arch/x86_64/panic.c

#include <arch/irq.h>
#include <kernel/libc/stdio.h>
#include <kernel/machine/cpu.h>
#include <kernel/machine/panic.h>
#include <kernel/printk.h>
#include <kernel/vm.h>

#define R_CF  0
#define R_PF  2
#define R_AF  4
#define R_ZF  6
#define R_SF  7
#define R_TF  8
#define R_IF  9
#define R_DF  10
#define R_OF  11
#define R_NT  14
#define R_VM  17
#define R_AC  18
#define R_VIF 19
#define R_VIP 20
#define R_ID  21
#define R_MAX 21

struct stack_frame {
	uintptr_t rbp;
	uintptr_t rip;
} __attribute__((packed));

const char *pf_rfl_name(int bit)
{
	switch (bit) {
	case R_CF:
		return "CF";
	case R_PF:
		return "PF";
	case R_AF:
		return "AF";
	case R_ZF:
		return "ZF";
	case R_SF:
		return "SF";
	case R_TF:
		return "TF";
	case R_IF:
		return "IF";
	case R_DF:
		return "DF";
	case R_OF:
		return "OF";
	case R_NT:
		return "NT";
	case R_VM:
		return "VM";
	case R_AC:
		return "AC";
	case R_VIF:
		return "VIF";
	case R_VIP:
		return "VIP";
	case R_ID:
		return "ID";
	default:
		return NULL;
	}
}

int pf_rfl_iopl(uint64_t flags)
{
	int mask = 0x3000;
	int val = flags & mask;
	return val >> 12;
}

static void print_rflags(uintptr_t rflags)
{
	char buf[128];
	size_t buf_i = 0;

	buf_i += snprintf(buf, sizeof(buf), "  rfl %08lx [", rflags);

	for (int i = 0; i < R_MAX; i++) {
		if (rflags & (1 << i)) {
			const char *name = pf_rfl_name(i);
			if (name) {
				buf_i += snprintf(
					buf + buf_i,
					sizeof(buf) - buf_i,
					" %s",
					name);
			}
		}
	}

	snprintf(buf + buf_i, sizeof(buf) - buf_i, " ]");
	printk(buf);
}

void ml_print_cpu_state(struct ml_cpu_context *ctx)
{
	printk("cpu state:");
	if (ctx) {
		printk("  rax %016llx rbx %016llx rcx %016llx",
		       ctx->rax,
		       ctx->rbx,
		       ctx->rcx);
		printk("  rdx %016llx rsi %016llx rdi %016llx",
		       ctx->rdx,
		       ctx->rsi,
		       ctx->rdi);
		printk("  rsp %016llx rbp %016llx r8  %016llx",
		       ctx->rsp,
		       ctx->rbp,
		       ctx->r8);
		printk("  r9  %016llx r10 %016llx r11 %016llx",
		       ctx->r9,
		       ctx->r10,
		       ctx->r11);
		printk("  r12 %016llx r13 %016llx r14 %016llx",
		       ctx->r12,
		       ctx->r13,
		       ctx->r14);
		printk("  r15 %016llx rip %016llx cs  %04x ss %04x",
		       ctx->r15,
		       ctx->rip,
		       ctx->cs,
		       ctx->ss);
		print_rflags(ctx->rflags);
	}

	uintptr_t cr0 = 0, cr2 = 0, cr3 = 0, cr4 = 0;
	asm volatile("mov %%cr0, %%rax" : "=a"(cr0));
	asm volatile("mov %%cr2, %%rax" : "=a"(cr2));
	asm volatile("mov %%cr3, %%rax" : "=a"(cr3));
	asm volatile("mov %%cr4, %%rax" : "=a"(cr4));
	printk("  cr0 %016llx cr2 %016llx", cr0, cr2);
	printk("  cr3 %016llx cr4 %016llx", cr3, cr4);
}

static void print_stack_item(uintptr_t addr)
{
	if (!addr) {
		return;
	}

	char buf[64];
	size_t i = 0;

	i += snprintf(buf, sizeof(buf), "  [<%p>] ", addr);

	size_t offset = 0;
	char name[128];
	int found = -1;

	if (found == 0 && name[0] != '\0') {
		i += snprintf(
			buf + i,
			sizeof(buf) - i,
			"%s+0x%lx",
			name,
			offset);
	} else {
		i += snprintf(buf + i, sizeof(buf) - i, "?");
	}

	printk("%s", buf);
}

static void print_stack_trace(uintptr_t ip, uintptr_t *bp)
{
	struct stack_frame *stk = (struct stack_frame *)bp;
	printk("call trace:");

	print_stack_item(ip);

