/* * This file is subject to the terms and conditions of the GNU General Public * License. See the file "COPYING" in the main directory of this archive * for more details. * * arch/sh64/kernel/entry.S * * Copyright (C) 2000, 2001 Paolo Alberelli * Copyright (C) 2004, 2005 Paul Mundt * Copyright (C) 2003, 2004 Richard Curnow * */ #include #include #include #include #include #include #include #include /* * SR fields. */ #define SR_ASID_MASK 0x00ff0000 #define SR_FD_MASK 0x00008000 #define SR_SS 0x08000000 #define SR_BL 0x10000000 #define SR_MD 0x40000000 /* * Event code. */ #define EVENT_INTERRUPT 0 #define EVENT_FAULT_TLB 1 #define EVENT_FAULT_NOT_TLB 2 #define EVENT_DEBUG 3 /* EXPEVT values */ #define RESET_CAUSE 0x20 #define DEBUGSS_CAUSE 0x980 /* * Frame layout. Quad index. */ #define FRAME_T(x) FRAME_TBASE+(x*8) #define FRAME_R(x) FRAME_RBASE+(x*8) #define FRAME_S(x) FRAME_SBASE+(x*8) #define FSPC 0 #define FSSR 1 #define FSYSCALL_ID 2 /* Arrange the save frame to be a multiple of 32 bytes long */ #define FRAME_SBASE 0 #define FRAME_RBASE (FRAME_SBASE+(3*8)) /* SYSCALL_ID - SSR - SPC */ #define FRAME_TBASE (FRAME_RBASE+(63*8)) /* r0 - r62 */ #define FRAME_PBASE (FRAME_TBASE+(8*8)) /* tr0 -tr7 */ #define FRAME_SIZE (FRAME_PBASE+(2*8)) /* pad0-pad1 */ #define FP_FRAME_SIZE FP_FRAME_BASE+(33*8) /* dr0 - dr31 + fpscr */ #define FP_FRAME_BASE 0 #define SAVED_R2 0*8 #define SAVED_R3 1*8 #define SAVED_R4 2*8 #define SAVED_R5 3*8 #define SAVED_R18 4*8 #define SAVED_R6 5*8 #define SAVED_TR0 6*8 /* These are the registers saved in the TLB path that aren't saved in the first level of the normal one. */ #define TLB_SAVED_R25 7*8 #define TLB_SAVED_TR1 8*8 #define TLB_SAVED_TR2 9*8 #define TLB_SAVED_TR3 10*8 #define TLB_SAVED_TR4 11*8 /* Save R0/R1 : PT-migrating compiler currently dishounours -ffixed-r0 and -ffixed-r1 causing breakage otherwise. */ #define TLB_SAVED_R0 12*8 #define TLB_SAVED_R1 13*8 #define CLI() \ getcon SR, r6; \ ori r6, 0xf0, r6; \ putcon r6, SR; #define STI() \ getcon SR, r6; \ andi r6, ~0xf0, r6; \ putcon r6, SR; #ifdef CONFIG_PREEMPT # define preempt_stop() CLI() #else # define preempt_stop() # define resume_kernel restore_all #endif .section .data, "aw" #define FAST_TLBMISS_STACK_CACHELINES 4 #define FAST_TLBMISS_STACK_QUADWORDS (4*FAST_TLBMISS_STACK_CACHELINES) /* Register back-up area for all exceptions */ .balign 32 /* Allow for 16 quadwords to be pushed by fast tlbmiss handling * register saves etc. */ .fill FAST_TLBMISS_STACK_QUADWORDS, 8, 0x0 /* This is 32 byte aligned by construction */ /* Register back-up area for all exceptions */ reg_save_area: .quad 0 .quad 0 .quad 0 .quad 0 .quad 0 .quad 0 .quad 0 .quad 0 .quad 0 .quad 0 .quad 0 .quad 0 .quad 0 .quad 0 /* Save area for RESVEC exceptions. We cannot use reg_save_area because of * reentrancy. Note this area may be accessed via physical address. * Align so this fits a whole single cache line, for ease of purging. */ .balign 32,0,32 resvec_save_area: .quad 0 .quad 0 .quad 0 .quad 0 .quad 0 .balign 32,0,32 /* Jump table of 3rd level handlers */ trap_jtable: .long do_exception_error /* 0x000 */ .long do_exception_error /* 0x020 */ .long tlb_miss_load /* 0x040 */ .long tlb_miss_store /* 0x060 */ ! ARTIFICIAL pseudo-EXPEVT setting .long do_debug_interrupt /* 0x080 */ .long tlb_miss_load /* 0x0A0 */ .long tlb_miss_store /* 0x0C0 */ .long do_address_error_load /* 0x0E0 */ .long do_address_error_store /* 0x100 */ #ifdef CONFIG_SH_FPU .long do_fpu_error /* 0x120 */ #else .long do_exception_error /* 0x120 */ #endif .long do_exception_error /* 0x140 */ .long system_call /* 0x160 */ .long do_reserved_inst /* 0x180 */ .long do_illegal_slot_inst /* 0x1A0 */ .long do_NMI /* 0x1C0 */ .long do_exception_error /* 0x1E0 */ .rept 15 .long do_IRQ /* 0x200 - 0x3C0 */ .endr .long do_exception_error /* 0x3E0 */ .rept 32 .long do_IRQ /* 0x400 - 0x7E0 */ .endr .long fpu_error_or_IRQA /* 0x800 */ .long fpu_error_or_IRQB /* 0x820 */ .long do_IRQ /* 0x840 */ .long do_IRQ /* 0x860 */ .rept 6 .long do_exception_error /* 0x880 - 0x920 */ .endr .long do_software_break_point /* 0x940 */ .long do_exception_error /* 0x960 */ .long do_single_step /* 0x980 */ .rept 3 .long do_exception_error /* 0x9A0 - 0x9E0 */ .endr .long do_IRQ /* 0xA00 */ .long do_IRQ /* 0xA20 */ .long itlb_miss_or_IRQ /* 0xA40 */ .long do_IRQ /* 0xA60 */ .long do_IRQ /* 0xA80 */ .long itlb_miss_or_IRQ /* 0xAA0 */ .long do_exception_error /* 0xAC0 */ .long do_address_error_exec /* 0xAE0 */ .rept 8 .long do_exception_error /* 0xB00 - 0xBE0 */ .endr .rept 18 .long do_IRQ /* 0xC00 - 0xE20 */ .endr .section .text64, "ax" /* * --- Exception/Interrupt/Event Handling Section */ /* * VBR and RESVEC blocks. * * First level handler for VBR-based exceptions. * * To avoid waste of space, align to the maximum text block size. * This is assumed to be at most 128 bytes or 32 instructions. * DO NOT EXCEED 32 instructions on the first level handlers ! * * Also note that RESVEC is contained within the VBR block * where the room left (1KB - TEXT_SIZE) allows placing * the RESVEC block (at most 512B + TEXT_SIZE). * * So first (and only) level handler for RESVEC-based exceptions. * * Where the fault/interrupt is handled (not_a_tlb_miss, tlb_miss * and interrupt) we are a lot tight with register space until * saving onto the stack frame, which is done in handle_exception(). * */ #define TEXT_SIZE 128 #define BLOCK_SIZE 1664 /* Dynamic check, 13*128 */ .balign TEXT_SIZE LVBR_block: .space 256, 0 /* Power-on class handler, */ /* not required here */ not_a_tlb_miss: synco /* TAKum03020 (but probably a good idea anyway.) */ /* Save original stack pointer into KCR1 */ putcon SP, KCR1 /* Save other original registers into reg_save_area */ movi reg_save_area, SP st.q SP, SAVED_R2, r2 st.q SP, SAVED_R3, r3 st.q SP, SAVED_R4, r4 st.q SP, SAVED_R5, r5 st.q SP, SAVED_R6, r6 st.q SP, SAVED_R18, r18 gettr tr0, r3 