9f
 236	l.nop
 2378:
 238
 239	l.lwz   r6,PT_PC(r3)                  // address of an offending insn
 
 240	l.addi  r6,r6,4
 241	l.lwz   r6,0(r6)                   // instruction that caused pf
 242	l.srli  r6,r6,26                   // get opcode
 2439:
 244
 245#else
 246
 247	l.mfspr r6,r0,SPR_SR		   // SR
 248//	l.lwz	r6,PT_SR(r3)		   // ESR
 249	l.andi	r6,r6,SPR_SR_DSX	   // check for delay slot exception
 250	l.sfeqi	r6,0x1			   // exception happened in delay slot
 251	l.bnf	7f
 252	l.lwz	r6,PT_PC(r3)		   // address of an offending insn
 253
 254	l.addi	r6,r6,4			   // offending insn is in delay slot
 2557:
 256	l.lwz   r6,0(r6)                   // instruction that caused pf
 257	l.srli  r6,r6,26                   // check opcode for write access
 258#endif
 259
 260	l.sfgeui r6,0x34		   // check opcode for write access
 261	l.bnf   1f
 262	l.sfleui r6,0x37
 263	l.bnf   1f
 264	l.ori   r6,r0,0x1                  // write access
 265	l.j     2f
 266	l.nop
 2671:	l.ori   r6,r0,0x0                  // !write access
 2682:
 269
 270	/* call fault.c handler in or32/mm/fault.c */
 271	l.jal   do_page_fault
 272	l.nop
 273	l.j     _ret_from_exception
 274	l.nop
 275
 276/* ---[ 0x400: Insn Page Fault exception ]------------------------------- */
 
 
 
 
 
 277
 278EXCEPTION_ENTRY(_insn_page_fault_handler)
 
 279	/* set up parameters for do_page_fault */
 
 
 280	l.addi  r3,r1,0                    // pt_regs
 281	/* r4 set be EXCEPTION_HANDLE */   // effective address of fault
 282	l.ori   r5,r0,0x400                // exception vector
 283	l.ori	r6,r0,0x0		   // !write access
 284
 285	/* call fault.c handler in or32/mm/fault.c */
 286	l.jal   do_page_fault
 287	l.nop
 288	l.j     _ret_from_exception
 289	l.nop
 290
 291
 292/* ---[ 0x500: Timer exception ]----------------------------------------- */
 293
 294EXCEPTION_ENTRY(_timer_handler)
 
 295	l.jal	timer_interrupt
 296	 l.addi r3,r1,0 /* pt_regs */
 297
 298	l.j    _ret_from_intr
 299	 l.nop
 300
 301/* ---[ 0x600: Aligment exception ]-------------------------------------- */
 302
 303EXCEPTION_ENTRY(_alignment_handler)
 