	int max_frames = 10, current_frame = 0;
	while (1) {
		if (!vm_virt_to_phys(stk) || bp == NULL
		    || current_frame > max_frames) {
			break;
		}

		uintptr_t addr = stk->rip;
		print_stack_item(addr);

		stk = (struct stack_frame *)stk->rbp;
		current_frame++;
	}
}

void ml_print_stack_trace(uintptr_t ip)
{
	uintptr_t *bp;
	asm volatile("mov %%rbp, %0" : "=r"(bp));
	print_stack_trace(ip, bp);
}

void ml_print_stack_trace_irq(struct ml_cpu_context *ctx)
{
	print_stack_trace(ctx->rip, (uintptr_t *)ctx->rbp);
}
kernel: implement panic() 2023-04-09 16:35:15 +01:00			`#include <arch/irq.h>`
kernel: separate headers into kernel and user headers all kernel headers have been moved from include/mango to include/kernel and include definitions that are only relevant to kernel-space. any definitions that are relevant to both kernel- and user-space (i.e. type definitions, syscall IDs) have been moved to include/mango within libmango. 2026-02-19 18:54:48 +00:00			`#include <kernel/libc/stdio.h>`
			`#include <kernel/machine/cpu.h>`
			`#include <kernel/machine/panic.h>`
			`#include <kernel/printk.h>`
			`#include <kernel/vm.h>`
kernel: implement panic() 2023-04-09 16:35:15 +01:00
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`#define R_CF 0`
			`#define R_PF 2`
			`#define R_AF 4`
			`#define R_ZF 6`
			`#define R_SF 7`
			`#define R_TF 8`
			`#define R_IF 9`
			`#define R_DF 10`
			`#define R_OF 11`
			`#define R_NT 14`
			`#define R_VM 17`
			`#define R_AC 18`
kernel: implement panic() 2023-04-09 16:35:15 +01:00			`#define R_VIF 19`
			`#define R_VIP 20`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`#define R_ID 21`
kernel: implement panic() 2023-04-09 16:35:15 +01:00			`#define R_MAX 21`

x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`struct stack_frame {`
			`uintptr_t rbp;`
			`uintptr_t rip;`
			`} __attribute__((packed));`

kernel: implement panic() 2023-04-09 16:35:15 +01:00			`const char *pf_rfl_name(int bit)`
			`{`
			`switch (bit) {`
			`case R_CF:`
			`return "CF";`
			`case R_PF:`
			`return "PF";`
			`case R_AF:`
			`return "AF";`
			`case R_ZF:`
			`return "ZF";`
			`case R_SF:`
			`return "SF";`
			`case R_TF:`
			`return "TF";`
			`case R_IF:`
			`return "IF";`
			`case R_DF:`
			`return "DF";`
			`case R_OF:`
			`return "OF";`
			`case R_NT:`
			`return "NT";`
			`case R_VM:`
			`return "VM";`
			`case R_AC:`
			`return "AC";`
			`case R_VIF:`
			`return "VIF";`
			`case R_VIP:`
			`return "VIP";`
			`case R_ID:`
			`return "ID";`
			`default:`
			`return NULL;`
			`}`
			`}`

			`int pf_rfl_iopl(uint64_t flags)`
			`{`
			`int mask = 0x3000;`
			`int val = flags & mask;`
			`return val >> 12;`
			`}`

			`static void print_rflags(uintptr_t rflags)`
			`{`
			`char buf[128];`
			`size_t buf_i = 0;`

			`buf_i += snprintf(buf, sizeof(buf), " rfl %08lx [", rflags);`

			`for (int i = 0; i < R_MAX; i++) {`
			`if (rflags & (1 << i)) {`
			`const char *name = pf_rfl_name(i);`
			`if (name) {`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`buf_i += snprintf(`
			`buf + buf_i,`
			`sizeof(buf) - buf_i,`
			`" %s",`
			`name);`
kernel: implement panic() 2023-04-09 16:35:15 +01:00			`}`
			`}`
			`}`