st.q SP, SAVED_TR0, r3 /* Set args for Non-debug, Not a TLB miss class handler */ getcon EXPEVT, r2 movi ret_from_exception, r3 ori r3, 1, r3 movi EVENT_FAULT_NOT_TLB, r4 or SP, ZERO, r5 getcon KCR1, SP pta handle_exception, tr0 blink tr0, ZERO .balign 256 ! VBR+0x200 nop .balign 256 ! VBR+0x300 nop .balign 256 /* * Instead of the natural .balign 1024 place RESVEC here * respecting the final 1KB alignment. */ .balign TEXT_SIZE /* * Instead of '.space 1024-TEXT_SIZE' place the RESVEC * block making sure the final alignment is correct. */ tlb_miss: synco /* TAKum03020 (but probably a good idea anyway.) */ putcon SP, KCR1 movi reg_save_area, SP /* SP is guaranteed 32-byte aligned. */ st.q SP, TLB_SAVED_R0 , r0 st.q SP, TLB_SAVED_R1 , r1 st.q SP, SAVED_R2 , r2 st.q SP, SAVED_R3 , r3 st.q SP, SAVED_R4 , r4 st.q SP, SAVED_R5 , r5 st.q SP, SAVED_R6 , r6 st.q SP, SAVED_R18, r18 /* Save R25 for safety; as/ld may want to use it to achieve the call to * the code in mm/tlbmiss.c */ st.q SP, TLB_SAVED_R25, r25 gettr tr0, r2 gettr tr1, r3 gettr tr2, r4 gettr tr3, r5 gettr tr4, r18 st.q SP, SAVED_TR0 , r2 st.q SP, TLB_SAVED_TR1 , r3 st.q SP, TLB_SAVED_TR2 , r4 st.q SP, TLB_SAVED_TR3 , r5 st.q SP, TLB_SAVED_TR4 , r18 pt do_fast_page_fault, tr0 getcon SSR, r2 getcon EXPEVT, r3 getcon TEA, r4 shlri r2, 30, r2 andi r2, 1, r2 /* r2 = SSR.MD */ blink tr0, LINK pt fixup_to_invoke_general_handler, tr1 /* If the fast path handler fixed the fault, just drop through quickly to the restore code right away to return to the excepting context. */ beqi/u r2, 0, tr1 fast_tlb_miss_restore: ld.q SP, SAVED_TR0, r2 ld.q SP, TLB_SAVED_TR1, r3 ld.q SP, TLB_SAVED_TR2, r4 ld.q SP, TLB_SAVED_TR3, r5 ld.q SP, TLB_SAVED_TR4, r18 ptabs r2, tr0 ptabs r3, tr1 ptabs r4, tr2 ptabs r5, tr3 ptabs r18, tr4 ld.q SP, TLB_SAVED_R0, r0 ld.q SP, TLB_SAVED_R1, r1 ld.q SP, SAVED_R2, r2 ld.q SP, SAVED_R3, r3 ld.q SP, SAVED_R4, r4 ld.q SP, SAVED_R5, r5 ld.q SP, SAVED_R6, r6 ld.q SP, SAVED_R18, r18 ld.q SP, TLB_SAVED_R25, r25 getcon KCR1, SP rte nop /* for safety, in case the code is run on sh5-101 cut1.x */ fixup_to_invoke_general_handler: /* OK, new method. Restore stuff that's not expected to get saved into the 'first-level' reg save area, then just fall through to setting up the registers and calling the second-level handler. */ /* 2nd level expects r2,3,4,5,6,18,tr0 to be saved. So we must restore r25,tr1-4 and save r6 to get into the right state. */ ld.q SP, TLB_SAVED_TR1, r3 ld.q SP, TLB_SAVED_TR2, r4 ld.q SP, TLB_SAVED_TR3, r5 ld.q SP, TLB_SAVED_TR4, r18 ld.q SP, TLB_SAVED_R25, r25 ld.q SP, TLB_SAVED_R0, r0 ld.q SP, TLB_SAVED_R1, r1 ptabs/u r3, tr1 ptabs/u r4, tr2 ptabs/u r5, tr3 ptabs/u r18, tr4 /* Set args for Non-debug, TLB miss class handler */ getcon EXPEVT, r2 movi ret_from_exception, r3 ori r3, 1, r3 movi EVENT_FAULT_TLB, r4 or SP, ZERO, r5 getcon KCR1, SP pta handle_exception, tr0 blink tr0, ZERO /* NB TAKE GREAT CARE HERE TO ENSURE THAT THE INTERRUPT CODE DOES END UP AT VBR+0x600 */ nop nop nop nop nop nop .balign 256 /* VBR + 0x600 */ interrupt: synco /* TAKum03020 (but probably a good idea anyway.) */ /* Save original stack pointer into KCR1 */ putcon SP, KCR1 /* Save other original registers into reg_save_area */ movi reg_save_area, SP st.q SP, SAVED_R2, r2 st.q SP, SAVED_R3, r3 st.q SP, SAVED_R4, r4 st.q SP, SAVED_R5, r5 st.q SP, SAVED_R6, r6 st.q SP, SAVED_R18, r18 gettr tr0, r3 st.q SP, SAVED_TR0, r3 /* Set args for interrupt class handler */ getcon INTEVT, r2 movi ret_from_irq, r3 ori r3, 1, r3 movi EVENT_INTERRUPT, r4 or SP, ZERO, r5 getcon KCR1, SP pta handle_exception, tr0 blink tr0, ZERO .balign TEXT_SIZE /* let's waste the bare minimum */ LVBR_block_end: /* Marker. Used for total checking */ .balign 256 LRESVEC_block: /* Panic handler. Called with MMU off. Possible causes/actions: * - Reset: Jump to program start. * - Single Step: Turn off Single Step & return. * - Others: Call panic handler, passing PC as arg. * (this may need to be extended...) */ reset_or_panic: synco /* TAKum03020 (but probably a good idea anyway.) */ putcon SP, DCR /* First save r0-1 and tr0, as we need to use these */ movi resvec_save_area-CONFIG_CACHED_MEMORY_OFFSET, SP st.q SP, 0, r0 st.q SP, 8, r1 gettr tr0, r0 st.q SP, 32, r0 /* Check cause */ getcon EXPEVT, r0 movi RESET_CAUSE, r1 sub r1, r0, r1 /* r1=0 if reset */ movi _stext-CONFIG_CACHED_MEMORY_OFFSET, r0 ori r0, 1, r0 ptabs r0, tr0 beqi r1, 0, tr0 /* Jump to start address if reset */ getcon EXPEVT, r0 movi DEBUGSS_CAUSE, r1 sub r1, r0, r1 /* r1=0 if single step */ pta single_step_panic, tr0 beqi r1, 0, tr0 /* jump if single step */ /* Now jump to where we save the registers. */ movi panic_stash_regs-CONFIG_CACHED_MEMORY_OFFSET, r1 ptabs r1, tr0 blink tr0, r63 single_step_panic: /* We are in a handler with Single Step set. We need to resume the * handler, by turning on MMU & turning off Single Step. */ getcon SSR, r0 movi SR_MMU, r1 or r0, r1, r0 movi ~SR_SS, r1 and r0, r1, r0 putcon r0, SSR /* Restore EXPEVT, as the rte won't do this */ getcon PEXPEVT, r0 putcon r0, EXPEVT /* Restore regs */ ld.q SP, 32, r0 ptabs r0, tr0 ld.q SP, 0, r0 ld.q SP, 8, r1 getcon DCR, SP synco rte .balign 256 debug_exception: synco /* TAKum03020 (but probably a good idea anyway.) */ /* * Single step/software_break_point first level handler. * Called with MMU off, so the first thing we do is enable it * by doing an rte with appropriate SSR. */ putcon SP, DCR /* Save SSR & SPC, together with R0 & R1, as we need to use 2 regs. */ movi resvec_save_area-CONFIG_CACHED_MEMORY_OFFSET, SP /* With the MMU off, we are bypassing the cache, so purge any * data that will be made stale by the following stores. */ ocbp SP, 0 synco st.q SP, 0, r0 st.q SP, 8, r1 getcon SPC, r0 st.q SP, 16, r0 getcon SSR, r0 st.q SP, 24, r0 /* Enable MMU, block exceptions, set priv mode, disable single step */ movi SR_MMU | SR_BL | SR_MD, r1 or r0, r1, r0 movi ~SR_SS, r1 and r0, r1, r0 putcon r0, SSR /* Force control to debug_exception_2 when rte is executed */ movi debug_exeception_2, r0 ori r0, 1, r0 /* force SHmedia, just in case */ putcon r0, SPC getcon DCR, SP synco rte debug_exeception_2: /* Restore saved regs */ putcon SP, KCR1 movi resvec_save_area, SP ld.q SP, 24, r0 putcon r0, SSR ld.q SP, 16, r0 putcon r0, SPC ld.q SP, 0, r0 ld.q SP, 8, r1 /* Save other original registers into reg_save_area */ movi reg_save_area, SP st.q SP, SAVED_R2, r2 st.q SP, SAVED_R3, r3 st.q SP, SAVED_R4, r4 st.q SP, SAVED_R5, r5 st.q SP, SAVED_R6, r6 st.q SP, SAVED_R18, r18 gettr tr0, r3 st.q SP, SAVED_TR0, r3 /* Set args for debug class handler */ getcon EXPEVT, r2 movi ret_from_exception, r3 ori r3, 1, r3 movi EVENT_DEBUG, r4 or SP, ZERO, r5 getcon KCR1, SP pta handle_exception, tr0 blink tr0, ZERO .balign 256 debug_interrupt: /* !!! WE COME HERE IN REAL MODE !!! */ /* Hook-up debug interrupt to allow various debugging options to be * hooked into its handler. */ /* Save original stack pointer into KCR1 */ synco putcon SP, KCR1 movi resvec_save_area-CONFIG_CACHED_MEMORY_OFFSET, SP ocbp SP, 0 ocbp SP, 32 synco /* Save other original registers into reg_save_area thru real addresses */ st.q SP, SAVED_R2, r2 st.q SP, SAVED_R3, r3 st.q SP, SAVED_R4, r4 st.q SP, SAVED_R5, r5 st.q SP, SAVED_R6, r6 st.q SP, SAVED_R18, r18 gettr tr0, r3 st.q SP, SAVED_TR0, r3 /* move (spc,ssr)->(pspc,pssr). The rte will shift them back again, so that they look like the originals as far as the real handler code is concerned. */ getcon spc, r6 putcon r6, pspc getcon ssr, r6 putcon r6, pssr ! construct useful SR for handle_exception movi 3, r6 shlli r6, 30, r6 getcon sr, r18 or r18, r6, r6 putcon r6, ssr ! SSR is now the current SR with the MD and MMU bits set ! i.e. the rte will switch back to priv mode and put ! the mmu back on ! construct spc movi handle_exception, r18 ori r18, 1, r18 ! for safety (do we need this?) putcon r18, spc /* Set args for Non-debug, Not a TLB miss class handler */ ! EXPEVT==0x80 is unused, so 'steal' this value to put the ! debug interrupt handler in the vectoring table movi 0x80, r2 movi ret_from_exception, r3 ori r3, 1, r3 movi EVENT_FAULT_NOT_TLB, r4 or SP, ZERO, r5 movi CONFIG_CACHED_MEMORY_OFFSET, r6 add r6, r5, r5 getcon KCR1, SP synco ! for safety rte ! -> handle_exception, switch back to priv mode again LRESVEC_block_end: /* Marker. Unused. */ .balign TEXT_SIZE /* * Second level handler for VBR-based exceptions. Pre-handler. * In common to all stack-frame sensitive handlers. * * Inputs: * (KCR0) Current [current task union] * (KCR1) Original SP * (r2) INTEVT/EXPEVT * (r3) appropriate return address * (r4) Event (0 = interrupt, 1 = TLB miss fault, 2 = Not TLB miss fault, 3=debug) * (r5) Pointer to reg_save_area * (SP) Original SP * * Available registers: * (r6) * (r18) * (tr0) * */ handle_exception: /* Common 2nd level handler. */ /* First thing we need an appropriate stack pointer */ getcon SSR, r6 shlri r6, 30, r6 andi r6, 1, r6 pta stack_ok, tr0 bne r6, ZERO, tr0 /* Original stack pointer is fine */ /* Set stack pointer for user fault */ getcon KCR0, SP movi THREAD_SIZE, r6 /* Point to the end */ add SP, r6, SP stack_ok: /* DEBUG : check for underflow/overflow of the kernel stack */ pta no_underflow, tr0 getcon KCR0, r6 movi 1024, r18 add r6, r18, r6 bge SP, r6, tr0 ! ? below 1k from bottom of stack : danger zone /* Just panic to cause a crash. */ bad_sp: ld.b r63, 0, r6 nop no_underflow: pta bad_sp, tr0 getcon kcr0, r6 movi THREAD_SIZE, r18 add r18, r6, r6 bgt SP, r6, tr0 ! sp above the stack /* Make some room for the BASIC frame. */ movi -(FRAME_SIZE), r6 add SP, r6, SP /* Could do this with no stalling if we had another spare register, but the code below will be OK. */ ld.q r5, SAVED_R2, r6 ld.q r5, SAVED_R3, r18 st.q SP, FRAME_R(2), r6 ld.q r5, SAVED_R4, r6 st.q SP, FRAME_R(3), r18 ld.q r5, SAVED_R5, r18 st.q SP, FRAME_R(4), r6 ld.q r5, SAVED_R6, r6 st.q SP, FRAME_R(5), r18 ld.q r5, SAVED_R18, r18 st.q SP, FRAME_R(6), r6 ld.q r5, SAVED_TR0, r6 st.q SP, FRAME_R(18), r18 st.q SP, FRAME_T(0), r6 /* Keep old SP around */ getcon KCR1, r6 /* Save the rest of the general purpose registers */ st.q SP, FRAME_R(0), r0 st.q SP, FRAME_R(1), r1 st.q SP, FRAME_R(7), r7 st.q SP, FRAME_R(8), r8 st.q SP, FRAME_R(9), r9 st.q SP, FRAME_R(10), r10 st.q SP, FRAME_R(11), r11 st.q SP, FRAME_R(12), r12 st.q SP, FRAME_R(13), r13 st.q SP, FRAME_R(14), r14 /* SP is somewhere else */ st.q SP, FRAME_R(15), r6 st.q SP, FRAME_R(16), r16 st.q SP, FRAME_R(17), r17 /* r18 is saved earlier. */ st.q SP, FRAME_R(19), r19 st.q SP, FRAME_R(20), r20 st.q SP, FRAME_R(21), r21 st.q SP, FRAME_R(22), r22 st.q SP, FRAME_R(23), r23 st.q SP, FRAME_R(24), r24 st.q SP, FRAME_R(25), r25 st.q SP, FRAME_R(26), r26 st.q SP, FRAME_R(27), r27 st.q SP, FRAME_R(28), r28 st.q SP, FRAME_R(29), r29 st.q SP, FRAME_R(30), r30 st.q SP, FRAME_R(31), r31 st.q SP, FRAME_R(32), r32 st.q SP, FRAME_R(33), r33 st.q SP, FRAME_R(34), r34 st.q SP, FRAME_R(35), r35 st.q SP, FRAME_R(36), r36 st.q SP, FRAME_R(37), r37 st.q SP, FRAME_R(38), r38 st.q SP, FRAME_R(39), r39 st.q SP, FRAME_R(40), r40 st.q SP, FRAME_R(41), r41 st.q SP, FRAME_R(42), r42 st.q SP, FRAME_R(43), r43 st.q SP, FRAME_R(44), r44 st.q SP, FRAME_R(45), r45 st.q SP, FRAME_R(46), r46 st.q SP, FRAME_R(47), r47 st.q SP, FRAME_R(48), r48 st.q SP, FRAME_R(49), r49 st.q SP, FRAME_R(50), r50 st.q SP, FRAME_R(51), r51 st.q SP, FRAME_R(52), r52 st.q SP, FRAME_R(53), r53 st.q SP, FRAME_R(54), r54 st.q SP, FRAME_R(55), r55 st.q SP, FRAME_R(56), r56 st.q SP, FRAME_R(57), r57 st.q SP, FRAME_R(58), r58 st.q SP, FRAME_R(59), r59 st.q SP, FRAME_R(60), r60 st.q SP, FRAME_R(61), r61 st.q SP, FRAME_R(62), r62 /* * Save the S* registers. */ getcon SSR, r61 st.q SP, FRAME_S(FSSR), r61 getcon SPC, r62 st.q SP, FRAME_S(FSPC), r62 movi -1, r62 /* Reset syscall_nr */ st.q SP, FRAME_S(FSYSCALL_ID), r62 /* Save the rest of the target registers */ gettr tr1, r6 st.q SP, FRAME_T(1), r6 gettr tr2, r6 st.q SP, FRAME_T(2), r6 gettr tr3, r6 st.q SP, FRAME_T(3), r6 gettr tr4, r6 st.q SP, FRAME_T(4), r6 gettr tr5, r6 st.q SP, FRAME_T(5), r6 gettr tr6, r6 st.q SP, FRAME_T(6), r6 gettr tr7, r6 st.q SP, FRAME_T(7), r6 ! setup FP so that unwinder can wind back through nested kernel mode ! exceptions add SP, ZERO, r14 #ifdef CONFIG_POOR_MANS_STRACE /* We've pushed all the registers now, so only r2-r4 hold anything * useful. Move them into callee save registers */ or r2, ZERO, r28 or r3, ZERO, r29 or r4, ZERO, r30 /* Preserve r2 as the event code */ movi evt_debug, r3 ori r3, 1, r3 ptabs r3, tr0 or SP, ZERO, r6 getcon TRA, r5 blink tr0, LINK or r28, ZERO, r2 or r29, ZERO, r3 or r30, ZERO, r4 #endif /* For syscall and debug race condition, get TRA now */ getcon TRA, r5 /* We are in a safe position to turn SR.BL off, but set IMASK=0xf * Also set FD, to catch FPU usage in the kernel. * * benedict.gaster@superh.com 29/07/2002 * * On all SH5-101 revisions it is unsafe to raise the IMASK and at the * same time change BL from 1->0, as any pending interrupt of a level * higher than he previous value of IMASK will leak through and be * taken unexpectedly. * * To avoid this we raise the IMASK and then issue another PUTCON to * enable interrupts. */ getcon SR, r6 movi SR_IMASK | SR_FD, r7 or r6, r7, r6 putcon r6, SR movi SR_UNBLOCK_EXC, r7 and r6, r7, r6 putcon r6, SR /* Now call the appropriate 3rd level handler */ or r3, ZERO, LINK movi trap_jtable, r3 shlri r2, 3, r2 ldx.l r2, r3, r3 shlri r2, 2, r2 ptabs r3, tr0 or SP, ZERO, r3 blink tr0, ZERO /* * Second level handler for VBR-based exceptions. Post-handlers. * * Post-handlers for interrupts (ret_from_irq), exceptions * (ret_from_exception) and common reentrance doors (restore_all * to get back to the original context, ret_from_syscall loop to * check kernel exiting). * * ret_with_reschedule and work_notifysig are an inner lables of * the ret_from_syscall loop. * * In common to all stack-frame sensitive handlers. * * Inputs: * (SP) struct pt_regs *, original register's frame pointer (basic) * */ .global ret_from_irq ret_from_irq: #ifdef CONFIG_POOR_MANS_STRACE pta evt_debug_ret_from_irq, tr0 ori SP, 0, r2 blink tr0, LINK #endif ld.q SP, FRAME_S(FSSR), r6 shlri r6, 30, r6 andi r6, 1, r6 pta resume_kernel, tr0 bne r6, ZERO, tr0 /* no further checks */ STI() pta ret_with_reschedule, tr0 blink tr0, ZERO /* Do not check softirqs */ .global ret_from_exception ret_from_exception: preempt_stop() #ifdef CONFIG_POOR_MANS_STRACE pta evt_debug_ret_from_exc, tr0 ori SP, 0, r2 blink tr0, LINK #endif ld.q SP, FRAME_S(FSSR), r6 shlri r6, 30, r6 andi r6, 1, r6 pta resume_kernel, tr0 bne r6, ZERO, tr0 /* no further checks */ /* Check softirqs */ #ifdef CONFIG_PREEMPT pta ret_from_syscall, tr0 blink tr0, ZERO resume_kernel: pta restore_all, tr0 getcon KCR0, r6 ld.l r6, TI_PRE_COUNT, r7 beq/u r7, ZERO, tr0 need_resched: ld.l r6, TI_FLAGS, r7 movi (1 << TIF_NEED_RESCHED), r8 and r8, r7, r8 bne r8, ZERO, tr0 getcon SR, r7 andi r7, 0xf0, r7 bne r7, ZERO, tr0 movi ((PREEMPT_ACTIVE >> 16) & 65535), r8 shori (PREEMPT_ACTIVE & 65535), r8 st.l r6, TI_PRE_COUNT, r8 STI() movi schedule, r7 ori r7, 1, r7 ptabs r7, tr1 blink tr1, LINK st.l r6, TI_PRE_COUNT, ZERO CLI() pta need_resched, tr1 blink tr1, ZERO #endif .global ret_from_syscall ret_from_syscall: ret_with_reschedule: getcon KCR0, r6 ! r6 contains current_thread_info ld.l r6, TI_FLAGS, r7 ! r7 contains current_thread_info->flags ! FIXME:!!! ! no handling of TIF_SYSCALL_TRACE yet!! movi (1 << TIF_NEED_RESCHED), r8 and r8, r7, r8 pta work_resched, tr0 bne r8, ZERO, tr0 pta restore_all, tr1 movi (1 << TIF_SIGPENDING), r8 and r8, r7, r8 pta work_notifysig, tr0 bne r8, ZERO, tr0 blink tr1, ZERO work_resched: pta ret_from_syscall, tr0 gettr tr0, LINK movi schedule, r6 ptabs r6, tr0 blink tr0, ZERO /* Call schedule(), return on top */ work_notifysig: gettr tr1, LINK movi do_signal, r6 ptabs r6, tr0 or SP, ZERO, r2 or ZERO, ZERO, r3 blink tr0, LINK /* Call do_signal(regs, 0), return here */ restore_all: /* Do prefetches */ ld.q SP, FRAME_T(0), r6 ld.q SP, FRAME_T(1), r7 ld.q SP, FRAME_T(2), r8 ld.q SP, FRAME_T(3), r9 ptabs r6, tr0 ptabs r7, tr1 ptabs r8, tr2 ptabs r9, tr3 ld.q SP, FRAME_T(4), r6 ld.q SP, FRAME_T(5), r7 ld.q SP, FRAME_T(6), r8 ld.q SP, FRAME_T(7), r9 ptabs r6, tr4 ptabs r7, tr5 ptabs r8, tr6 ptabs r9, tr7 ld.q SP, FRAME_R(0), r0 ld.q SP, FRAME_R(1), r1 ld.q SP, FRAME_R(2), r2 ld.q SP, FRAME_R(3), r3 ld.q SP, FRAME_R(4), r4 ld.q SP, FRAME_R(5), r5 ld.q SP, FRAME_R(6), r6 ld.q SP, FRAME_R(7), r7 ld.q SP, FRAME_R(8), r8 ld.q SP, FRAME_R(9), r9 ld.q SP, FRAME_R(10), r10 ld.q SP, FRAME_R(11), r11 ld.q SP, FRAME_R(12), r12 ld.q SP, FRAME_R(13), r13 ld.q SP, FRAME_R(14), r14 ld.q SP, FRAME_R(16), r16 ld.q SP, FRAME_R(17), r17 ld.q SP, FRAME_R(18), r18 ld.q SP, FRAME_R(19), r19 ld.q SP, FRAME_R(20), r20 ld.q SP, FRAME_R(21), r21 ld.q SP, FRAME_R(22), r22 ld.q SP, FRAME_R(23), r23 ld.q SP, FRAME_R(24), r24 ld.q SP, FRAME_R(25), r25 ld.q SP, FRAME_R(26), r26 ld.q SP, FRAME_R(27), r27 ld.q SP, FRAME_R(28), r28 ld.q SP, FRAME_R(29), r29 ld.q SP, FRAME_R(30), r30 ld.q SP, FRAME_R(31), r31 ld.q SP, FRAME_R(32), r32 ld.q SP, FRAME_R(33), r33 ld.q SP, FRAME_R(34), r34 ld.q SP, FRAME_R(35), r35 ld.q SP, FRAME_R(36), r36 ld.q SP, FRAME_R(37), r37 ld.q SP, FRAME_R(38), r38 ld.q SP, FRAME_R(39), r39 ld.q SP, FRAME_R(40), r40 ld.q SP, FRAME_R(41), r41 ld.q SP, FRAME_R(42), r42 ld.q SP, FRAME_R(43), r43 ld.q SP, FRAME_R(44), r44 ld.q SP, FRAME_R(45), r45 ld.q SP, FRAME_R(46), r46 ld.q SP, FRAME_R(47), r47 ld.q SP, FRAME_R(48), r48 ld.q SP, FRAME_R(49), r49 ld.q SP, FRAME_R(50), r50 ld.q SP, FRAME_R(51), r51 ld.q SP, FRAME_R(52), r52 ld.q SP, FRAME_R(53), r53 ld.q SP, FRAME_R(54), r54 