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Move kernel symbolication code out of init.cpp and into its own KSym files.

Browse source 
Also use a simple array of { dword, const char* } for the KSyms and put the
whole shebang in kmalloc_eternal() memory. This was a fugly source of
kmalloc perma-frag.
This commit is contained in:
Andreas Kling 2018-12-24 22:59:10 +01:00
parent 6a9fa3e41a
commit 503e32552c
Notes: sideshowbarker 2024-07-19 16:07:27 +09:00
7 changed files with 163 additions and 157 deletions
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136
Kernel/KSyms.cpp Normal file
View file

@ -0,0 +1,136 @@
#include "KSyms.h"
#include "Process.h"
#include "Scheduler.h"
static KSym* s_ksyms;
dword ksym_lowest_address;
dword ksym_highest_address;
dword ksym_count;
bool ksyms_ready;
static byte parse_hex_digit(char nibble)
{
if (nibble >= '0' && nibble <= '9')
return nibble - '0';
ASSERT(nibble >= 'a' && nibble <= 'f');
return 10 + (nibble - 'a');
}
const KSym* ksymbolicate(dword address)
{
if (address < ksym_lowest_address || address > ksym_highest_address)
return nullptr;
for (unsigned i = 0; i < ksym_count; ++i) {
if (address < s_ksyms[i + 1].address)
return &s_ksyms[i];
}
return nullptr;
}
static void load_ksyms_from_data(const ByteBuffer& buffer)
{
// FIXME: It's gross that this vector grows dynamically rather than being sized-to-fit.
// We're wasting that eternal kmalloc memory.
auto* bufptr = (const char*)buffer.pointer();
auto* start_of_name = bufptr;
dword address = 0;
for (unsigned i = 0; i < 8; ++i)
ksym_count = (ksym_count << 4) | parse_hex_digit(*(bufptr++));
s_ksyms = static_cast<KSym*>(kmalloc_eternal(sizeof(KSym) * ksym_count));
++bufptr; // skip newline
kprintf("Loading ksyms: \033[s");
unsigned current_ksym_index = 0;
while (bufptr < buffer.end_pointer()) {
for (unsigned i = 0; i < 8; ++i)
address = (address << 4) | parse_hex_digit(*(bufptr++));
bufptr += 3;
start_of_name = bufptr;
while (*(++bufptr)) {
if (*bufptr == '\n') {
break;
}
}
auto& ksym = s_ksyms[current_ksym_index];
ksym.address = address;
char* name = static_cast<char*>(kmalloc_eternal((bufptr - start_of_name) + 1));
memcpy(name, start_of_name, bufptr - start_of_name);
name[bufptr - start_of_name] = '\0';
ksym.name = name;
if (ksym.address < ksym_lowest_address)
ksym_lowest_address = ksym.address;
if (ksym.address > ksym_highest_address)
ksym_highest_address = ksym.address;
if ((current_ksym_index % 10) == 0 || ksym_count == current_ksym_index)
kprintf("\033[u\033[s%u/%u", current_ksym_index, ksym_count);
++bufptr;
++current_ksym_index;
}
kprintf("\n");
ksyms_ready = true;
}
void dump_backtrace(bool use_ksyms)
{
if (!current) {
HANG;
return;
}
if (use_ksyms && !ksyms_ready) {
HANG;
return;
}
struct RecognizedSymbol {
dword address;
const KSym* ksym;
};
Vector<RecognizedSymbol> recognized_symbols;
if (use_ksyms) {
for (dword* stackPtr = (dword*)&use_ksyms; current->isValidAddressForKernel(LinearAddress((dword)stackPtr)); stackPtr = (dword*)*stackPtr) {
dword retaddr = stackPtr[1];
if (auto* ksym = ksymbolicate(retaddr))
recognized_symbols.append({ retaddr, ksym });
}
} else{
for (dword* stackPtr = (dword*)&use_ksyms; current->isValidAddressForKernel(LinearAddress((dword)stackPtr)); stackPtr = (dword*)*stackPtr) {
dword retaddr = stackPtr[1];
kprintf("%x (next: %x)\n", retaddr, stackPtr ? (dword*)*stackPtr : 0);
}
return;
}
size_t bytesNeeded = 0;
for (auto& symbol : recognized_symbols) {
bytesNeeded += strlen(symbol.ksym->name) + 8 + 16;
}
for (auto& symbol : recognized_symbols) {
unsigned offset = symbol.address - symbol.ksym->address;
dbgprintf("%p %s +%u\n", symbol.address, symbol.ksym->name, offset);
}
}
void init_ksyms()
{
ksyms_ready = false;
ksym_lowest_address = 0xffffffff;
ksym_highest_address = 0;
ksym_count = 0;
}
void load_ksyms()
{
int error;
auto descriptor = VFS::the().open("/kernel.map", error);
if (!descriptor) {
kprintf("Failed to open /kernel.map\n");
} else {
auto buffer = descriptor->read_entire_file();
ASSERT(buffer);
load_ksyms_from_data(buffer);
}
}

