STM32 两个栈，你用哪一个？

发布人：鱼鹰谈单片机时间：2021-11-21 来源：工程师发布文章

来源：公众号【鱼鹰谈单片机】

作者：鱼鹰Osprey

ID ：emOsprey

之前的分享的一篇文章 HardFault 之 INVSTAE 错误定位（一）里面提到了一份官方 PPT《HardFault的诊断.pdf》，当时鱼鹰没有去寻找，然后一位读者 fane 找到后分享给鱼鹰了，在此感谢这位道友。

看完之后，觉得很有帮助，所以分享给大家（关键字：hardfault的诊断），建议大家也看一看。里面有一份很实用的代码，在这里贴出来。

void hard_fault_handler_c (unsigned int * hardfault_args) { unsigned int stacked_r0; unsigned int stacked_r1; unsigned int stacked_r2; unsigned int stacked_r3; unsigned int stacked_r12; unsigned int stacked_lr; unsigned int stacked_pc; unsigned int stacked_psr; stacked_r0 = ((unsigned long) hardfault_args[0]); stacked_r1 = ((unsigned long) hardfault_args[1]); stacked_r2 = ((unsigned long) hardfault_args[2]); stacked_r3 = ((unsigned long) hardfault_args[3]); stacked_r12 = ((unsigned long) hardfault_args[4]); stacked_lr = ((unsigned long) hardfault_args[5]); stacked_pc = ((unsigned long) hardfault_args[6]); stacked_psr = ((unsigned long) hardfault_args[7]); printf ("\n\n[Hard fault handler - all numbers in hex]\n"); printf ("R0 = %x\n", stacked_r0); printf ("R1 = %x\n", stacked_r1); printf ("R2 = %x\n", stacked_r2); printf ("R3 = %x\n", stacked_r3); printf ("R12 = %x\n", stacked_r12); printf ("LR [R14] = %x subroutine call return address\n", stacked_lr); printf ("PC [R15] = %x program counter\n", stacked_pc); printf ("PSR = %x\n", stacked_psr); printf ("BFAR = %x\n", (*((volatile unsigned long *)(0xE000ED38)))); printf ("CFSR = %x\n", (*((volatile unsigned long *)(0xE000ED28)))); printf ("HFSR = %x\n", (*((volatile unsigned long *)(0xE000ED2C)))); printf ("DFSR = %x\n", (*((volatile unsigned long *)(0xE000ED30)))); printf ("AFSR = %x\n", (*((volatile unsigned long *)(0xE000ED3C)))); printf ("SCB_SHCSR = %x\n", SCB->SHCSR); while (1); } HardFault_Handler: TST LR, #4 ITE EQ MRSEQ R0, MSP MRSNE R0, PSP B hard_fault_handler_c

这份代码可以在出现错误时打印寄存器的值，从而定位问题（上面部分代码用汇编，可以放在 .s 文件中）。

我们都知道，STM32 物理上有两个栈，一个是 PSP，一个是 MSP，在未使用操作系统的情况，一般只用一个 MSP。也就是说，不管是 main 函数，还是中断处理函数，都使用 MSP 保存上下文。