 304	/* r4: EA of fault (set by EXCEPTION_HANDLE) */
 305	l.jal   do_unaligned_access
 306	 l.addi  r3,r1,0 /* pt_regs */
 307
 308	l.j     _ret_from_exception
 309	 l.nop
 310
 311#if 0
 312EXCEPTION_ENTRY(_aligment_handler)
 313//        l.mfspr r2,r0,SPR_EEAR_BASE     /* Load the efective addres */
 314	l.addi	r2,r4,0
 315//        l.mfspr r5,r0,SPR_EPCR_BASE     /* Load the insn address */
 316	l.lwz   r5,PT_PC(r1)
 317
 318	l.lwz   r3,0(r5)                /* Load insn */
 319	l.srli  r4,r3,26                /* Shift left to get the insn opcode */
 320
 321	l.sfeqi r4,0x00                 /* Check if the load/store insn is in delay slot */
 322	l.bf    jmp
 323	l.sfeqi r4,0x01
 324	l.bf    jmp
 325	l.sfeqi r4,0x03
 326	l.bf    jmp
 327	l.sfeqi r4,0x04
 328	l.bf    jmp
 329	l.sfeqi r4,0x11
 330	l.bf    jr
 331	l.sfeqi r4,0x12
 332	l.bf    jr
 333	l.nop
 334	l.j     1f
 335	l.addi  r5,r5,4                 /* Increment PC to get return insn address */
 336
 337jmp:
 338	l.slli  r4,r3,6                 /* Get the signed extended jump length */
 339	l.srai  r4,r4,4
 340
 341	l.lwz   r3,4(r5)                /* Load the real load/store insn */
 342
 343	l.add   r5,r5,r4                /* Calculate jump target address */
 344
 345	l.j     1f
 346	l.srli  r4,r3,26                /* Shift left to get the insn opcode */
 347
 348jr:
 349	l.slli  r4,r3,9                 /* Shift to get the reg nb */
 350	l.andi  r4,r4,0x7c
 351
 352	l.lwz   r3,4(r5)                /* Load the real load/store insn */
 353
 354	l.add   r4,r4,r1                /* Load the jump register value from the stack */
 355	l.lwz   r5,0(r4)
 356
 357	l.srli  r4,r3,26                /* Shift left to get the insn opcode */
 358
 359
 3601:
 361//	  l.mtspr r0,r5,SPR_EPCR_BASE
 362	l.sw	PT_PC(r1),r5
 363
 364	l.sfeqi r4,0x26
 365	l.bf    lhs
 366	l.sfeqi r4,0x25
 367	l.bf    lhz
 368	l.sfeqi r4,0x22
 369	l.bf    lws
 370	l.sfeqi r4,0x21
 371	l.bf    lwz
 372	l.sfeqi r4,0x37
 373	l.bf    sh
 374	l.sfeqi r4,0x35
 375	l.bf    sw
 376	l.nop
 377
 3781:      l.j     1b                      /* I don't know what to do */
 379	l.nop
 380
 381lhs:    l.lbs   r5,0(r2)
 382	l.slli  r5,r5,8
 383	l.lbz   r6,1(r2)
 384	l.or    r5,r5,r6
 385	l.srli  r4,r3,19
 386	l.andi  r4,r4,0x7c
 387	l.add   r4,r4,r1
 388	l.j     align_end
 389	l.sw    0(r4),r5
 390
 391lhz:    l.lbz   r5,0(r2)
 392	l.slli  r5,r5,8
 393	l.lbz   r6,1(r2)
 394	l.or    r5,r5,r6
 395	l.srli  r4,r3,19
 396	l.andi  r4,r4,0x7c
 397	l.add   r4,r4,r1
 398	l.j     align_end
 399	l.sw    0(r4),r5
 400
 401lws:    l.lbs   r5,0(r2)
 402	l.slli  r5,r5,24
 403	l.lbz   r6,1(r2)
 404	l.slli  r6,r6,16
 405	l.or    r5,r5,r6
 406	l.lbz   r6,2(r2)
 407	l.slli  r6,r6,8
 408	l.or    r5,r5,r6
 409	l.lbz   r6,3(r2)
 410	l.or    r5,r5,r6
 411	l.srli  r4,r3,19
 412	l.andi  r4,r4,0x7c
 413	l.add   r4,r4,r1
 414	l.j     align_end
 415	l.sw    0(r4),r5
 416
 417lwz:    l.lbz   r5,0(r2)
 418	l.slli  r5,r5,24
 419	l.lbz   r6,1(r2)
 420	l.slli  r6,r6,16
 421	l.or    r5,r5,r6
 422	l.lbz   r6,2(r2)
 423	l.slli  r6,r6,8
 424	l.or    r5,r5,r6
 425	l.lbz   r6,3(r2)
 426	l.or    r5,r5,r6
 427	l.srli  r4,r3,19
 428	l.andi  r4,r4,0x7c
 429	l.add   r4,r4,r1
 430	l.j     align_end
 431	l.sw    0(r4),r5
 432
 433sh:
 434	l.srli  r4,r3,9
 435	l.andi  r4,r4,0x7c
 436	l.add   r4,r4,r1
 437	l.lwz   r5,0(r4)
 438	l.sb    1(r2),r5
 439	l.srli  r5,r5,8
 440	l.j     align_end
 441	l.sb    0(r2),r5
 442
 443sw:
 444	l.srli  r4,r3,9
 445	l.andi  r4,r4,0x7c
 446	l.add   r4,r4,r1
 447	l.lwz   r5,0(r4)
 448	l.sb    3(r2),r5
 449	l.srli  r5,r5,8
 450	l.sb    2(r2),r5
 451	l.srli  r5,r5,8
 452	l.sb    1(r2),r5
 453	l.srli  r5,r5,8
 454	l.j     align_end
 455	l.sb    0(r2),r5
 456
 457align_end:
 458	l.j    _ret_from_intr
 459	l.nop
 460#endif
 461
 462/* ---[ 0x700: Illegal insn exception ]---------------------------------- */
 463
 464EXCEPTION_ENTRY(_illegal_instruction_handler)
 465	/* r4: EA of fault (set by EXCEPTION_HANDLE) */
 466	l.jal   do_illegal_instruction
 467	 l.addi  r3,r1,0 /* pt_regs */
 468
 469	l.j     _ret_from_exception
 470	 l.nop
 471
 472/* ---[ 0x800: External interrupt exception ]---------------------------- */
 473
 474EXCEPTION_ENTRY(_external_irq_handler)
 475#ifdef CONFIG_OPENRISC_ESR_EXCEPTION_BUG_CHECK
 476	l.lwz	r4,PT_SR(r1)		// were interrupts enabled ?
 477	l.andi	r4,r4,SPR_SR_IEE
 478	l.sfeqi	r4,0
 479	l.bnf	1f			// ext irq enabled, all ok.
 480	l.nop
 481
 482	l.addi  r1,r1,-0x8
 483	l.movhi r3,hi(42f)
 484	l.ori	r3,r3,lo(42f)
 485	l.sw    0x0(r1),r3
 486	l.jal   printk
 487	l.sw    0x4(r1),r4
 488	l.addi  r1,r1,0x8
 489
 490	.section .rodata, "a"
 49142:
 492		.string "\n\rESR interrupt bug: in _external_irq_handler (ESR %x)\n\r"
 493		.align 4
 494	.previous
 495
 496	l.ori	r4,r4,SPR_SR_IEE	// fix the bug
 497//	l.sw	PT_SR(r1),r4
 4981:
 499#endif
 
