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|
#include "types.h"
#include "Process.h"
#include "kmalloc.h"
#include "VGA.h"
#include "StdLib.h"
#include "i386.h"
#include "system.h"
#include <VirtualFileSystem/FileHandle.h>
#include <VirtualFileSystem/VirtualFileSystem.h>
#include <ELFLoader/ExecSpace.h>
#include "MemoryManager.h"
#include "errno.h"
#include "i8253.h"
#include "RTC.h"
#include "ProcFileSystem.h"
#include <AK/StdLib.h>
//#define DEBUG_IO
//#define TASK_DEBUG
//#define SCHEDULER_DEBUG
// FIXME: Only do a single validation for accesses that don't span multiple pages.
// FIXME: Some places pass strlen(arg1) as arg2. This doesn't seem entirely perfect..
#define VALIDATE_USER_READ(b, s) \
do { \
LinearAddress laddr((dword)(b)); \
if (!validate_user_read(laddr) || !validate_user_read(laddr.offset((s) - 1))) \
return -EFAULT; \
} while(0)
#define VALIDATE_USER_WRITE(b, s) \
do { \
LinearAddress laddr((dword)(b)); \
if (!validate_user_write(laddr) || !validate_user_write(laddr.offset((s) - 1))) \
return -EFAULT; \
} while(0)
static const DWORD defaultStackSize = 16384;
Process* current;
Process* s_kernelProcess;
static pid_t next_pid;
static InlineLinkedList<Process>* s_processes;
static InlineLinkedList<Process>* s_deadProcesses;
static String* s_hostname;
static String& hostnameStorage(InterruptDisabler&)
{
ASSERT(s_hostname);
return *s_hostname;
}
static String getHostname()
{
InterruptDisabler disabler;
return hostnameStorage(disabler).isolatedCopy();
}
static bool contextSwitch(Process*);
static void redoKernelProcessTSS()
{
if (!s_kernelProcess->selector())
s_kernelProcess->setSelector(gdt_alloc_entry());
auto& tssDescriptor = getGDTEntry(s_kernelProcess->selector());
tssDescriptor.setBase(&s_kernelProcess->tss());
tssDescriptor.setLimit(0xffff);
tssDescriptor.dpl = 0;
tssDescriptor.segment_present = 1;
tssDescriptor.granularity = 1;
tssDescriptor.zero = 0;
tssDescriptor.operation_size = 1;
tssDescriptor.descriptor_type = 0;
tssDescriptor.type = 9;
flushGDT();
}
void Process::prepForIRETToNewProcess()
{
redoKernelProcessTSS();
s_kernelProcess->tss().backlink = current->selector();
loadTaskRegister(s_kernelProcess->selector());
}
static void hlt_loop()
{
for (;;) {
asm volatile("hlt");
}
}
void Process::initialize()
{
current = nullptr;
next_pid = 0;
s_processes = new InlineLinkedList<Process>;
s_deadProcesses = new InlineLinkedList<Process>;
s_kernelProcess = Process::createKernelProcess(hlt_loop, "colonel");
s_hostname = new String("birx");
redoKernelProcessTSS();
loadTaskRegister(s_kernelProcess->selector());
}
template<typename Callback>
static void forEachProcess(Callback callback)
{
ASSERT_INTERRUPTS_DISABLED();
for (auto* process = s_processes->head(); process; process = process->next()) {
if (!callback(*process))
break;
}
}
void Process::for_each_in_pgrp(pid_t pgid, Function<void(Process&)> callback)
{
ASSERT_INTERRUPTS_DISABLED();
for (auto* process = s_processes->head(); process; process = process->next()) {
if (process->pgid() == pgid)
callback(*process);
}
}
Vector<Process*> Process::allProcesses()
{
InterruptDisabler disabler;
Vector<Process*> processes;
processes.ensureCapacity(s_processes->sizeSlow());
for (auto* process = s_processes->head(); process; process = process->next())
processes.append(process);
return processes;
}
Region* Process::allocateRegion(size_t size, String&& name)
{
// FIXME: This needs sanity checks. What if this overlaps existing regions?