16
Kernel/KSyms.h Normal file
View file

@ -0,0 +1,16 @@
#pragma once
#include <AK/AKString.h>
#include <AK/Vector.h>
struct KSym {
dword address;
const char* name;
};
const KSym* ksymbolicate(dword address) PURE;
void load_ksyms();
extern bool ksyms_ready;
extern dword ksym_lowest_address;
extern dword ksym_highest_address;

3
Kernel/Makefile
View file

@ -23,7 +23,8 @@ KERNEL_OBJS = \
Scheduler.o \
DoubleBuffer.o \
ELFImage.o \
ELFLoader.o
ELFLoader.o \
KSyms.o
VFS_OBJS = \
../VirtualFileSystem/DiskDevice.o \

6
Kernel/ProcFileSystem.cpp
View file

@ -5,6 +5,7 @@
#include "MemoryManager.h"
#include "StdLib.h"
#include "i386.h"
#include "KSyms.h"
static ProcFS* s_the;
@ -116,15 +117,14 @@ ByteBuffer procfs$pid_stack(Process& process)
}
size_t bytesNeeded = 0;
for (auto& symbol : recognizedSymbols) {
bytesNeeded += symbol.ksym->name.length() + 8 + 16;
bytesNeeded += strlen(symbol.ksym->name) + 8 + 16;
}
auto buffer = ByteBuffer::create_uninitialized(bytesNeeded);
char* bufptr = (char*)buffer.pointer();
for (auto& symbol : recognizedSymbols) {
// FIXME: This doesn't actually create a file!
unsigned offset = symbol.address - symbol.ksym->address;
bufptr += ksprintf(bufptr, "%p %s +%u\n", symbol.address, symbol.ksym->name.characters(), offset);
bufptr += ksprintf(bufptr, "%p %s +%u\n", symbol.address, symbol.ksym->name, offset);
}
buffer.trim(bufptr - (char*)buffer.pointer());
return buffer;

4
Kernel/Process.cpp
View file

@ -17,6 +17,7 @@
#include "Syscall.h"
#include "Scheduler.h"
#include "FIFO.h"
#include "KSyms.h"
//#define DEBUG_IO
//#define TASK_DEBUG
@ -1559,7 +1560,8 @@ bool Process::isValidAddressForKernel(LinearAddress laddr) const
// This code allows access outside of the known used address ranges to get caught.
InterruptDisabler disabler;
if (laddr.get() >= ksyms().first().address && laddr.get() <= ksyms().last().address)
// FIXME: What if we're indexing into the ksym with the highest address though?
if (laddr.get() >= ksym_lowest_address && laddr.get() <= ksym_highest_address)
return true;
if (is_kmalloc_address(laddr.asPtr()))
return true;