 500	l.addi	r3,r1,0
 501	l.movhi	r8,hi(do_IRQ)
 502	l.ori	r8,r8,lo(do_IRQ)
 503	l.jalr r8
 504	l.nop
 505	l.j    _ret_from_intr
 506	l.nop
 507
 508/* ---[ 0x900: DTLB miss exception ]------------------------------------- */
 509
 510
 511/* ---[ 0xa00: ITLB miss exception ]------------------------------------- */
 512
 513
 514/* ---[ 0xb00: Range exception ]----------------------------------------- */
 515
 516UNHANDLED_EXCEPTION(_vector_0xb00,0xb00)
 517
 518/* ---[ 0xc00: Syscall exception ]--------------------------------------- */
 519
 520/*
 521 * Syscalls are a special type of exception in that they are
 522 * _explicitly_ invoked by userspace and can therefore be
 523 * held to conform to the same ABI as normal functions with
 524 * respect to whether registers are preserved across the call
 525 * or not.
 526 */
 527
 528/* Upon syscall entry we just save the callee-saved registers
 529 * and not the call-clobbered ones.
 530 */
 531
 532_string_syscall_return:
 533	.string "syscall return %ld \n\r\0"
 534	.align 4
 535
 536ENTRY(_sys_call_handler)
 537	/* syscalls run with interrupts enabled */
 538	ENABLE_INTERRUPTS(r29)		// enable interrupts, r29 is temp
 539
 540	/* r1, EPCR, ESR a already saved */
 541	l.sw	PT_GPR2(r1),r2
 542	/* r3-r8 must be saved because syscall restart relies
 543	 * on us being able to restart the syscall args... technically
 544	 * they should be clobbered, otherwise
 545	 */
 546	l.sw    PT_GPR3(r1),r3
 547	/* r4 already saved */
 548	/* r4 holds the EEAR address of the fault, load the original r4 */
 
 
 
 
 549	l.lwz	r4,PT_GPR4(r1)
 550	l.sw    PT_GPR5(r1),r5
 551	l.sw    PT_GPR6(r1),r6
 552	l.sw    PT_GPR7(r1),r7
 553	l.sw    PT_GPR8(r1),r8
 554	l.sw    PT_GPR9(r1),r9
 555	/* r10 already saved */
 556	l.sw    PT_GPR11(r1),r11
 
 557	l.sw    PT_ORIG_GPR11(r1),r11
 558	/* r12,r13 already saved */
 559
 560	/* r14-r28 (even) aren't touched by the syscall fast path below
 561	 * so we don't need to save them.  However, the functions that return
 562	 * to userspace via a call to switch() DO need to save these because
 563	 * switch() effectively clobbers them... saving these registers for
 564	 * such functions is handled in their syscall wrappers (see fork, vfork,
 565	 * and clone, below).
 566
 567	/* r30 is the only register we clobber in the fast path */
 568	/* r30 already saved */
 569/*	l.sw    PT_GPR30(r1),r30 */
 570	/* This is used by do_signal to determine whether to check for
 571	 * syscall restart or not */
 572	l.sw    PT_SYSCALLNO(r1),r11
 573
 574_syscall_check_trace_enter:
 
 
 
