xref: /linux/arch/riscv/kernel/entry.S (revision c532de5a67a70f8533d495f8f2aaa9a0491c3ad0)
1/* SPDX-License-Identifier: GPL-2.0-only */
2/*
3 * Copyright (C) 2012 Regents of the University of California
4 * Copyright (C) 2017 SiFive
5 */
6
7#include <linux/init.h>
8#include <linux/linkage.h>
9
10#include <asm/asm.h>
11#include <asm/csr.h>
12#include <asm/scs.h>
13#include <asm/unistd.h>
14#include <asm/page.h>
15#include <asm/thread_info.h>
16#include <asm/asm-offsets.h>
17#include <asm/errata_list.h>
18#include <linux/sizes.h>
19
20	.section .irqentry.text, "ax"
21
22.macro new_vmalloc_check
23	REG_S 	a0, TASK_TI_A0(tp)
24	csrr 	a0, CSR_CAUSE
25	/* Exclude IRQs */
26	blt  	a0, zero, _new_vmalloc_restore_context_a0
27
28	REG_S 	a1, TASK_TI_A1(tp)
29	/* Only check new_vmalloc if we are in page/protection fault */
30	li   	a1, EXC_LOAD_PAGE_FAULT
31	beq  	a0, a1, _new_vmalloc_kernel_address
32	li   	a1, EXC_STORE_PAGE_FAULT
33	beq  	a0, a1, _new_vmalloc_kernel_address
34	li   	a1, EXC_INST_PAGE_FAULT
35	bne  	a0, a1, _new_vmalloc_restore_context_a1
36
37_new_vmalloc_kernel_address:
38	/* Is it a kernel address? */
39	csrr 	a0, CSR_TVAL
40	bge 	a0, zero, _new_vmalloc_restore_context_a1
41
42	/* Check if a new vmalloc mapping appeared that could explain the trap */
43	REG_S	a2, TASK_TI_A2(tp)
44	/*
45	 * Computes:
46	 * a0 = &new_vmalloc[BIT_WORD(cpu)]
47	 * a1 = BIT_MASK(cpu)
48	 */
49	REG_L 	a2, TASK_TI_CPU(tp)
50	/*
51	 * Compute the new_vmalloc element position:
52	 * (cpu / 64) * 8 = (cpu >> 6) << 3
53	 */
54	srli	a1, a2, 6
55	slli	a1, a1, 3
56	la	a0, new_vmalloc
57	add	a0, a0, a1
58	/*
59	 * Compute the bit position in the new_vmalloc element:
60	 * bit_pos = cpu % 64 = cpu - (cpu / 64) * 64 = cpu - (cpu >> 6) << 6
61	 * 	   = cpu - ((cpu >> 6) << 3) << 3
62	 */
63	slli	a1, a1, 3
64	sub	a1, a2, a1
65	/* Compute the "get mask": 1 << bit_pos */
66	li	a2, 1
67	sll	a1, a2, a1
68
69	/* Check the value of new_vmalloc for this cpu */
70	REG_L	a2, 0(a0)
71	and	a2, a2, a1
72	beq	a2, zero, _new_vmalloc_restore_context
73
74	/* Atomically reset the current cpu bit in new_vmalloc */
75	amoxor.d	a0, a1, (a0)
76
77	/* Only emit a sfence.vma if the uarch caches invalid entries */
78	ALTERNATIVE("sfence.vma", "nop", 0, RISCV_ISA_EXT_SVVPTC, 1)
79
80	REG_L	a0, TASK_TI_A0(tp)
81	REG_L	a1, TASK_TI_A1(tp)
82	REG_L	a2, TASK_TI_A2(tp)
83	csrw	CSR_SCRATCH, x0
84	sret
85
86_new_vmalloc_restore_context:
87	REG_L 	a2, TASK_TI_A2(tp)
88_new_vmalloc_restore_context_a1:
89	REG_L 	a1, TASK_TI_A1(tp)
90_new_vmalloc_restore_context_a0:
91	REG_L	a0, TASK_TI_A0(tp)
92.endm
93
94
95SYM_CODE_START(handle_exception)
96	/*
97	 * If coming from userspace, preserve the user thread pointer and load
98	 * the kernel thread pointer.  If we came from the kernel, the scratch
99	 * register will contain 0, and we should continue on the current TP.
100	 */
101	csrrw tp, CSR_SCRATCH, tp
102	bnez tp, .Lsave_context
103
104.Lrestore_kernel_tpsp:
105	csrr tp, CSR_SCRATCH
106
107#ifdef CONFIG_64BIT
108	/*
109	 * The RISC-V kernel does not eagerly emit a sfence.vma after each
110	 * new vmalloc mapping, which may result in exceptions:
111	 * - if the uarch caches invalid entries, the new mapping would not be
112	 *   observed by the page table walker and an invalidation is needed.