auto zone = MM.createZone(size);
ASSERT(zone);
m_regions.append(adopt(*new Region(m_nextRegion, size, move(zone), move(name))));
m_nextRegion = m_nextRegion.offset(size).offset(16384);
MM.mapRegion(*this, *m_regions.last());
return m_regions.last().ptr();
}
bool Process::deallocateRegion(Region& region)
{
InterruptDisabler disabler;
for (size_t i = 0; i < m_regions.size(); ++i) {
if (m_regions[i].ptr() == ®ion) {
MM.unmapRegion(*this, region);
m_regions.remove(i);
return true;
}
}
return false;
}
Region* Process::regionFromRange(LinearAddress laddr, size_t size)
{
for (auto& region : m_regions) {
if (region->linearAddress == laddr && region->size == size)
return region.ptr();
}
return nullptr;
}
int Process::sys$set_mmap_name(void* addr, size_t size, const char* name)
{
VALIDATE_USER_READ(name, strlen(name));
auto* region = regionFromRange(LinearAddress((dword)addr), size);
if (!region)
return -EINVAL;
region->name = name;
return 0;
}
void* Process::sys$mmap(void* addr, size_t size)
{
InterruptDisabler disabler;
// FIXME: Implement mapping at a client-preferred address.
ASSERT(addr == nullptr);
auto* region = allocateRegion(size, "mmap");
if (!region)
return (void*)-1;
MM.mapRegion(*this, *region);
return (void*)region->linearAddress.get();
}
int Process::sys$munmap(void* addr, size_t size)
{
InterruptDisabler disabler;
auto* region = regionFromRange(LinearAddress((dword)addr), size);
if (!region)
return -1;
if (!deallocateRegion(*region))
return -1;
return 0;
}
int Process::sys$gethostname(char* buffer, size_t size)
{
VALIDATE_USER_WRITE(buffer, size);
auto hostname = getHostname();
if (size < (hostname.length() + 1))
return -ENAMETOOLONG;
memcpy(buffer, hostname.characters(), size);
return 0;
}
Process* Process::fork(RegisterDump& regs)
{
auto* child = new Process(String(m_name), m_uid, m_gid, m_pid, m_ring, m_cwd.copyRef(), m_executable.copyRef(), m_tty, this);
#ifdef FORK_DEBUG
dbgprintf("fork: child=%p\n", child);
#endif
#if 0
// FIXME: An honest fork() would copy these. Needs a Vector copy ctor.
child->m_arguments = m_arguments;
child->m_initialEnvironment = m_initialEnvironment;
#endif
for (auto& region : m_regions) {
#ifdef FORK_DEBUG
dbgprintf("fork: cloning Region{%p}\n", region.ptr());
#endif
auto cloned_region = region->clone();
// FIXME: Move subregions into Region?