 
 575	/* If TIF_SYSCALL_TRACE is set, then we want to do syscall tracing */
 576	l.lwz	r30,TI_FLAGS(r10)
 577	l.andi	r30,r30,_TIF_SYSCALL_TRACE
 578	l.sfne	r30,r0
 579	l.bf	_syscall_trace_enter
 580	 l.nop
 581
 582_syscall_check:
 583	/* Ensure that the syscall number is reasonable */
 584	l.sfgeui r11,__NR_syscalls
 585	l.bf	_syscall_badsys
 586	 l.nop
 587
 588_syscall_call:
 589	l.movhi r29,hi(sys_call_table)
 590	l.ori   r29,r29,lo(sys_call_table)
 591	l.slli  r11,r11,2
 592	l.add   r29,r29,r11
 593	l.lwz   r29,0(r29)
 594
 595	l.jalr  r29
 596	 l.nop
 597
 598_syscall_return:
 599	/* All syscalls return here... just pay attention to ret_from_fork
 600	 * which does it in a round-about way.
 601	 */
 602	l.sw    PT_GPR11(r1),r11           // save return value
 603
 604#if 0
 605_syscall_debug:
 606	l.movhi r3,hi(_string_syscall_return)
 607	l.ori   r3,r3,lo(_string_syscall_return)
 608	l.ori   r27,r0,1
 609	l.sw    -4(r1),r27
 610	l.sw    -8(r1),r11
 611	l.addi  r1,r1,-8
 612	l.movhi r27,hi(printk)
 613	l.ori   r27,r27,lo(printk)
 614	l.jalr  r27
 615	 l.nop
 616	l.addi  r1,r1,8
 617#endif
 618
 619_syscall_check_trace_leave:
 620	/* r30 is a callee-saved register so this should still hold the
 621	 * _TIF_SYSCALL_TRACE flag from _syscall_check_trace_enter above...
 622	 * _syscall_trace_leave expects syscall result to be in pt_regs->r11.
 623	 */
 624	l.sfne	r30,r0
 625	l.bf	_syscall_trace_leave
 626	 l.nop
 627
 628/* This is where the exception-return code begins... interrupts need to be
 629 * disabled the rest of the way here because we can't afford to miss any
 630 * interrupts that set NEED_RESCHED or SIGNALPENDING... really true? */
 631
 632_syscall_check_work:
 633	/* Here we need to disable interrupts */
 634	DISABLE_INTERRUPTS(r27,r29)
 