113	 * - if the uarch does not cache invalid entries, a reordered access
114	 *   could "miss" the new mapping and traps: in that case, we only need
115	 *   to retry the access, no sfence.vma is required.
116	 */
117	new_vmalloc_check
118#endif
119
120	REG_S sp, TASK_TI_KERNEL_SP(tp)
121
122#ifdef CONFIG_VMAP_STACK
123	addi sp, sp, -(PT_SIZE_ON_STACK)
124	srli sp, sp, THREAD_SHIFT
125	andi sp, sp, 0x1
126	bnez sp, handle_kernel_stack_overflow
127	REG_L sp, TASK_TI_KERNEL_SP(tp)
128#endif
129
130.Lsave_context:
131	REG_S sp, TASK_TI_USER_SP(tp)
132	REG_L sp, TASK_TI_KERNEL_SP(tp)
133	addi sp, sp, -(PT_SIZE_ON_STACK)
134	REG_S x1,  PT_RA(sp)
135	REG_S x3,  PT_GP(sp)
136	REG_S x5,  PT_T0(sp)
137	save_from_x6_to_x31
138
139	/*
140	 * Disable user-mode memory access as it should only be set in the
141	 * actual user copy routines.
142	 *
143	 * Disable the FPU/Vector to detect illegal usage of floating point
144	 * or vector in kernel space.
145	 */
146	li t0, SR_SUM | SR_FS_VS
147
148	REG_L s0, TASK_TI_USER_SP(tp)
149	csrrc s1, CSR_STATUS, t0
150	csrr s2, CSR_EPC
151	csrr s3, CSR_TVAL
152	csrr s4, CSR_CAUSE
153	csrr s5, CSR_SCRATCH
154	REG_S s0, PT_SP(sp)
155	REG_S s1, PT_STATUS(sp)
156	REG_S s2, PT_EPC(sp)
157	REG_S s3, PT_BADADDR(sp)
158	REG_S s4, PT_CAUSE(sp)
159	REG_S s5, PT_TP(sp)
160
161	/*
162	 * Set the scratch register to 0, so that if a recursive exception
163	 * occurs, the exception vector knows it came from the kernel
164	 */
165	csrw CSR_SCRATCH, x0
166
167	/* Load the global pointer */
168	load_global_pointer
169
170	/* Load the kernel shadow call stack pointer if coming from userspace */
171	scs_load_current_if_task_changed s5
172
173#ifdef CONFIG_RISCV_ISA_V_PREEMPTIVE
174	move a0, sp
175	call riscv_v_context_nesting_start
176#endif
177	move a0, sp /* pt_regs */
178
179	/*
180	 * MSB of cause differentiates between
181	 * interrupts and exceptions
182	 */
183	bge s4, zero, 1f
184
185	/* Handle interrupts */
186	call do_irq
187	j ret_from_exception
1881:
189	/* Handle other exceptions */
190	slli t0, s4, RISCV_LGPTR
191	la t1, excp_vect_table
192	la t2, excp_vect_table_end
193	add t0, t1, t0
194	/* Check if exception code lies within bounds */
195	bgeu t0, t2, 3f
196	REG_L t1, 0(t0)
1972:	jalr t1
198	j ret_from_exception
1993:
200
201	la t1, do_trap_unknown
202	j 2b
203SYM_CODE_END(handle_exception)
204ASM_NOKPROBE(handle_exception)
205
206/*
207 * The ret_from_exception must be called with interrupt disabled. Here is the
208 * caller list:
209 *  - handle_exception
210 *  - ret_from_fork
211 */
212SYM_CODE_START_NOALIGN(ret_from_exception)
213	REG_L s0, PT_STATUS(sp)
214#ifdef CONFIG_RISCV_M_MODE
215	/* the MPP value is too large to be used as an immediate arg for addi */
216	li t0, SR_MPP
217	and s0, s0, t0
218#else
219	andi s0, s0, SR_SPP
220#endif
221	bnez s0, 1f
222
223#ifdef CONFIG_GCC_PLUGIN_STACKLEAK
224	call	stackleak_erase_on_task_stack
225#endif
226
227	/* Save unwound kernel stack pointer in thread_info */
228	addi s0, sp, PT_SIZE_ON_STACK
229	REG_S s0, TASK_TI_KERNEL_SP(tp)
230
231	/* Save the kernel shadow call stack pointer */
232	scs_save_current
233
234	/*
235	 * Save TP into the scratch register , so we can find the kernel data
236	 * structures again.