for (auto& subregion : m_subregions) {
if (subregion->region.ptr() != region.ptr())
continue;
#ifdef FORK_DEBUG
dbgprintf("fork: cloning Subregion{%p}\n", subregion.ptr());
#endif
auto cloned_subregion = make<Subregion>(*cloned_region, subregion->offset, subregion->size, subregion->linearAddress, String(subregion->name));
child->m_subregions.append(move(cloned_subregion));
MM.mapSubregion(*child, *child->m_subregions.last());
}
child->m_regions.append(move(cloned_region));
MM.mapRegion(*child, *child->m_regions.last());
}
child->m_tss.eax = 0; // fork() returns 0 in the child :^)
child->m_tss.ebx = regs.ebx;
child->m_tss.ecx = regs.ecx;
child->m_tss.edx = regs.edx;
child->m_tss.ebp = regs.ebp;
child->m_tss.esp = regs.esp_if_crossRing;
child->m_tss.esi = regs.esi;
child->m_tss.edi = regs.edi;
child->m_tss.eflags = regs.eflags;
child->m_tss.eip = regs.eip;
child->m_tss.cs = regs.cs;
child->m_tss.ds = regs.ds;
child->m_tss.es = regs.es;
child->m_tss.fs = regs.fs;
child->m_tss.gs = regs.gs;
child->m_tss.ss = regs.ss_if_crossRing;
#ifdef FORK_DEBUG
dbgprintf("fork: child will begin executing at %w:%x with stack %w:%x\n", child->m_tss.cs, child->m_tss.eip, child->m_tss.ss, child->m_tss.esp);
#endif
ProcFileSystem::the().addProcess(*child);
s_processes->prepend(child);
system.nprocess++;
#ifdef TASK_DEBUG
kprintf("Process %u (%s) forked from %u @ %p\n", child->pid(), child->name().characters(), m_pid, child->m_tss.eip);
#endif
return child;
}
pid_t Process::sys$fork(RegisterDump& regs)
{
auto* child = fork(regs);
ASSERT(child);
return child->pid();
}
int Process::sys$spawn(const char* path, const char** args)
{
if (args) {
for (size_t i = 0; args[i]; ++i) {
VALIDATE_USER_READ(args[i], strlen(args[i]));
}
}
int error = 0;
auto* child = Process::createUserProcess(path, m_uid, m_gid, m_pid, error, args, m_tty);
if (child)
return child->pid();
return error;
}
Process* Process::createUserProcess(const String& path, uid_t uid, gid_t gid, pid_t parentPID, int& error, const char** args, TTY* tty)
{
auto parts = path.split('/');
if (parts.isEmpty()) {
error = -ENOENT;
return nullptr;
}
RetainPtr<VirtualFileSystem::Node> cwd;
{
InterruptDisabler disabler;
if (auto* parentProcess = Process::fromPID(parentPID))
cwd = parentProcess->m_cwd.copyRef();
if (!cwd)
cwd = VirtualFileSystem::the().root();
}
auto handle = VirtualFileSystem::the().open(path, error, 0, cwd ? cwd->inode : InodeIdentifier());
if (!handle)
return nullptr;
if (!handle->metadata().mayExecute(uid, gid)) {
error = -EACCES;
return nullptr;
}
auto elfData = handle->readEntireFile();
if (!elfData) {
error = -EIO; // FIXME: Get a more detailed error from VFS.
return nullptr;
}
Vector<String> processArguments;
if (args) {
for (size_t i = 0; args[i]; ++i) {
processArguments.append(args[i]);
}
} else {
processArguments.append(parts.last());
}
Vector<String> processEnvironment;
processEnvironment.append("PATH=/bin");
processEnvironment.append("SHELL=/bin/sh");
processEnvironment.append("TERM=console");
processEnvironment.append("HOME=/");
auto* t = new Process(parts.takeLast(), uid, gid, parentPID, Ring3, move(cwd), handle->vnode(), tty);
t->m_arguments = move(processArguments);
t->m_initialEnvironment = move(processEnvironment);
ExecSpace space;
Region* region = nullptr;
ProcessPagingScope pagingScope(*t);
space.hookableAlloc = [&] (const String& name, size_t size) {
if (!size)
return (void*)nullptr;
size = ((size / 4096) + 1) * 4096; // FIXME: Use ceil_div?
region = t->allocateRegion(size, String(name));
return (void*)region->linearAddress.get();
};
bool success = space.loadELF(move(elfData));
if (!success) {
delete t;
kprintf("Failure loading ELF %s\n", path.characters());
error = -ENOEXEC;
return nullptr;
}
space.forEachArea([&] (const String& name, dword offset, size_t size, LinearAddress laddr) {
if (laddr.isNull())
return;
dword roundedOffset = offset & 0xfffff000;
size_t roundedSize = 4096 * ceilDiv((offset - roundedOffset) + size, 4096u);
LinearAddress roundedLaddr = laddr;
roundedLaddr.mask(0xfffff000);
t->m_subregions.append(make<Subregion>(*region, roundedOffset, roundedSize, roundedLaddr, String(name)));
#ifdef SUBREGION_DEBUG
kprintf(" req subregion %s (offset: %u, size: %u) @ %p\n", name.characters(), offset, size, laddr.get());
kprintf("actual subregion %s (offset: %u, size: %u) @ %p\n", name.characters(), roundedOffset, roundedSize, roundedLaddr.get());
#endif
MM.mapSubregion(*t, *t->m_subregions.last());
});
t->m_tss.eip = (dword)space.symbolPtr("_start");
if (!t->m_tss.eip) {
// FIXME: This is ugly. If we need to do this, it should be at a different level.