 635	l.lwz	r30,TI_FLAGS(r10)
 636	l.andi	r30,r30,_TIF_WORK_MASK
 637	l.sfne	r30,r0
 638
 639	l.bnf	_syscall_resume_userspace
 640	 l.nop
 641
 642	/* Work pending follows a different return path, so we need to
 643	 * make sure that all the call-saved registers get into pt_regs
 644	 * before branching...
 645	 */
 646	l.sw    PT_GPR14(r1),r14
 647	l.sw    PT_GPR16(r1),r16
 648	l.sw    PT_GPR18(r1),r18
 649	l.sw    PT_GPR20(r1),r20
 650	l.sw    PT_GPR22(r1),r22
 651	l.sw    PT_GPR24(r1),r24
 652	l.sw    PT_GPR26(r1),r26
 653	l.sw    PT_GPR28(r1),r28
 654
 655	/* _work_pending needs to be called with interrupts disabled */
 656	l.j	_work_pending
 657	 l.nop
 658
 659_syscall_resume_userspace:
 660//	ENABLE_INTERRUPTS(r29)
 661
 662
 663/* This is the hot path for returning to userspace from a syscall.  If there's
 664 * work to be done and the branch to _work_pending was taken above, then the
 665 * return to userspace will be done via the normal exception return path...
 666 * that path restores _all_ registers and will overwrite the "clobbered"
 667 * registers with whatever garbage is in pt_regs -- that's OK because those
 668 * registers are clobbered anyway and because the extra work is insignificant
 669 * in the context of the extra work that _work_pending is doing.
 670
 671/* Once again, syscalls are special and only guarantee to preserve the
 672 * same registers as a normal function call */
 673
 674/* The assumption here is that the registers r14-r28 (even) are untouched and
 675 * don't need to be restored... be sure that that's really the case!
 676 */
 677
 678/* This is still too much... we should only be restoring what we actually
 679 * clobbered... we should even be using 'scratch' (odd) regs above so that
 680 * we don't need to restore anything, hardly...
 681 */
 682
 683	l.lwz	r2,PT_GPR2(r1)
 684
 685	/* Restore args */
 686	/* r3-r8 are technically clobbered, but syscall restart needs these
 687	 * to be restored...
 688	 */
 689	l.lwz	r3,PT_GPR3(r1)
 690	l.lwz	r4,PT_GPR4(r1)
 691	l.lwz	r5,PT_GPR5(r1)
 692	l.lwz	r6,PT_GPR6(r1)
 693	l.lwz	r7,PT_GPR7(r1)
 694	l.lwz	r8,PT_GPR8(r1)
 695
 696	l.lwz	r9,PT_GPR9(r1)
 697	l.lwz	r10,PT_GPR10(r1)
 698	l.lwz	r11,PT_GPR11(r1)
 699
 700	/* r30 is the only register we clobber in the fast path */
 701	l.lwz	r30,PT_GPR30(r1)
 702
 703	/* Here we use r13-r19 (odd) as scratch regs */
 704	l.lwz   r13,PT_PC(r1)
 705	l.lwz   r15,PT_SR(r1)
 706	l.lwz	r1,PT_SP(r1)
 707	/* Interrupts need to be disabled for setting EPCR and ESR
 708	 * so that another interrupt doesn't come in here and clobber
 709	 * them before we can use them for our l.rfe */
 710	DISABLE_INTERRUPTS(r17,r19)
 711	l.mtspr r0,r13,SPR_EPCR_BASE
 712	l.mtspr r0,r15,SPR_ESR_BASE
 713	l.rfe
 714
 715/* End of hot path!
 716 * Keep the below tracing and error handling out of the hot path...
 717*/
 718
 719_syscall_trace_enter:
 720	/* Here we pass pt_regs to do_syscall_trace_enter.  Make sure
 721	 * that function is really getting all the info it needs as
 722	 * pt_regs isn't a complete set of userspace regs, just the
 723	 * ones relevant to the syscall...
 724	 *
 725	 * Note use of delay slot for setting argument.
 726	 */
 727	l.jal	do_syscall_trace_enter
 728	 l.addi	r3,r1,0
 729
 730	/* Restore arguments (not preserved across do_syscall_trace_enter)
 731	 * so that we can do the syscall for real and return to the syscall
 732	 * hot path.
 733	 */
 734	l.lwz	r11,PT_SYSCALLNO(r1)
 735	l.lwz	r3,PT_GPR3(r1)
 736	l.lwz	r4,PT_GPR4(r1)
 737	l.lwz	r5,PT_GPR5(r1)
 738	l.lwz	r6,PT_GPR6(r1)
 739	l.lwz	r7,PT_GPR7(r1)
 740
 741	l.j	_syscall_check
 742	 l.lwz	r8,PT_GPR8(r1)
 743
 744_syscall_trace_leave:
 745	l.jal	do_syscall_trace_leave
 746	 l.addi	r3,r1,0
 747
 748	l.j	_syscall_check_work
 749	 l.nop
 750
 751_syscall_badsys:
 752	/* Here we effectively pretend to have executed an imaginary
 753	 * syscall that returns -ENOSYS and then return to the regular
 754	 * syscall hot path.
 755	 * Note that "return value" is set in the delay slot...
 756	 */
 757	l.j	_syscall_return
 758	 l.addi	r11,r0,-ENOSYS
 759
 760/******* END SYSCALL HANDLING *******/
 761
 762/* ---[ 0xd00: Trap exception ]------------------------------------------ */
 763
 764UNHANDLED_EXCEPTION(_vector_0xd00,0xd00)
 765
 766/* ---[ 0xe00: Trap exception ]------------------------------------------ */
 767
 768EXCEPTION_ENTRY(_trap_handler)
 