237	 */
238	csrw CSR_SCRATCH, tp
2391:
240#ifdef CONFIG_RISCV_ISA_V_PREEMPTIVE
241	move a0, sp
242	call riscv_v_context_nesting_end
243#endif
244	REG_L a0, PT_STATUS(sp)
245	/*
246	 * The current load reservation is effectively part of the processor's
247	 * state, in the sense that load reservations cannot be shared between
248	 * different hart contexts.  We can't actually save and restore a load
249	 * reservation, so instead here we clear any existing reservation --
250	 * it's always legal for implementations to clear load reservations at
251	 * any point (as long as the forward progress guarantee is kept, but
252	 * we'll ignore that here).
253	 *
254	 * Dangling load reservations can be the result of taking a trap in the
255	 * middle of an LR/SC sequence, but can also be the result of a taken
256	 * forward branch around an SC -- which is how we implement CAS.  As a
257	 * result we need to clear reservations between the last CAS and the
258	 * jump back to the new context.  While it is unlikely the store
259	 * completes, implementations are allowed to expand reservations to be
260	 * arbitrarily large.
261	 */
262	REG_L  a2, PT_EPC(sp)
263	REG_SC x0, a2, PT_EPC(sp)
264
265	csrw CSR_STATUS, a0
266	csrw CSR_EPC, a2
267
268	REG_L x1,  PT_RA(sp)
269	REG_L x3,  PT_GP(sp)
270	REG_L x4,  PT_TP(sp)
271	REG_L x5,  PT_T0(sp)
272	restore_from_x6_to_x31
273
274	REG_L x2,  PT_SP(sp)
275
276#ifdef CONFIG_RISCV_M_MODE
277	mret
278#else
279	sret
280#endif
281SYM_CODE_END(ret_from_exception)
282ASM_NOKPROBE(ret_from_exception)
283
284#ifdef CONFIG_VMAP_STACK
285SYM_CODE_START_LOCAL(handle_kernel_stack_overflow)
286	/* we reach here from kernel context, sscratch must be 0 */
287	csrrw x31, CSR_SCRATCH, x31
288	asm_per_cpu sp, overflow_stack, x31
289	li x31, OVERFLOW_STACK_SIZE
290	add sp, sp, x31
291	/* zero out x31 again and restore x31 */
292	xor x31, x31, x31
293	csrrw x31, CSR_SCRATCH, x31
294
295	addi sp, sp, -(PT_SIZE_ON_STACK)
296
297	//save context to overflow stack
298	REG_S x1,  PT_RA(sp)
299	REG_S x3,  PT_GP(sp)
300	REG_S x5,  PT_T0(sp)
301	save_from_x6_to_x31
302
303	REG_L s0, TASK_TI_KERNEL_SP(tp)
304	csrr s1, CSR_STATUS
305	csrr s2, CSR_EPC
306	csrr s3, CSR_TVAL
307	csrr s4, CSR_CAUSE
308	csrr s5, CSR_SCRATCH
309	REG_S s0, PT_SP(sp)
310	REG_S s1, PT_STATUS(sp)
311	REG_S s2, PT_EPC(sp)
312	REG_S s3, PT_BADADDR(sp)
313	REG_S s4, PT_CAUSE(sp)
314	REG_S s5, PT_TP(sp)
315	move a0, sp
316	tail handle_bad_stack
317SYM_CODE_END(handle_kernel_stack_overflow)
318ASM_NOKPROBE(handle_kernel_stack_overflow)
319#endif
320
321SYM_CODE_START(ret_from_fork)
322	call schedule_tail
323	beqz s0, 1f	/* not from kernel thread */
324	/* Call fn(arg) */
325	move a0, s1
326	jalr s0
3271:
328	move a0, sp /* pt_regs */
329	call syscall_exit_to_user_mode
330	j ret_from_exception
331SYM_CODE_END(ret_from_fork)
332
333#ifdef CONFIG_IRQ_STACKS
334/*
335 * void call_on_irq_stack(struct pt_regs *regs,
336 * 		          void (*func)(struct pt_regs *));
337 *
338 * Calls func(regs) using the per-CPU IRQ stack.
339 */
340SYM_FUNC_START(call_on_irq_stack)
341	/* Create a frame record to save ra and s0 (fp) */
342	addi	sp, sp, -STACKFRAME_SIZE_ON_STACK
343	REG_S	ra, STACKFRAME_RA(sp)
344	REG_S	s0, STACKFRAME_FP(sp)
345	addi	s0, sp, STACKFRAME_SIZE_ON_STACK
346
347	/* Switch to the per-CPU shadow call stack */
348	scs_save_current
349	scs_load_irq_stack t0
350
351	/* Switch to the per-CPU IRQ stack and call the handler */
352	load_per_cpu t0, irq_stack_ptr, t1
353	li	t1, IRQ_STACK_SIZE
354	add	sp, t0, t1
355	jalr	a1
356
357	/* Switch back to the thread shadow call stack */
358	scs_load_current
359
360	/* Switch back to the thread stack and restore ra and s0 */
361	addi	sp, s0, -STACKFRAME_SIZE_ON_STACK
362	REG_L	ra, STACKFRAME_RA(sp)
363	REG_L	s0, STACKFRAME_FP(sp)
364	addi	sp, sp, STACKFRAME_SIZE_ON_STACK
365
366	ret
367SYM_FUNC_END(call_on_irq_stack)
368#endif /* CONFIG_IRQ_STACKS */
369
370/*
371 * Integer register context switch
372 * The callee-saved registers must be saved and restored.
