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0c8c0ff412
RISC-V uses a different convention for storing stack frame information described here: https://github.com/riscv-non-isa/riscv-elf-psabi-doc/blob/master/riscv-cc.adoc#frame-pointer-convention This part of the psABI is not yet in a ratified version, but both GCC and Clang seem to use this convention. Note that the backtrace dumping code still won't work for the initial stack, as it is located before `kernel_mapping_base`.
250 lines
8.7 KiB
C++
250 lines
8.7 KiB
C++
/*
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* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/TemporaryChange.h>
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#include <Kernel/Arch/SafeMem.h>
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#include <Kernel/Arch/SmapDisabler.h>
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#include <Kernel/FileSystem/OpenFileDescription.h>
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#include <Kernel/KSyms.h>
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#include <Kernel/Sections.h>
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#include <Kernel/Tasks/Process.h>
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#include <Kernel/Tasks/Scheduler.h>
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namespace Kernel {
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FlatPtr g_lowest_kernel_symbol_address = 0xffffffff;
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FlatPtr g_highest_kernel_symbol_address = 0;
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bool g_kernel_symbols_available = false;
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extern "C" {
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__attribute__((section(".kernel_symbols"))) char kernel_symbols[5 * MiB] {};
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}
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static KernelSymbol* s_symbols;
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static size_t s_symbol_count = 0;
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UNMAP_AFTER_INIT static u8 parse_hex_digit(char nibble)
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{
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if (nibble >= '0' && nibble <= '9')
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return nibble - '0';
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VERIFY(nibble >= 'a' && nibble <= 'f');
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return 10 + (nibble - 'a');
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}
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FlatPtr address_for_kernel_symbol(StringView name)
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{
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for (size_t i = 0; i < s_symbol_count; ++i) {
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auto const& symbol = s_symbols[i];
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if (name == symbol.name)
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return symbol.address;
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}
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return 0;
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}
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KernelSymbol const* symbolicate_kernel_address(FlatPtr address)
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{
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if (address < g_lowest_kernel_symbol_address || address > g_highest_kernel_symbol_address)
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return nullptr;
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for (unsigned i = 0; i < s_symbol_count; ++i) {
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if (address < s_symbols[i + 1].address)
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return &s_symbols[i];
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}
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return nullptr;
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}
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UNMAP_AFTER_INIT static void load_kernel_symbols_from_data(Bytes buffer)
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{
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g_lowest_kernel_symbol_address = 0xffffffff;
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g_highest_kernel_symbol_address = 0;
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auto* bufptr = (char*)buffer.data();
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auto* start_of_name = bufptr;
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FlatPtr address = 0;
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for (size_t i = 0; i < 8; ++i)
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s_symbol_count = (s_symbol_count << 4) | parse_hex_digit(*(bufptr++));
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s_symbols = static_cast<KernelSymbol*>(kmalloc(sizeof(KernelSymbol) * s_symbol_count));
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++bufptr; // skip newline
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dmesgln("Loading kernel symbol table...");
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size_t current_symbol_index = 0;
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while ((u8 const*)bufptr < buffer.data() + buffer.size()) {
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for (size_t i = 0; i < sizeof(void*) * 2; ++i)
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address = (address << 4) | parse_hex_digit(*(bufptr++));
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bufptr += 3;
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start_of_name = bufptr;
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while (*(++bufptr)) {
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if (*bufptr == '\n') {
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break;
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}
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}
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auto& ksym = s_symbols[current_symbol_index];
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// FIXME: Remove this ifdef once the aarch64 kernel is loaded by the Prekernel.
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// Currently, the aarch64 kernel is linked at a high virtual memory address, instead
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// of zero, so the address of a symbol does not need to be offset by the kernel_load_base.