 769	/* r4: EA of fault (set by EXCEPTION_HANDLE) */
 770	l.jal   do_trap
 771	 l.addi  r3,r1,0 /* pt_regs */
 772
 773	l.j     _ret_from_exception
 774	 l.nop
 775
 776/* ---[ 0xf00: Reserved exception ]-------------------------------------- */
 777
 778UNHANDLED_EXCEPTION(_vector_0xf00,0xf00)
 779
 780/* ---[ 0x1000: Reserved exception ]------------------------------------- */
 781
 782UNHANDLED_EXCEPTION(_vector_0x1000,0x1000)
 783
 784/* ---[ 0x1100: Reserved exception ]------------------------------------- */
 785
 786UNHANDLED_EXCEPTION(_vector_0x1100,0x1100)
 787
 788/* ---[ 0x1200: Reserved exception ]------------------------------------- */
 789
 790UNHANDLED_EXCEPTION(_vector_0x1200,0x1200)
 791
 792/* ---[ 0x1300: Reserved exception ]------------------------------------- */
 793
 794UNHANDLED_EXCEPTION(_vector_0x1300,0x1300)
 795
 796/* ---[ 0x1400: Reserved exception ]------------------------------------- */
 797
 798UNHANDLED_EXCEPTION(_vector_0x1400,0x1400)
 799
 800/* ---[ 0x1500: Reserved exception ]------------------------------------- */
 801
 802UNHANDLED_EXCEPTION(_vector_0x1500,0x1500)
 803
 804/* ---[ 0x1600: Reserved exception ]------------------------------------- */
 805
 806UNHANDLED_EXCEPTION(_vector_0x1600,0x1600)
 807
 808/* ---[ 0x1700: Reserved exception ]------------------------------------- */
 809
 810UNHANDLED_EXCEPTION(_vector_0x1700,0x1700)
 811
 812/* ---[ 0x1800: Reserved exception ]------------------------------------- */
 813
 814UNHANDLED_EXCEPTION(_vector_0x1800,0x1800)
 815
 816/* ---[ 0x1900: Reserved exception ]------------------------------------- */
 817
 818UNHANDLED_EXCEPTION(_vector_0x1900,0x1900)
 819
 820/* ---[ 0x1a00: Reserved exception ]------------------------------------- */
 821
 822UNHANDLED_EXCEPTION(_vector_0x1a00,0x1a00)
 823
 824/* ---[ 0x1b00: Reserved exception ]------------------------------------- */
 825
 826UNHANDLED_EXCEPTION(_vector_0x1b00,0x1b00)
 827
 828/* ---[ 0x1c00: Reserved exception ]------------------------------------- */
 829
 830UNHANDLED_EXCEPTION(_vector_0x1c00,0x1c00)
 831
 832/* ---[ 0x1d00: Reserved exception ]------------------------------------- */
 833
 834UNHANDLED_EXCEPTION(_vector_0x1d00,0x1d00)
 835
 836/* ---[ 0x1e00: Reserved exception ]------------------------------------- */
 837
 838UNHANDLED_EXCEPTION(_vector_0x1e00,0x1e00)
 839
 840/* ---[ 0x1f00: Reserved exception ]------------------------------------- */
 841
 842UNHANDLED_EXCEPTION(_vector_0x1f00,0x1f00)
 843
 844/* ========================================================[ return ] === */
 845
 
 
 
 
 
 
 
 
 
 846_work_pending:
 847	/*
 848	 * if (current_thread_info->flags & _TIF_NEED_RESCHED)
 849	 *     schedule();
 850	 */
 851	l.lwz   r5,TI_FLAGS(r10)
 852	l.andi	r3,r5,_TIF_NEED_RESCHED
 853	l.sfnei r3,0
 854	l.bnf   _work_notifysig
 855	 l.nop
 856	l.jal   schedule
 
 
 
 
 
 
 857	 l.nop
 858	l.j	_resume_userspace
 
 859	 l.nop
 860
 861/* Handle pending signals and notify-resume requests.
 862 * do_notify_resume must be passed the latest pushed pt_regs, not
 863 * necessarily the "userspace" ones.  Also, pt_regs->syscallno
 864 * must be set so that the syscall restart functionality works.
 865 */
 866_work_notifysig:
 867	l.jal	do_notify_resume
 868	 l.ori	r3,r1,0		  /* pt_regs */
 869
 870_resume_userspace:
 871	DISABLE_INTERRUPTS(r3,r4)
 872	l.lwz	r3,TI_FLAGS(r10)
 873	l.andi	r3,r3,_TIF_WORK_MASK
 874	l.sfnei	r3,0
 875	l.bf	_work_pending
 876	 l.nop
 
 
 
 
 
 
 
 
 
 
 877
 878_restore_all:
 
 
 
 
 
 
 
 
 
 879	RESTORE_ALL
 880	/* This returns to userspace code */
 881
 882
 883ENTRY(_ret_from_intr)
 884ENTRY(_ret_from_exception)
 885	l.lwz	r4,PT_SR(r1)
 886	l.andi	r3,r4,SPR_SR_SM
 887	l.sfeqi	r3,0
 888	l.bnf	_restore_all
 889	 l.nop
 890	l.j	_resume_userspace
 891	 l.nop
 892
 893ENTRY(ret_from_fork)
 894	l.jal	schedule_tail
 895	 l.nop
 896
 
 
 
 
 
 
 
 
 