ld.q SP, FRAME_R(55), r55 ld.q SP, FRAME_R(56), r56 ld.q SP, FRAME_R(57), r57 ld.q SP, FRAME_R(58), r58 getcon SR, r59 movi SR_BLOCK_EXC, r60 or r59, r60, r59 putcon r59, SR /* SR.BL = 1, keep nesting out */ ld.q SP, FRAME_S(FSSR), r61 ld.q SP, FRAME_S(FSPC), r62 movi SR_ASID_MASK, r60 and r59, r60, r59 andc r61, r60, r61 /* Clear out older ASID */ or r59, r61, r61 /* Retain current ASID */ putcon r61, SSR putcon r62, SPC /* Ignore FSYSCALL_ID */ ld.q SP, FRAME_R(59), r59 ld.q SP, FRAME_R(60), r60 ld.q SP, FRAME_R(61), r61 ld.q SP, FRAME_R(62), r62 /* Last touch */ ld.q SP, FRAME_R(15), SP rte nop /* * Third level handlers for VBR-based exceptions. Adapting args to * and/or deflecting to fourth level handlers. * * Fourth level handlers interface. * Most are C-coded handlers directly pointed by the trap_jtable. * (Third = Fourth level) * Inputs: * (r2) fault/interrupt code, entry number (e.g. NMI = 14, * IRL0-3 (0000) = 16, RTLBMISS = 2, SYSCALL = 11, etc ...) * (r3) struct pt_regs *, original register's frame pointer * (r4) Event (0 = interrupt, 1 = TLB miss fault, 2 = Not TLB miss fault) * (r5) TRA control register (for syscall/debug benefit only) * (LINK) return address * (SP) = r3 * * Kernel TLB fault handlers will get a slightly different interface. * (r2) struct pt_regs *, original register's frame pointer * (r3) writeaccess, whether it's a store fault as opposed to load fault * (r4) execaccess, whether it's a ITLB fault as opposed to DTLB fault * (r5) Effective Address of fault * (LINK) return address * (SP) = r2 * * fpu_error_or_IRQ? is a helper to deflect to the right cause. * */ tlb_miss_load: or SP, ZERO, r2 or ZERO, ZERO, r3 /* Read */ or ZERO, ZERO, r4 /* Data */ getcon TEA, r5 pta call_do_page_fault, tr0 beq ZERO, ZERO, tr0 tlb_miss_store: or SP, ZERO, r2 movi 1, r3 /* Write */ or ZERO, ZERO, r4 /* Data */ getcon TEA, r5 pta call_do_page_fault, tr0 beq ZERO, ZERO, tr0 itlb_miss_or_IRQ: pta its_IRQ, tr0 beqi/u r4, EVENT_INTERRUPT, tr0 or SP, ZERO, r2 or ZERO, ZERO, r3 /* Read */ movi 1, r4 /* Text */ getcon TEA, r5 /* Fall through */ call_do_page_fault: movi do_page_fault, r6 ptabs r6, tr0 blink tr0, ZERO fpu_error_or_IRQA: pta its_IRQ, tr0 beqi/l r4, EVENT_INTERRUPT, tr0 #ifdef CONFIG_SH_FPU movi do_fpu_state_restore, r6 #else movi do_exception_error, r6 #endif ptabs r6, tr0 blink tr0, ZERO fpu_error_or_IRQB: pta its_IRQ, tr0 beqi/l r4, EVENT_INTERRUPT, tr0 #ifdef CONFIG_SH_FPU movi do_fpu_state_restore, r6 #else movi do_exception_error, r6 #endif ptabs r6, tr0 blink tr0, ZERO its_IRQ: movi do_IRQ, r6 ptabs r6, tr0 blink tr0, ZERO /* * system_call/unknown_trap third level handler: * * Inputs: * (r2) fault/interrupt code, entry number (TRAP = 11) * (r3) struct pt_regs *, original register's frame pointer * (r4) Not used. Event (0=interrupt, 1=TLB miss fault, 2=Not TLB miss fault) * (r5) TRA Control Reg (0x00xyzzzz: x=1 SYSCALL, y = #args, z=nr) * (SP) = r3 * (LINK) return address: ret_from_exception * (*r3) Syscall parms: SC#, arg0, arg1, ..., arg5 in order (Saved r2/r7) * * Outputs: * (*r3) Syscall reply (Saved r2) * (LINK) In case of syscall only it can be scrapped. * Common second level post handler will be ret_from_syscall. * Common (non-trace) exit point to that is syscall_ret (saving * result to r2). Common bad exit point is syscall_bad (returning * ENOSYS then saved to r2). * */ unknown_trap: /* Unknown Trap or User Trace */ movi do_unknown_trapa, r6 ptabs r6, tr0 ld.q r3, FRAME_R(9), r2 /* r2 = #arg << 16 | syscall # */ andi r2, 0x1ff, r2 /* r2 = syscall # */ blink tr0, LINK pta syscall_ret, tr0 blink tr0, ZERO /* New syscall implementation*/ system_call: pta unknown_trap, tr0 or r5, ZERO, r4 /* TRA (=r5) -> r4 */ shlri r4, 20, r4 bnei r4, 1, tr0 /* unknown_trap if not 0x1yzzzz */ /* It's a system call */ st.q r3, FRAME_S(FSYSCALL_ID), r5 /* ID (0x1yzzzz) -> stack */ andi r5, 0x1ff, r5 /* syscall # -> r5 */ STI() pta syscall_allowed, tr0 movi NR_syscalls - 1, r4 /* Last valid */ bgeu/l r4, r5, tr0 syscall_bad: /* Return ENOSYS ! */ movi -(ENOSYS), r2 /* Fall-through */ .global syscall_ret syscall_ret: st.q SP, FRAME_R(9), r2 /* Expecting SP back to BASIC frame */ #ifdef CONFIG_POOR_MANS_STRACE /* nothing useful in registers at this point */ movi evt_debug2, r5 ori r5, 1, r5 ptabs r5, tr0 ld.q SP, FRAME_R(9), r2 or SP, ZERO, r3 blink tr0, LINK #endif ld.q SP, FRAME_S(FSPC), r2 addi r2, 4, r2 /* Move PC, being pre-execution event */ st.q SP, FRAME_S(FSPC), r2 pta ret_from_syscall, tr0 blink tr0, ZERO /* A different return path for ret_from_fork, because we now need * to call schedule_tail with the later kernels. Because prev is * loaded into r2 by switch_to() means we can just call it straight away */ .global ret_from_fork ret_from_fork: movi schedule_tail,r5 ori r5, 1, r5 ptabs r5, tr0 blink tr0, LINK #ifdef CONFIG_POOR_MANS_STRACE /* nothing useful in registers at this point */ movi evt_debug2, r5 ori r5, 1, r5 ptabs r5, tr0 ld.q SP, FRAME_R(9), r2 or SP, ZERO, r3 blink tr0, LINK #endif ld.q SP, FRAME_S(FSPC), r2 addi r2, 4, r2 /* Move PC, being pre-execution event */ st.q SP, FRAME_S(FSPC), r2 pta ret_from_syscall, tr0 blink tr0, ZERO syscall_allowed: /* Use LINK to deflect the exit point, default is syscall_ret */ pta syscall_ret, tr0 gettr tr0, LINK pta syscall_notrace, tr0 getcon KCR0, r2 ld.l r2, TI_FLAGS, r4 movi (1 << TIF_SYSCALL_TRACE), r6 and r6, r4, r6 beq/l r6, ZERO, tr0 /* Trace it by calling syscall_trace before and after */ movi syscall_trace, r4 ptabs r4, tr0 blink tr0, LINK /* Reload syscall number as r5 is trashed by syscall_trace */ ld.q SP, FRAME_S(FSYSCALL_ID), r5 andi r5, 0x1ff, r5 pta syscall_ret_trace, tr0 gettr tr0, LINK syscall_notrace: /* Now point to the appropriate 4th level syscall handler */ movi sys_call_table, r4 shlli r5, 2, r5 ldx.l r4, r5, r5 ptabs r5, tr0 /* Prepare original args */ ld.q SP, FRAME_R(2), r2 ld.q SP, FRAME_R(3), r3 