cregit-Linux how code gets into the kernel

Release 4.14 arch/xtensa/kernel/stacktrace.c

/*
 * Kernel and userspace stack tracing.
 *
 * 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.
 *
 * Copyright (C) 2001 - 2013 Tensilica Inc.
 * Copyright (C) 2015 Cadence Design Systems Inc.
 */
#include <linux/export.h>
#include <linux/sched.h>
#include <linux/stacktrace.h>

#include <asm/stacktrace.h>
#include <asm/traps.h>
#include <linux/uaccess.h>

#if IS_ENABLED(CONFIG_OPROFILE) || IS_ENABLED(CONFIG_PERF_EVENTS)

/* Address of common_exception_return, used to check the
 * transition from kernel to user space.
 */
extern int common_exception_return;


void xtensa_backtrace_user(struct pt_regs *regs, unsigned int depth, int (*ufn)(struct stackframe *frame, void *data), void *data) { unsigned long windowstart = regs->windowstart; unsigned long windowbase = regs->windowbase; unsigned long a0 = regs->areg[0]; unsigned long a1 = regs->areg[1]; unsigned long pc = regs->pc; struct stackframe frame; int index; if (!depth--) return; frame.pc = pc; frame.sp = a1; if (pc == 0 || pc >= TASK_SIZE || ufn(&frame, data)) return; /* Two steps: * * 1. Look through the register window for the * previous PCs in the call trace. * * 2. Look on the stack. */ /* Step 1. */ /* Rotate WINDOWSTART to move the bit corresponding to * the current window to the bit #0. */ windowstart = (windowstart << WSBITS | windowstart) >> windowbase; /* Look for bits that are set, they correspond to * valid windows. */ for (index = WSBITS - 1; (index > 0) && depth; depth--, index--) if (windowstart & (1 << index)) { /* Get the PC from a0 and a1. */ pc = MAKE_PC_FROM_RA(a0, pc); /* Read a0 and a1 from the * corresponding position in AREGs. */ a0 = regs->areg[index * 4]; a1 = regs->areg[index * 4 + 1]; frame.pc = pc; frame.sp = a1; if (pc == 0 || pc >= TASK_SIZE || ufn(&frame, data)) return; } /* Step 2. */ /* We are done with the register window, we need to * look through the stack. */ if (!depth) return; /* Start from the a1 register. */ /* a1 = regs->areg[1]; */ while (a0 != 0 && depth--) { pc = MAKE_PC_FROM_RA(a0, pc); /* Check if the region is OK to access. */ if (!access_ok(VERIFY_READ, &SPILL_SLOT(a1, 0), 8)) return; /* Copy a1, a0 from user space stack frame. */ if (__get_user(a0, &SPILL_SLOT(a1, 0)) || __get_user(a1, &SPILL_SLOT(a1, 1))) return; frame.pc = pc; frame.sp = a1; if (pc == 0 || pc >= TASK_SIZE || ufn(&frame, data)) return; } }

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EXPORT_SYMBOL(xtensa_backtrace_user);
void xtensa_backtrace_kernel(struct pt_regs *regs, unsigned int depth, int (*kfn)(struct stackframe *frame, void *data), int (*ufn)(struct stackframe *frame, void *data), void *data) { unsigned long pc = regs->depc > VALID_DOUBLE_EXCEPTION_ADDRESS ? regs->depc : regs->pc; unsigned long sp_start, sp_end; unsigned long a0 = regs->areg[0]; unsigned long a1 = regs->areg[1]; sp_start = a1 & ~(THREAD_SIZE - 1); sp_end = sp_start + THREAD_SIZE; /* Spill the register window to the stack first. */ spill_registers(); /* Read the stack frames one by one and create the PC * from the a0 and a1 registers saved there. */ while (a1 > sp_start && a1 < sp_end && depth--) { struct stackframe frame; frame.pc = pc; frame.sp = a1; if (kernel_text_address(pc) && kfn(&frame, data)) return; if (pc == (unsigned long)&common_exception_return) { regs = (struct pt_regs *)a1; if (user_mode(regs)) { if (ufn == NULL) return; xtensa_backtrace_user(regs, depth, ufn, data); return; } a0 = regs->areg[0]; a1 = regs->areg[1]; continue; } sp_start = a1; pc = MAKE_PC_FROM_RA(a0, pc); a0 = SPILL_SLOT(a1, 0); a1 = SPILL_SLOT(a1, 1); } }

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EXPORT_SYMBOL(xtensa_backtrace_kernel); #endif
void walk_stackframe(unsigned long *sp, int (*fn)(struct stackframe *frame, void *data), void *data) { unsigned long a0, a1; unsigned long sp_end; a1 = (unsigned long)sp; sp_end = ALIGN(a1, THREAD_SIZE); spill_registers(); while (a1 < sp_end) { struct stackframe frame; sp = (unsigned long *)a1; a0 = SPILL_SLOT(a1, 0); a1 = SPILL_SLOT(a1, 1); if (a1 <= (unsigned long)sp) break; frame.pc = MAKE_PC_FROM_RA(a0, a1); frame.sp = a1; if (fn(&frame, data)) return; } }

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#ifdef CONFIG_STACKTRACE struct stack_trace_data { struct stack_trace *trace; unsigned skip; };
static int stack_trace_cb(struct stackframe *frame, void *data) { struct stack_trace_data *trace_data = data; struct stack_trace *trace = trace_data->trace; if (trace_data->skip) { --trace_data->skip; return 0; } if (!kernel_text_address(frame->pc)) return 0; trace->entries[trace->nr_entries++] = frame->pc; return trace->nr_entries >= trace->max_entries; }

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void save_stack_trace_tsk(struct task_struct *task, struct stack_trace *trace) { struct stack_trace_data trace_data = { .trace = trace, .skip = trace->skip, }; walk_stackframe(stack_pointer(task), stack_trace_cb, &trace_data); }

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EXPORT_SYMBOL_GPL(save_stack_trace_tsk);
void save_stack_trace(struct stack_trace *trace) { save_stack_trace_tsk(current, trace); }

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EXPORT_SYMBOL_GPL(save_stack_trace); #endif #ifdef CONFIG_FRAME_POINTER struct return_addr_data { unsigned long addr; unsigned skip; };
static int return_address_cb(struct stackframe *frame, void *data) { struct return_addr_data *r = data; if (r->skip) { --r->skip; return 0; } if (!kernel_text_address(frame->pc)) return 0; r->addr = frame->pc; return 1; }

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unsigned long return_address(unsigned level) { struct return_addr_data r = { .skip = level + 1, }; walk_stackframe(stack_pointer(NULL), return_address_cb, &r); return r.addr; }

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EXPORT_SYMBOL(return_address); #endif

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