 
 897	/* _syscall_returns expect r11 to contain return value */
 898	l.lwz	r11,PT_GPR11(r1)
 899
 900	/* The syscall fast path return expects call-saved registers
 901	 * r12-r28 to be untouched, so we restore them here as they
 902	 * will have been effectively clobbered when arriving here
 903	 * via the call to switch()
 904	 */
 905	l.lwz	r12,PT_GPR12(r1)
 906	l.lwz	r14,PT_GPR14(r1)
 907	l.lwz	r16,PT_GPR16(r1)
 908	l.lwz	r18,PT_GPR18(r1)
 909	l.lwz	r20,PT_GPR20(r1)
 910	l.lwz	r22,PT_GPR22(r1)
 911	l.lwz	r24,PT_GPR24(r1)
 912	l.lwz	r26,PT_GPR26(r1)
 913	l.lwz	r28,PT_GPR28(r1)
 914
 915	l.j	_syscall_return
 916	 l.nop
 917
 918/* Since syscalls don't save call-clobbered registers, the args to
 919 * kernel_thread_helper will need to be passed through callee-saved
 920 * registers and copied to the parameter registers when the thread
 921 * begins running.
 922 *
 923 * See arch/openrisc/kernel/process.c:
 924 * The args are passed as follows:
 925 *   arg1 (r3) : passed in r20
 926 *   arg2 (r4) : passed in r22
 927 */
 928
 929ENTRY(_kernel_thread_helper)
 930	l.or	r3,r20,r0
 931	l.or	r4,r22,r0
 932	l.movhi	r31,hi(kernel_thread_helper)
 933	l.ori	r31,r31,lo(kernel_thread_helper)
 934	l.jr	r31
 935	 l.nop
 936
 937
 938/* ========================================================[ switch ] === */
 939
 940/*
 941 * This routine switches between two different tasks.  The process
 942 * state of one is saved on its kernel stack.  Then the state
 943 * of the other is restored from its kernel stack.  The memory
 944 * management hardware is updated to the second process's state.
 945 * Finally, we can return to the second process, via the 'return'.
 946 *
 947 * Note: there are two ways to get to the "going out" portion
 948 * of this code; either by coming in via the entry (_switch)
 949 * or via "fork" which must set up an environment equivalent
 950 * to the "_switch" path.  If you change this (or in particular, the
 951 * SAVE_REGS macro), you'll have to change the fork code also.
 952 */
 953
 954
 955/* _switch MUST never lay on page boundry, cause it runs from
 956 * effective addresses and beeing interrupted by iTLB miss would kill it.
 957 * dTLB miss seams to never accour in the bad place since data accesses
 958 * are from task structures which are always page aligned.
 959 *
 960 * The problem happens in RESTORE_ALL_NO_R11 where we first set the EPCR
 961 * register, then load the previous register values and only at the end call
 962 * the l.rfe instruction. If get TLB miss in beetwen the EPCR register gets
 963 * garbled and we end up calling l.rfe with the wrong EPCR. (same probably
 964 * holds for ESR)
 965 *
 966 * To avoid this problems it is sufficient to align _switch to
 967 * some nice round number smaller than it's size...
 968 */
 969
 970/* ABI rules apply here... we either enter _switch via schedule() or via
 971 * an imaginary call to which we shall return at return_from_fork.  Either
 972 * way, we are a function call and only need to preserve the callee-saved
 973 * registers when we return.  As such, we don't need to save the registers
 974 * on the stack that we won't be returning as they were...
 975 */
 976
 977	.align 0x400
 978ENTRY(_switch)
 979	/* We don't store SR as _switch only gets called in a context where
 980	 * the SR will be the same going in and coming out... */
 981
 982	/* Set up new pt_regs struct for saving task state */
 983	l.addi  r1,r1,-(INT_FRAME_SIZE)
 984
 985	/* No need to store r1/PT_SP as it goes into KSP below */
 986	l.sw    PT_GPR2(r1),r2
 987	l.sw    PT_GPR9(r1),r9
 988	/* This is wrong, r12 shouldn't be here... but GCC is broken for the time being
 989	 * and expects r12 to be callee-saved... */
 990	l.sw    PT_GPR12(r1),r12
 991	l.sw    PT_GPR14(r1),r14
 992	l.sw    PT_GPR16(r1),r16
 993	l.sw    PT_GPR18(r1),r18
 994	l.sw    PT_GPR20(r1),r20
 995	l.sw    PT_GPR22(r1),r22
 996	l.sw    PT_GPR24(r1),r24
 997	l.sw    PT_GPR26(r1),r26
 998	l.sw    PT_GPR28(r1),r28
 999	l.sw    PT_GPR30(r1),r30
1000
1001	l.addi	r11,r10,0			/* Save old 'current' to 'last' return value*/
1002
1003	/* We use thread_info->ksp for storing the address of the above
1004	 * structure so that we can get back to it later... we don't want
1005	 * to lose the value of thread_info->ksp, though, so store it as
1006	 * pt_regs->sp so that we can easily restore it when we are made
1007	 * live again...
1008	 */
1009
1010	/* Save the old value of thread_info->ksp as pt_regs->sp */
1011	l.lwz	r29,TI_KSP(r10)
1012	l.sw	PT_SP(r1),r29
1013
1014	/* Swap kernel stack pointers */
1015	l.sw    TI_KSP(r10),r1			/* Save old stack pointer */
1016	l.or	r10,r4,r0			/* Set up new current_thread_info */
1017	l.lwz   r1,TI_KSP(r10)			/* Load new stack pointer */
1018
1019	/* Restore the old value of thread_info->ksp */
1020	l.lwz	r29,PT_SP(r1)
1021	l.sw	TI_KSP(r10),r29
1022
1023	/* ...and restore the registers, except r11 because the return value
1024	 * has already been set above.
1025	 */
1026	l.lwz   r2,PT_GPR2(r1)
1027	l.lwz   r9,PT_GPR9(r1)
1028	/* No need to restore r10 */
1029	/* ...and do not restore r11 */
1030
1031	/* This is wrong, r12 shouldn't be here... but GCC is broken for the time being
1032	 * and expects r12 to be callee-saved... */
1033	l.lwz   r12,PT_GPR12(r1)
1034	l.lwz   r14,PT_GPR14(r1)
1035	l.lwz   r16,PT_GPR16(r1)
1036	l.lwz   r18,PT_GPR18(r1)
1037	l.lwz   r20,PT_GPR20(r1)
1038	l.lwz   r22,PT_GPR22(r1)
1039	l.lwz   r24,PT_GPR24(r1)
1040	l.lwz   r26,PT_GPR26(r1)
1041	l.lwz   r28,PT_GPR28(r1)
1042	l.lwz   r30,PT_GPR30(r1)
1043
1044	/* Unwind stack to pre-switch state */
1045	l.addi  r1,r1,(INT_FRAME_SIZE)
1046
1047	/* Return via the link-register back to where we 'came from', where that can be
1048	 * either schedule() or return_from_fork()... */
 