ld.q SP, FRAME_R(4), r4 ld.q SP, FRAME_R(5), r5 ld.q SP, FRAME_R(6), r6 ld.q SP, FRAME_R(7), r7 /* And now the trick for those syscalls requiring regs * ! */ or SP, ZERO, r8 /* Call it */ blink tr0, ZERO /* LINK is already properly set */ syscall_ret_trace: /* We get back here only if under trace */ st.q SP, FRAME_R(9), r2 /* Save return value */ movi syscall_trace, LINK ptabs LINK, tr0 blink tr0, LINK /* This needs to be done after any syscall tracing */ ld.q SP, FRAME_S(FSPC), r2 addi r2, 4, r2 /* Move PC, being pre-execution event */ st.q SP, FRAME_S(FSPC), r2 pta ret_from_syscall, tr0 blink tr0, ZERO /* Resume normal return sequence */ /* * --- Switch to running under a particular ASID and return the previous ASID value * --- The caller is assumed to have done a cli before calling this. * * Input r2 : new ASID * Output r2 : old ASID */ .global switch_and_save_asid switch_and_save_asid: getcon sr, r0 movi 255, r4 shlli r4, 16, r4 /* r4 = mask to select ASID */ and r0, r4, r3 /* r3 = shifted old ASID */ andi r2, 255, r2 /* mask down new ASID */ shlli r2, 16, r2 /* align new ASID against SR.ASID */ andc r0, r4, r0 /* efface old ASID from SR */ or r0, r2, r0 /* insert the new ASID */ putcon r0, ssr movi 1f, r0 putcon r0, spc rte nop 1: ptabs LINK, tr0 shlri r3, 16, r2 /* r2 = old ASID */ blink tr0, r63 .global route_to_panic_handler route_to_panic_handler: /* Switch to real mode, goto panic_handler, don't return. Useful for last-chance debugging, e.g. if no output wants to go to the console. */ movi panic_handler - CONFIG_CACHED_MEMORY_OFFSET, r1 ptabs r1, tr0 pta 1f, tr1 gettr tr1, r0 putcon r0, spc getcon sr, r0 movi 1, r1 shlli r1, 31, r1 andc r0, r1, r0 putcon r0, ssr rte nop 1: /* Now in real mode */ blink tr0, r63 nop .global peek_real_address_q peek_real_address_q: /* Two args: r2 : real mode address to peek r2(out) : result quadword This is provided as a cheapskate way of manipulating device registers for debugging (to avoid the need to onchip_remap the debug module, and to avoid the need to onchip_remap the watchpoint controller in a way that identity maps sufficient bits to avoid the SH5-101 cut2 silicon defect). This code is not performance critical */ add.l r2, r63, r2 /* sign extend address */ getcon sr, r0 /* r0 = saved original SR */ movi 1, r1 shlli r1, 28, r1 or r0, r1, r1 /* r0 with block bit set */ putcon r1, sr /* now in critical section */ movi 1, r36 shlli r36, 31, r36 andc r1, r36, r1 /* turn sr.mmu off in real mode section */ putcon r1, ssr movi .peek0 - CONFIG_CACHED_MEMORY_OFFSET, r36 /* real mode target address */ movi 1f, r37 /* virtual mode return addr */ putcon r36, spc synco rte nop .peek0: /* come here in real mode, don't touch caches!! still in critical section (sr.bl==1) */ putcon r0, ssr putcon r37, spc /* Here's the actual peek. If the address is bad, all bets are now off * what will happen (handlers invoked in real-mode = bad news) */ ld.q r2, 0, r2 synco rte /* Back to virtual mode */ nop 1: ptabs LINK, tr0 blink tr0, r63 .global poke_real_address_q poke_real_address_q: /* Two args: r2 : real mode address to poke r3 : quadword value to write. This is provided as a cheapskate way of manipulating device registers for debugging (to avoid the need to onchip_remap the debug module, and to avoid the need to onchip_remap the watchpoint controller in a way that identity maps sufficient bits to avoid the SH5-101 cut2 silicon defect). This code is not performance critical */ add.l r2, r63, r2 /* sign extend address */ getcon sr, r0 /* r0 = saved original SR */ movi 1, r1 shlli r1, 28, r1 or r0, r1, r1 /* r0 with block bit set */ putcon r1, sr /* now in critical section */ movi 1, r36 shlli r36, 31, r36 andc r1, r36, r1 /* turn sr.mmu off in real mode section */ putcon r1, ssr movi .poke0-CONFIG_CACHED_MEMORY_OFFSET, r36 /* real mode target address */ movi 1f, r37 /* virtual mode return addr */ putcon r36, spc synco rte nop .poke0: /* come here in real mode, don't touch caches!! still in critical section (sr.bl==1) */ putcon r0, ssr putcon r37, spc /* Here's the actual poke. If the address is bad, all bets are now off * what will happen (handlers invoked in real-mode = bad news) */ st.q r2, 0, r3 synco rte /* Back to virtual mode */ nop 1: ptabs LINK, tr0 blink tr0, r63 /* * --- User Access Handling Section */ /* * User Access support. It all moved to non inlined Assembler * functions in here. * * __kernel_size_t __copy_user(void *__to, const void *__from, * __kernel_size_t __n) * * Inputs: * (r2) target address * (r3) source address * (r4) size in bytes * * Ouputs: * (*r2) target data * (r2) non-copied bytes * * If a fault occurs on the user pointer, bail out early and return the * number of bytes not copied in r2. * Strategy : for large blocks, call a real memcpy function which can * move >1 byte at a time using unaligned ld/st instructions, and can * manipulate the cache using prefetch + alloco to improve the speed * further. If a fault occurs in that function, just revert to the * byte-by-byte approach used for small blocks; this is rare so the * performance hit for that case does not matter. * * For small blocks it's not worth the overhead of setting up and calling * the memcpy routine; do the copy a byte at a time. * */ .global __copy_user __copy_user: pta __copy_user_byte_by_byte, tr1 movi 16, r0 ! this value is a best guess, should tune it by benchmarking bge/u r0, r4, tr1 pta copy_user_memcpy, tr0 addi SP, -32, SP /* Save arguments in case we have to fix-up unhandled page fault */ st.q SP, 0, r2 st.q SP, 8, r3 st.q SP, 16, r4 st.q SP, 24, r35 ! r35 is callee-save /* Save LINK in a register to reduce RTS time later (otherwise ld SP,*,LINK;ptabs LINK;trn;blink trn,r63 becomes a critical path) */ ori LINK, 0, r35 blink tr0, LINK /* Copy completed normally if we get back here */ ptabs r35, tr0 ld.q SP, 24, r35 /* don't restore r2-r4, pointless */ /* set result=r2 to zero as the copy must have succeeded. */ or r63, r63, r2 addi SP, 32, SP blink tr0, r63 ! RTS .global __copy_user_fixup __copy_user_fixup: /* Restore stack frame */ ori r35, 0, LINK ld.q SP, 24, r35 ld.q SP, 16, r4 ld.q SP, 8, r3 ld.q SP, 0, r2 addi SP, 32, SP /* Fall through to original code, in the 'same' state we entered with */ /* The slow byte-by-byte method is used if the fast copy traps due to a bad user address. In that rare case, the speed drop can be tolerated. */ __copy_user_byte_by_byte: pta ___copy_user_exit, tr1 pta ___copy_user1, tr0 beq/u r4, r63, tr1 /* early exit for zero length copy */ sub r2, r3, r0 addi r0, -1, r0 ___copy_user1: ld.b r3, 0, r5 /* Fault address 1 */ /* Could rewrite this to use just 1 add, but the second comes 'free' due to load latency */ addi r3, 1, r3 addi r4, -1, r4 /* No real fixup required */ ___copy_user2: stx.b r3, r0, r5 /* Fault address 2 */ bne r4, ZERO, tr0 ___copy_user_exit: or r4, ZERO, r2 ptabs LINK, tr0 blink tr0, ZERO /* * __kernel_size_t __clear_user(void *addr, __kernel_size_t size) * * Inputs: * (r2) target address * (r3) size in bytes * * Ouputs: * (*r2) zero-ed target data * (r2) non-zero-ed bytes */ .global __clear_user __clear_user: pta ___clear_user_exit, tr1 pta ___clear_user1, tr0 beq/u r3, r63, tr1 ___clear_user1: st.b r2, 0, ZERO /* Fault address */ addi r2, 1, r2 addi r3, -1, r3 /* No real fixup required */ bne r3, ZERO, tr0 ___clear_user_exit: or r3, ZERO, r2 ptabs LINK, tr0 blink tr0, ZERO /* * int __strncpy_from_user(unsigned long __dest, unsigned long __src, * int __count) * * Inputs: * (r2) target address * (r3) source address * (r4) maximum size in bytes * * Ouputs: * (*r2) copied data * (r2) -EFAULT (in case of faulting) * copied data (otherwise) */ .global __strncpy_from_user __strncpy_from_user: pta ___strncpy_from_user1, tr0 pta ___strncpy_from_user_done, tr1 or r4, ZERO, r5 /* r5 = original count */ beq/u r4, r63, tr1 /* early exit if r4==0 */ movi -(EFAULT), r6 /* r6 = reply, no real fixup */ or ZERO, ZERO, r7 /* r7 = data, clear top byte of data */ ___strncpy_from_user1: ld.b r3, 0, r7 /* Fault address: only in reading */ st.b r2, 0, r7 addi r2, 1, r2 addi r3, 1, r3 beq/u ZERO, r7, tr1 addi r4, -1, r4 /* return real number of copied bytes */ bne/l ZERO, r4, tr0 ___strncpy_from_user_done: sub r5, r4, r6 /* If done, return copied */ ___strncpy_from_user_exit: or r6, ZERO, r2 ptabs LINK, tr0 blink tr0, ZERO /* * extern long __strnlen_user(const char *__s, long __n) * * Inputs: * (r2) source address * (r3) source size in bytes * * Ouputs: * (r2) -EFAULT (in case of faulting) * string length (otherwise) */ .global __strnlen_user __strnlen_user: pta ___strnlen_user_set_reply, tr0 pta ___strnlen_user1, tr1 or ZERO, ZERO, r5 /* r5 = counter */ movi -(EFAULT), r6 /* r6 = reply, no real fixup */ or ZERO, ZERO, r7 /* r7 = data, clear top byte of data */ beq r3, ZERO, tr0 ___strnlen_user1: ldx.b r2, r5, r7 /* Fault address: only in reading */ addi r3, -1, r3 /* No real fixup */ addi r5, 1, r5 beq r3, ZERO, tr0 bne r7, ZERO, tr1 ! The line below used to be active. This meant led to a junk byte lying between each pair ! of entries in the argv & envp structures in memory. Whilst the program saw the right data ! via the argv and envp arguments to main, it meant the 'flat' representation visible through ! /proc/$pid/cmdline was corrupt, causing trouble with ps, for example. ! addi r5, 1, r5 /* Include '\0' */ ___strnlen_user_set_reply: or r5, ZERO, r6 /* If done, return counter */ ___strnlen_user_exit: or r6, ZERO, r2 ptabs LINK, tr0 blink tr0, ZERO /* * extern long __get_user_asm_?(void *val, long addr) * * Inputs: * (r2) dest address * (r3) source address (in User Space) * * Ouputs: * (r2) -EFAULT (faulting) * 0 (not faulting) */ .global __get_user_asm_b __get_user_asm_b: or r2, ZERO, r4 movi -(EFAULT), r2 /* r2 = reply, no real fixup */ ___get_user_asm_b1: ld.b r3, 0, r5 /* r5 = data */ st.b r4, 0, r5 or ZERO, ZERO, r2 ___get_user_asm_b_exit: ptabs LINK, tr0 blink tr0, ZERO .global __get_user_asm_w __get_user_asm_w: or r2, ZERO, r4 movi -(EFAULT), r2 /* r2 = reply, no real fixup */ ___get_user_asm_w1: ld.w r3, 0, r5 /* r5 = data */ st.w r4, 0, r5 or ZERO, ZERO, r2 ___get_user_asm_w_exit: ptabs LINK, tr0 blink tr0, ZERO .global __get_user_asm_l __get_user_asm_l: or r2, ZERO, r4 movi -(EFAULT), r2 /* r2 = reply, no real fixup */ ___get_user_asm_l1: ld.l r3, 0, r5 /* r5 = data */ st.l r4, 0, r5 or ZERO, ZERO, r2 ___get_user_asm_l_exit: ptabs LINK, tr0 blink tr0, ZERO .global __get_user_asm_q __get_user_asm_q: or r2, ZERO, r4 movi -(EFAULT), r2 /* r2 = reply, no real fixup */ ___get_user_asm_q1: ld.q r3, 0, r5 /* r5 = data */ st.q r4, 0, r5 or ZERO, ZERO, r2 ___get_user_asm_q_exit: ptabs LINK, tr0 blink tr0, ZERO /* * extern long __put_user_asm_?(void *pval, long addr) * * Inputs: * (r2) kernel pointer to value * (r3) dest address (in User Space) * * Ouputs: * (r2) -EFAULT (faulting) * 0 (not faulting) */ .global __put_user_asm_b __put_user_asm_b: ld.b r2, 0, r4 /* r4 = data */ movi -(EFAULT), r2 /* r2 = reply, no real fixup */ ___put_user_asm_b1: st.b r3, 0, r4 or ZERO, ZERO, r2 ___put_user_asm_b_exit: ptabs LINK, tr0 blink tr0, ZERO .global __put_user_asm_w __put_user_asm_w: ld.w r2, 0, r4 /* r4 = data */ movi -(EFAULT), r2 /* r2 = reply, no real fixup */ ___put_user_asm_w1: st.w r3, 0, r4 or ZERO, ZERO, r2 ___put_user_asm_w_exit: ptabs LINK, tr0 blink tr0, ZERO .global __put_user_asm_l __put_user_asm_l: ld.l r2, 0, r4 /* r4 = data */ movi -(EFAULT), r2 /* r2 = reply, no real fixup */ ___put_user_asm_l1: st.l r3, 0, r4 or ZERO, ZERO, r2 ___put_user_asm_l_exit: ptabs LINK, tr0 blink tr0, ZERO .global __put_user_asm_q __put_user_asm_q: ld.q r2, 0, r4 /* r4 = data */ movi -(EFAULT), r2 /* r2 = reply, no real fixup */ ___put_user_asm_q1: st.q r3, 0, r4 or ZERO, ZERO, r2 ___put_user_asm_q_exit: ptabs LINK, tr0 blink tr0, ZERO panic_stash_regs: /* The idea is : when we get an unhandled panic, we dump the registers to a known memory location, the just sit in a tight loop. This allows the human to look at the memory region through the GDB session (assuming the debug module's SHwy initiator isn't locked up or anything), to hopefully analyze the cause of the panic. */ /* On entry, former r15 (SP) is in DCR former r0 is at resvec_saved_area + 0 former r1 is at resvec_saved_area + 8 former tr0 is at resvec_saved_area + 32 DCR is the only register whose value is lost altogether. */ movi 0xffffffff80000000, r0 ! phy of dump area ld.q SP, 0x000, r1 ! former r0 st.q r0, 0x000, r1 ld.q SP, 0x008, r1 ! former r1 st.q r0, 0x008, r1 st.q r0, 0x010, r2 st.q r0, 0x018, r3 st.q r0, 0x020, r4 st.q r0, 0x028, r5 st.q r0, 0x030, r6 st.q r0, 0x038, r7 st.q r0, 0x040, r8 st.q r0, 0x048, r9 st.q r0, 0x050, r10 st.q r0, 0x058, r11 st.q r0, 0x060, r12 st.q r0, 0x068, r13 st.q r0, 0x070, r14 getcon dcr, r14 st.q r0, 0x078, r14 st.q r0, 0x080, r16 st.q r0, 0x088, r17 st.q r0, 0x090, r18 st.q r0, 0x098, r19 st.q r0, 0x0a0, r20 st.q r0, 0x0a8, r21 st.q r0, 0x0b0, r22 st.q r0, 0x0b8, r23 st.q r0, 0x0c0, r24 st.q r0, 0x0c8, r25 st.q r0, 0x0d0, r26 st.q r0, 0x0d8, r27 st.q r0, 0x0e0, r28 st.q r0, 0x0e8, r29 st.q r0, 0x0f0, r30 st.q r0, 0x0f8, r31 st.q r0, 0x100, r32 st.q r0, 0x108, r33 st.q r0, 0x110, r34 st.q r0, 0x118, r35 st.q r0, 0x120, r36 st.q r0, 0x128, r37 st.q r0, 0x130, r38 st.q r0, 0x138, r39 st.q r0, 0x140, r40 st.q r0, 0x148, r41 st.q r0, 0x150, r42 st.q r0, 0x158, r43 st.q r0, 0x160, r44 st.q r0, 0x168, r45 st.q r0, 0x170, r46 st.q r0, 0x178, r47 st.q r0, 0x180, r48 st.q r0, 0x188, r49 st.q r0, 0x190, r50 st.q r0, 0x198, r51 st.q r0, 0x1a0, r52 st.q r0, 0x1a8, r53 st.q r0, 0x1b0, r54 st.q r0, 0x1b8, r55 st.q r0, 0x1c0, r56 st.q r0, 0x1c8, r57 st.q r0, 0x1d0, r58 st.q r0, 0x1d8, r59 st.q r0, 0x1e0, r60 st.q r0, 0x1e8, r61 st.q r0, 0x1f0, r62 st.q r0, 0x1f8, r63 ! bogus, but for consistency's sake... ld.q SP, 0x020, r1 ! former tr0 st.q r0, 0x200, r1 gettr tr1, r1 st.q r0, 0x208, r1 gettr tr2, r1 st.q r0, 0x210, r1 gettr tr3, r1 st.q r0, 0x218, r1 gettr tr4, r1 st.q r0, 0x220, r1 gettr tr5, r1 st.q r0, 0x228, r1 gettr tr6, r1 st.q r0, 0x230, r1 gettr tr7, r1 st.q r0, 0x238, r1 getcon sr, r1 getcon ssr, r2 getcon pssr, r3 getcon spc, r4 getcon pspc, r5 getcon intevt, r6 getcon expevt, r7 getcon pexpevt, r8 getcon tra, r9 getcon tea, r10 getcon kcr0, r11 getcon kcr1, r12 getcon vbr, r13 getcon resvec, r14 st.q r0, 0x240, r1 st.q r0, 0x248, r2 st.q r0, 0x250, r3 st.q r0, 0x258, r4 st.q r0, 0x260, r5 st.q r0, 0x268, r6 st.q r0, 0x270, r7 st.q r0, 0x278, r8 st.q r0, 0x280, r9 st.q r0, 0x288, r10 st.q r0, 0x290, r11 st.q r0, 0x298, r12 st.q r0, 0x2a0, r13 st.q r0, 0x2a8, r14 getcon SPC,r2 getcon SSR,r3 getcon EXPEVT,r4 /* Prepare to jump to C - physical address */ movi panic_handler-CONFIG_CACHED_MEMORY_OFFSET, r1 ori r1, 1, r1 ptabs r1, tr0 getcon DCR, SP blink tr0, ZERO nop nop nop nop /* * --- Signal Handling Section */ /* * extern long long _sa_default_rt_restorer * extern long long _sa_default_restorer * * or, better, * * extern void _sa_default_rt_restorer(void) * extern void _sa_default_restorer(void) * * Code prototypes to do a sys_rt_sigreturn() or sys_sysreturn() * from user space. Copied into user space by signal management. * Both must be quad aligned and 2 quad long (4 instructions). * */ .balign 8 .global sa_default_rt_restorer sa_default_rt_restorer: movi 0x10, r9 shori __NR_rt_sigreturn, r9 trapa r9 nop .balign 8 .global sa_default_restorer sa_default_restorer: movi 0x10, r9 shori __NR_sigreturn, r9 trapa r9 nop /* * --- __ex_table Section */ /* * User Access Exception Table. */ .section __ex_table, "a" .global asm_uaccess_start /* Just a marker */ asm_uaccess_start: .long ___copy_user1, ___copy_user_exit .long ___copy_user2, ___copy_user_exit .long ___clear_user1, ___clear_user_exit .long ___strncpy_from_user1, ___strncpy_from_user_exit .long ___strnlen_user1, ___strnlen_user_exit .long ___get_user_asm_b1, ___get_user_asm_b_exit .long ___get_user_asm_w1, ___get_user_asm_w_exit .long ___get_user_asm_l1, ___get_user_asm_l_exit .long ___get_user_asm_q1, ___get_user_asm_q_exit .long ___put_user_asm_b1, ___put_user_asm_b_exit .long ___put_user_asm_w1, ___put_user_asm_w_exit .long ___put_user_asm_l1, ___put_user_asm_l_exit .long ___put_user_asm_q1, ___put_user_asm_q_exit .global asm_uaccess_end /* Just a marker */ asm_uaccess_end: /* * --- .text.init Section */ .section .text.init, "ax" /* * void trap_init (void) * */ .global trap_init trap_init: addi SP, -24, SP /* Room to save r28/r29/r30 */ st.q SP, 0, r28 st.q SP, 8, r29 st.q SP, 16, r30 /* Set VBR and RESVEC */ movi LVBR_block, r19 andi r19, -4, r19 /* reset MMUOFF + reserved */ /* For RESVEC exceptions we force the MMU off, which means we need the physical address. */ movi LRESVEC_block-CONFIG_CACHED_MEMORY_OFFSET, r20 andi r20, -4, r20 /* reset reserved */ ori r20, 1, r20 /* set MMUOFF */ putcon r19, VBR putcon r20, RESVEC /* Sanity check */ movi LVBR_block_end, r21 andi r21, -4, r21 movi BLOCK_SIZE, r29 /* r29 = expected size */ or r19, ZERO, r30 add r19, r29, r19 /* * Ugly, but better loop forever now than crash afterwards. * We should print a message, but if we touch LVBR or * LRESVEC blocks we should not be surprised if we get stuck * in trap_init(). */ pta trap_init_loop, tr1 gettr tr1, r28 /* r28 = trap_init_loop */ sub r21, r30, r30 /* r30 = actual size */ /* * VBR/RESVEC handlers overlap by being bigger than * allowed. Very bad. Just loop forever. * (r28) panic/loop address * (r29) expected size * (r30) actual size */ trap_init_loop: bne r19, r21, tr1 /* Now that exception vectors are set up reset SR.BL */ getcon SR, r22 movi SR_UNBLOCK_EXC, r23 and r22, r23, r22 putcon r22, SR addi SP, 24, SP ptabs LINK, tr0 blink tr0, ZERO