147
Kernel/init.cpp
View file

@ -6,26 +6,22 @@
#include "Process.h"
#include "system.h"
#include "PIC.h"
#include "StdLib.h"
#include "Syscall.h"
#include "CMOS.h"
#include "IDEDiskDevice.h"
#include "KSyms.h"
#include <VirtualFileSystem/NullDevice.h>
#include <VirtualFileSystem/ZeroDevice.h>
#include <VirtualFileSystem/FullDevice.h>
#include <VirtualFileSystem/RandomDevice.h>
#include <VirtualFileSystem/Ext2FileSystem.h>
#include <VirtualFileSystem/VirtualFileSystem.h>
#include <VirtualFileSystem/FileDescriptor.h>
#include <AK/OwnPtr.h>
#include "MemoryManager.h"
#include "Console.h"
#include "ProcFileSystem.h"
#include "RTC.h"
#include "VirtualConsole.h"
#include "Scheduler.h"
#define KSYMS
#define SPAWN_MULTIPLE_SHELLS
//#define STRESS_TEST_SPAWNING
@ -37,116 +33,6 @@ VirtualConsole* tty2;
VirtualConsole* tty3;
Keyboard* keyboard;
static byte parseHexDigit(char nibble)
{
if (nibble >= '0' && nibble <= '9')
return nibble - '0';
ASSERT(nibble >= 'a' && nibble <= 'f');
return 10 + (nibble - 'a');
}
#ifdef KSYMS
static Vector<KSym, KmallocEternalAllocator>* s_ksyms;
static bool s_ksyms_ready;
Vector<KSym, KmallocEternalAllocator>& ksyms()
{
return *s_ksyms;
}
bool ksyms_ready()
{
return s_ksyms_ready;
}
const KSym* ksymbolicate(dword address)
{
if (address < ksyms().first().address || address > ksyms().last().address)
return nullptr;
for (unsigned i = 0; i < ksyms().size(); ++i) {
if (address < ksyms()[i + 1].address)
return &ksyms()[i];
}
return nullptr;
}
static void loadKsyms(const ByteBuffer& buffer)
{
// FIXME: It's gross that this vector grows dynamically rather than being sized-to-fit.
// We're wasting that eternal kmalloc memory.
s_ksyms = new Vector<KSym, KmallocEternalAllocator>;
auto* bufptr = (const char*)buffer.pointer();
auto* startOfName = bufptr;
dword address = 0;
dword ksym_count = 0;
for (unsigned i = 0; i < 8; ++i)
ksym_count = (ksym_count << 4) | parseHexDigit(*(bufptr++));
s_ksyms->ensureCapacity(ksym_count);
++bufptr; // skip newline
kprintf("Loading ksyms: \033[s");
while (bufptr < buffer.end_pointer()) {
for (unsigned i = 0; i < 8; ++i)
address = (address << 4) | parseHexDigit(*(bufptr++));
bufptr += 3;
startOfName = bufptr;
while (*(++bufptr)) {
if (*bufptr == '\n') {
break;
}
}
// FIXME: The Strings here should be eternally allocated too.
ksyms().append({ address, String(startOfName, bufptr - startOfName) });
if ((ksyms().size() % 10) == 0 || ksym_count == ksyms().size())
kprintf("\033[u\033[s%u/%u", ksyms().size(), ksym_count);
++bufptr;
}
kprintf("\n");
s_ksyms_ready = true;
}
void dump_backtrace(bool use_ksyms)
{
if (!current) {
HANG;
return;
}
if (use_ksyms && !ksyms_ready()) {
HANG;
return;
}
struct RecognizedSymbol {
dword address;
const KSym* ksym;
};
Vector<RecognizedSymbol> recognizedSymbols;
if (use_ksyms) {
for (dword* stackPtr = (dword*)&use_ksyms; current->isValidAddressForKernel(LinearAddress((dword)stackPtr)); stackPtr = (dword*)*stackPtr) {
dword retaddr = stackPtr[1];
if (auto* ksym = ksymbolicate(retaddr))
recognizedSymbols.append({ retaddr, ksym });
}
} else{
for (dword* stackPtr = (dword*)&use_ksyms; current->isValidAddressForKernel(LinearAddress((dword)stackPtr)); stackPtr = (dword*)*stackPtr) {
dword retaddr = stackPtr[1];
kprintf("%x (next: %x)\n", retaddr, stackPtr ? (dword*)*stackPtr : 0);
}
return;
}
size_t bytesNeeded = 0;
for (auto& symbol : recognizedSymbols) {
bytesNeeded += symbol.ksym->name.length() + 8 + 16;
}
for (auto& symbol : recognizedSymbols) {
unsigned offset = symbol.address - symbol.ksym->address;
dbgprintf("%p %s +%u\n", symbol.address, symbol.ksym->name.characters(), offset);
}
}
#endif
#ifdef STRESS_TEST_SPAWNING
static void spawn_stress() NORETURN;
static void spawn_stress()
@ -208,19 +94,7 @@ static void init_stage2()
vfs->mount_root(e2fs.copyRef());
#ifdef KSYMS
{
int error;
auto descriptor = vfs->open("/kernel.map", error);
if (!descriptor) {
kprintf("Failed to open /kernel.map\n");
} else {
auto buffer = descriptor->read_entire_file();
ASSERT(buffer);
loadKsyms(buffer);
}
}
#endif
load_ksyms();
vfs->mount(ProcFS::the(), "/proc");
@ -305,18 +179,3 @@ void init()
asm("hlt");
}
}
void log_try_lock(const char* where)
{
kprintf("[%u] >>> locking... (%s)\n", current->pid(), where);
}
void log_locked(const char* where)
{
kprintf("[%u] >>> locked() in %s\n", current->pid(), where);
}
void log_unlocked(const char* where)
{
kprintf("[%u] <<< unlocked()\n", current->pid(), where);
}

8
Kernel/system.h
View file

@ -4,14 +4,6 @@
#include <AK/Vector.h>
#include <AK/AKString.h>
struct KSym {
dword address;
String name;
};
Vector<KSym, KmallocEternalAllocator>& ksyms() PURE;
const KSym* ksymbolicate(dword address) PURE;
struct system_t
{
time_t uptime;