			`snprintf(buf + buf_i, sizeof(buf) - buf_i, " ]");`
			`printk(buf);`
			`}`

x86_64: rename struct cpu_context; move to machine/cpu.h 2026-02-08 11:32:09 +00:00			`void ml_print_cpu_state(struct ml_cpu_context *ctx)`
kernel: implement panic() 2023-04-09 16:35:15 +01:00			`{`
			`printk("cpu state:");`
			`if (ctx) {`
x86_64: panic: fix printk formatting specifiers for cpu registers 2023-05-03 19:26:19 +01:00			`printk(" rax %016llx rbx %016llx rcx %016llx",`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`ctx->rax,`
			`ctx->rbx,`
			`ctx->rcx);`
x86_64: panic: fix printk formatting specifiers for cpu registers 2023-05-03 19:26:19 +01:00			`printk(" rdx %016llx rsi %016llx rdi %016llx",`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`ctx->rdx,`
			`ctx->rsi,`
			`ctx->rdi);`
x86_64: panic: fix printk formatting specifiers for cpu registers 2023-05-03 19:26:19 +01:00			`printk(" rsp %016llx rbp %016llx r8 %016llx",`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`ctx->rsp,`
			`ctx->rbp,`
			`ctx->r8);`
x86_64: panic: fix printk formatting specifiers for cpu registers 2023-05-03 19:26:19 +01:00			`printk(" r9 %016llx r10 %016llx r11 %016llx",`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`ctx->r9,`
			`ctx->r10,`
			`ctx->r11);`
x86_64: panic: fix printk formatting specifiers for cpu registers 2023-05-03 19:26:19 +01:00			`printk(" r12 %016llx r13 %016llx r14 %016llx",`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`ctx->r12,`
			`ctx->r13,`
			`ctx->r14);`
x86_64: panic: fix printk formatting specifiers for cpu registers 2023-05-03 19:26:19 +01:00			`printk(" r15 %016llx rip %016llx cs %04x ss %04x",`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`ctx->r15,`
			`ctx->rip,`
			`ctx->cs,`
			`ctx->ss);`
kernel: implement panic() 2023-04-09 16:35:15 +01:00			`print_rflags(ctx->rflags);`
			`}`

			`uintptr_t cr0 = 0, cr2 = 0, cr3 = 0, cr4 = 0;`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`asm volatile("mov %%cr0, %%rax" : "=a"(cr0));`
			`asm volatile("mov %%cr2, %%rax" : "=a"(cr2));`
			`asm volatile("mov %%cr3, %%rax" : "=a"(cr3));`
			`asm volatile("mov %%cr4, %%rax" : "=a"(cr4));`
x86_64: panic: fix printk formatting specifiers for cpu registers 2023-05-03 19:26:19 +01:00			`printk(" cr0 %016llx cr2 %016llx", cr0, cr2);`
			`printk(" cr3 %016llx cr4 %016llx", cr3, cr4);`
kernel: implement panic() 2023-04-09 16:35:15 +01:00			`}`

x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`static void print_stack_item(uintptr_t addr)`
			`{`
			`if (!addr) {`
			`return;`
			`}`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`char buf[64];`
			`size_t i = 0;`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`i += snprintf(buf, sizeof(buf), " [<%p>] ", addr);`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`size_t offset = 0;`
			`char name[128];`
			`int found = -1;`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`if (found == 0 && name[0] != '\0') {`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`i += snprintf(`
			`buf + i,`
			`sizeof(buf) - i,`
			`"%s+0x%lx",`
			`name,`
			`offset);`
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`} else {`
			`i += snprintf(buf + i, sizeof(buf) - i, "?");`
			`}`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`printk("%s", buf);`
			`}`

			`static void print_stack_trace(uintptr_t ip, uintptr_t *bp)`
			`{`
			`struct stack_frame stk = (struct stack_frame )bp;`
			`printk("call trace:");`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`print_stack_item(ip);`

			`int max_frames = 10, current_frame = 0;`
			`while (1) {`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`if (!vm_virt_to_phys(stk) \|\| bp == NULL`
			`\|\| current_frame > max_frames) {`
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`break;`
			`}`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`uintptr_t addr = stk->rip;`
			`print_stack_item(addr);`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`stk = (struct stack_frame *)stk->rbp;`
			`current_frame++;`
			`}`
			`}`

			`void ml_print_stack_trace(uintptr_t ip)`
kernel: implement panic() 2023-04-09 16:35:15 +01:00			`{`
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`uintptr_t *bp;`
x86_64: adjust formatting 2026-02-08 11:36:16 +00:00			`asm volatile("mov %%rbp, %0" : "=r"(bp));`
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`print_stack_trace(ip, bp);`
			`}`
kernel: implement panic() 2023-04-09 16:35:15 +01:00
x86_64: rename struct cpu_context; move to machine/cpu.h 2026-02-08 11:32:09 +00:00			`void ml_print_stack_trace_irq(struct ml_cpu_context *ctx)`
x86_64: print stack trace during panic 2023-05-06 22:18:34 +01:00			`{`
			`print_stack_trace(ctx->rip, (uintptr_t *)ctx->rbp);`
kernel: implement panic() 2023-04-09 16:35:15 +01:00			`}`