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#if ARCH(X86_64)
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ksym.address = kernel_load_base + address;
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#elif ARCH(AARCH64) || ARCH(RISCV64)
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ksym.address = address;
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#else
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# error "Unknown architecture"
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#endif
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ksym.name = start_of_name;
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*bufptr = '\0';
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if (ksym.address < g_lowest_kernel_symbol_address)
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g_lowest_kernel_symbol_address = ksym.address;
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if (ksym.address > g_highest_kernel_symbol_address)
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g_highest_kernel_symbol_address = ksym.address;
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++bufptr;
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++current_symbol_index;
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}
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g_kernel_symbols_available = true;
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}
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NEVER_INLINE static void dump_backtrace_impl(FlatPtr frame_pointer, bool use_ksyms, PrintToScreen print_to_screen)
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{
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#define PRINT_LINE(fmtstr, ...) \
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do { \
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if (print_to_screen == PrintToScreen::No) \
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dbgln(fmtstr, __VA_ARGS__); \
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else \
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critical_dmesgln(fmtstr, __VA_ARGS__); \
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} while (0)
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SmapDisabler disabler;
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if (use_ksyms && !g_kernel_symbols_available)
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Processor::halt();
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struct RecognizedSymbol {
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FlatPtr address;
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KernelSymbol const* symbol { nullptr };
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};
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struct FrameRecord {
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FlatPtr previous_frame_pointer;
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FlatPtr return_address;
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};
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auto safe_memcpy_frame_record_from_stack = [](FlatPtr current_frame_pointer) -> ErrorOr<FrameRecord> {
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#if ARCH(X86_64) || ARCH(AARCH64)
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// x86_64/aarch64 frame record layout:
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// rbp/fp+8: return address
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// rbp/fp+0: previous base/frame pointer
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FlatPtr previous_frame_pointer_and_return_address[2];
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void* fault_at;
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if (!safe_memcpy(previous_frame_pointer_and_return_address, bit_cast<FlatPtr*>(current_frame_pointer), sizeof(previous_frame_pointer_and_return_address), fault_at))
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return EFAULT;
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return FrameRecord {
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.previous_frame_pointer = previous_frame_pointer_and_return_address[0],
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.return_address = previous_frame_pointer_and_return_address[1],
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};
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#elif ARCH(RISCV64)
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// riscv64 frame record layout:
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// fp-8: return address
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// fp-16: previous frame pointer
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FlatPtr previous_frame_pointer_and_return_address[2];
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void* fault_at;
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if (!safe_memcpy(previous_frame_pointer_and_return_address, bit_cast<FlatPtr*>(current_frame_pointer) - 2, sizeof(previous_frame_pointer_and_return_address), fault_at))
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return EFAULT;
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return FrameRecord {
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.previous_frame_pointer = previous_frame_pointer_and_return_address[0],
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.return_address = previous_frame_pointer_and_return_address[1],
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};
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#else
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# error Unknown architecture
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#endif
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};
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constexpr size_t max_recognized_symbol_count = 256;
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RecognizedSymbol recognized_symbols[max_recognized_symbol_count];
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size_t recognized_symbol_count = 0;
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if (use_ksyms) {
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FlatPtr current_frame_pointer = frame_pointer;
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while (current_frame_pointer != 0 && recognized_symbol_count < max_recognized_symbol_count) {
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if (current_frame_pointer < kernel_mapping_base)
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break;
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auto frame_record_or_error = safe_memcpy_frame_record_from_stack(current_frame_pointer);
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if (frame_record_or_error.is_error())
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break;
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auto frame_record = frame_record_or_error.release_value();
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recognized_symbols[recognized_symbol_count++] = { frame_record.return_address, symbolicate_kernel_address(frame_record.return_address) };
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current_frame_pointer = frame_record.previous_frame_pointer;
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}
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} else {
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FlatPtr current_frame_pointer = frame_pointer;
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while (current_frame_pointer != 0) {
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auto frame_record_or_error = safe_memcpy_frame_record_from_stack(current_frame_pointer);
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if (frame_record_or_error.is_error())
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break;
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auto frame_record = frame_record_or_error.release_value();
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PRINT_LINE("{:p} (next: {:p})", frame_record.return_address, frame_record.previous_frame_pointer);
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current_frame_pointer = frame_record.previous_frame_pointer;
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}
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return;
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}
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VERIFY(recognized_symbol_count <= max_recognized_symbol_count);
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for (size_t i = 0; i < recognized_symbol_count; ++i) {
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auto& symbol = recognized_symbols[i];
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if (!symbol.address)
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break;
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if (!symbol.symbol) {
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PRINT_LINE("Kernel + {:p}", symbol.address - kernel_load_base);
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continue;
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}
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size_t offset = symbol.address - symbol.symbol->address;
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if (symbol.symbol->address == g_highest_kernel_symbol_address && offset > 4096)
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PRINT_LINE("Kernel + {:p}", symbol.address - kernel_load_base);
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else
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PRINT_LINE("Kernel + {:p} {} +{:#x}", symbol.address - kernel_load_base, symbol.symbol->name, offset);
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}
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}
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void dump_backtrace_from_base_pointer(FlatPtr base_pointer)
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{
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// FIXME: Change signature of dump_backtrace_impl to use an enum instead of a bool.
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dump_backtrace_impl(base_pointer, /*use_ksym=*/false, PrintToScreen::No);
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}
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void dump_backtrace(PrintToScreen print_to_screen)
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{
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static bool in_dump_backtrace = false;
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if (in_dump_backtrace)
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return;
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TemporaryChange change(in_dump_backtrace, true);
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TemporaryChange disable_kmalloc_stacks(g_dump_kmalloc_stacks, false);
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FlatPtr base_pointer = (FlatPtr)__builtin_frame_address(0);
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dump_backtrace_impl(base_pointer, g_kernel_symbols_available, print_to_screen);
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}
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UNMAP_AFTER_INIT void load_kernel_symbol_table()
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{
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auto kernel_symbols_size = strnlen(kernel_symbols, sizeof(kernel_symbols));
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// If we're hitting this VERIFY the kernel symbol file has grown beyond
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// the array size of kernel_symbols. Try making the array larger.
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VERIFY(kernel_symbols_size != sizeof(kernel_symbols));
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load_kernel_symbols_from_data({ kernel_symbols, kernel_symbols_size });
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}
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}
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