 
 
 
 
1049	l.jr	r9
1050	 l.nop
1051
1052/* ==================================================================== */
1053
1054/* These all use the delay slot for setting the argument register, so the
1055 * jump is always happening after the l.addi instruction.
1056 *
1057 * These are all just wrappers that don't touch the link-register r9, so the
1058 * return from the "real" syscall function will return back to the syscall
1059 * code that did the l.jal that brought us here.
1060 */
1061
1062/* fork requires that we save all the callee-saved registers because they
1063 * are all effectively clobbered by the call to _switch.  Here we store
1064 * all the registers that aren't touched by the syscall fast path and thus
1065 * weren't saved there.
1066 */
1067
1068_fork_save_extra_regs_and_call:
1069	l.sw    PT_GPR14(r1),r14
1070	l.sw    PT_GPR16(r1),r16
1071	l.sw    PT_GPR18(r1),r18
1072	l.sw    PT_GPR20(r1),r20
1073	l.sw    PT_GPR22(r1),r22
1074	l.sw    PT_GPR24(r1),r24
1075	l.sw    PT_GPR26(r1),r26
1076	l.jr	r29
1077	 l.sw    PT_GPR28(r1),r28
1078
1079ENTRY(sys_clone)
1080	l.movhi	r29,hi(_sys_clone)
1081	l.ori	r29,r29,lo(_sys_clone)
1082	l.j	_fork_save_extra_regs_and_call
1083	 l.addi	r7,r1,0
1084
1085ENTRY(sys_fork)
1086	l.movhi	r29,hi(_sys_fork)
1087	l.ori	r29,r29,lo(_sys_fork)
1088	l.j	_fork_save_extra_regs_and_call
1089	 l.addi	r3,r1,0
1090
1091ENTRY(sys_execve)
1092	l.j	_sys_execve
1093	 l.addi	r6,r1,0
1094
1095ENTRY(sys_sigaltstack)
1096	l.j	_sys_sigaltstack
1097	 l.addi	r5,r1,0
1098
1099ENTRY(sys_rt_sigreturn)
1100	l.j	_sys_rt_sigreturn
 
 
 
 
 
1101	 l.addi	r3,r1,0
 
 
 
1102
1103/* This is a catch-all syscall for atomic instructions for the OpenRISC 1000.
1104 * The functions takes a variable number of parameters depending on which
1105 * particular flavour of atomic you want... parameter 1 is a flag identifying
1106 * the atomic in question.  Currently, this function implements the
1107 * following variants:
1108 *
1109 * XCHG:
1110 *  @flag: 1
1111 *  @ptr1:
1112 *  @ptr2:
1113 * Atomically exchange the values in pointers 1 and 2.
1114 *
1115 */
1116
1117ENTRY(sys_or1k_atomic)
1118	/* FIXME: This ignores r3 and always does an XCHG */
1119	DISABLE_INTERRUPTS(r17,r19)
1120	l.lwz	r30,0(r4)
1121	l.lwz	r28,0(r5)
1122	l.sw	0(r4),r28
1123	l.sw	0(r5),r30
1124	ENABLE_INTERRUPTS(r17)
1125	l.jr	r9
1126	 l.or	r11,r0,r0
1127
1128/* ============================================================[ EOF ]=== */