373 *
374 *   a0: previous task_struct (must be preserved across the switch)
375 *   a1: next task_struct
376 *
377 * The value of a0 and a1 must be preserved by this function, as that's how
378 * arguments are passed to schedule_tail.
379 */
380SYM_FUNC_START(__switch_to)
381	/* Save context into prev->thread */
382	li    a4,  TASK_THREAD_RA
383	add   a3, a0, a4
384	add   a4, a1, a4
385	REG_S ra,  TASK_THREAD_RA_RA(a3)
386	REG_S sp,  TASK_THREAD_SP_RA(a3)
387	REG_S s0,  TASK_THREAD_S0_RA(a3)
388	REG_S s1,  TASK_THREAD_S1_RA(a3)
389	REG_S s2,  TASK_THREAD_S2_RA(a3)
390	REG_S s3,  TASK_THREAD_S3_RA(a3)
391	REG_S s4,  TASK_THREAD_S4_RA(a3)
392	REG_S s5,  TASK_THREAD_S5_RA(a3)
393	REG_S s6,  TASK_THREAD_S6_RA(a3)
394	REG_S s7,  TASK_THREAD_S7_RA(a3)
395	REG_S s8,  TASK_THREAD_S8_RA(a3)
396	REG_S s9,  TASK_THREAD_S9_RA(a3)
397	REG_S s10, TASK_THREAD_S10_RA(a3)
398	REG_S s11, TASK_THREAD_S11_RA(a3)
399	/* Save the kernel shadow call stack pointer */
400	scs_save_current
401	/* Restore context from next->thread */
402	REG_L ra,  TASK_THREAD_RA_RA(a4)
403	REG_L sp,  TASK_THREAD_SP_RA(a4)
404	REG_L s0,  TASK_THREAD_S0_RA(a4)
405	REG_L s1,  TASK_THREAD_S1_RA(a4)
406	REG_L s2,  TASK_THREAD_S2_RA(a4)
407	REG_L s3,  TASK_THREAD_S3_RA(a4)
408	REG_L s4,  TASK_THREAD_S4_RA(a4)
409	REG_L s5,  TASK_THREAD_S5_RA(a4)
410	REG_L s6,  TASK_THREAD_S6_RA(a4)
411	REG_L s7,  TASK_THREAD_S7_RA(a4)
412	REG_L s8,  TASK_THREAD_S8_RA(a4)
413	REG_L s9,  TASK_THREAD_S9_RA(a4)
414	REG_L s10, TASK_THREAD_S10_RA(a4)
415	REG_L s11, TASK_THREAD_S11_RA(a4)
416	/* The offset of thread_info in task_struct is zero. */
417	move tp, a1
418	/* Switch to the next shadow call stack */
419	scs_load_current
420	ret
421SYM_FUNC_END(__switch_to)
422
423#ifndef CONFIG_MMU
424#define do_page_fault do_trap_unknown
425#endif
426
427	.section ".rodata"
428	.align LGREG
429	/* Exception vector table */
430SYM_DATA_START_LOCAL(excp_vect_table)
431	RISCV_PTR do_trap_insn_misaligned
432	ALT_INSN_FAULT(RISCV_PTR do_trap_insn_fault)
433	RISCV_PTR do_trap_insn_illegal
434	RISCV_PTR do_trap_break
435	RISCV_PTR do_trap_load_misaligned
436	RISCV_PTR do_trap_load_fault
437	RISCV_PTR do_trap_store_misaligned
438	RISCV_PTR do_trap_store_fault
439	RISCV_PTR do_trap_ecall_u /* system call */
440	RISCV_PTR do_trap_ecall_s
441	RISCV_PTR do_trap_unknown
442	RISCV_PTR do_trap_ecall_m
443	/* instruciton page fault */
444	ALT_PAGE_FAULT(RISCV_PTR do_page_fault)
445	RISCV_PTR do_page_fault   /* load page fault */
446	RISCV_PTR do_trap_unknown
447	RISCV_PTR do_page_fault   /* store page fault */
448SYM_DATA_END_LABEL(excp_vect_table, SYM_L_LOCAL, excp_vect_table_end)
449
450#ifndef CONFIG_MMU
451SYM_DATA_START(__user_rt_sigreturn)
452	li a7, __NR_rt_sigreturn
453	ecall
454SYM_DATA_END(__user_rt_sigreturn)
455#endif
456