delete t;
error = -ENOEXEC;
return nullptr;
}
ASSERT(region);
ProcFileSystem::the().addProcess(*t);
s_processes->prepend(t);
system.nprocess++;
#ifdef TASK_DEBUG
kprintf("Process %u (%s) spawned @ %p\n", t->pid(), t->name().characters(), t->m_tss.eip);
#endif
error = 0;
return t;
}
int Process::sys$get_environment(char*** environ)
{
auto* region = allocateRegion(4096, "environ");
if (!region)
return -ENOMEM;
MM.mapRegion(*this, *region);
char* envpage = (char*)region->linearAddress.get();
*environ = (char**)envpage;
char* bufptr = envpage + (sizeof(char*) * (m_initialEnvironment.size() + 1));
for (size_t i = 0; i < m_initialEnvironment.size(); ++i) {
(*environ)[i] = bufptr;
memcpy(bufptr, m_initialEnvironment[i].characters(), m_initialEnvironment[i].length());
bufptr += m_initialEnvironment[i].length();
*(bufptr++) = '\0';
}
(*environ)[m_initialEnvironment.size()] = nullptr;
return 0;
}
int Process::sys$get_arguments(int* argc, char*** argv)
{
auto* region = allocateRegion(4096, "argv");
if (!region)
return -ENOMEM;
MM.mapRegion(*this, *region);
char* argpage = (char*)region->linearAddress.get();
*argc = m_arguments.size();
*argv = (char**)argpage;
char* bufptr = argpage + (sizeof(char*) * m_arguments.size());
for (size_t i = 0; i < m_arguments.size(); ++i) {
(*argv)[i] = bufptr;
memcpy(bufptr, m_arguments[i].characters(), m_arguments[i].length());
bufptr += m_arguments[i].length();
*(bufptr++) = '\0';
}
return 0;
}
Process* Process::createKernelProcess(void (*e)(), String&& name)
{
auto* process = new Process(move(name), (uid_t)0, (gid_t)0, (pid_t)0, Ring0);
process->m_tss.eip = (dword)e;
if (process->pid() != 0) {
InterruptDisabler disabler;
s_processes->prepend(process);
system.nprocess++;
ProcFileSystem::the().addProcess(*process);
#ifdef TASK_DEBUG
kprintf("Kernel process %u (%s) spawned @ %p\n", process->pid(), process->name().characters(), process->m_tss.eip);
#endif
}
return process;
}
Process::Process(String&& name, uid_t uid, gid_t gid, pid_t parentPID, RingLevel ring, RetainPtr<VirtualFileSystem::Node>&& cwd, RetainPtr<VirtualFileSystem::Node>&& executable, TTY* tty, Process* fork_parent)
: m_name(move(name))
, m_pid(next_pid++) // FIXME: RACE: This variable looks racy!
, m_uid(uid)
, m_gid(gid)
, m_state(Runnable)
, m_ring(ring)
, m_cwd(move(cwd))
, m_executable(move(executable))
, m_tty(tty)
, m_parentPID(parentPID)
{
if (fork_parent) {
m_sid = fork_parent->m_sid;
m_pgid = fork_parent->m_pgid;
} else {
// FIXME: Use a ProcessHandle? Presumably we're executing *IN* the parent right now though..
InterruptDisabler disabler;
if (auto* parent = Process::fromPID(m_parentPID)) {
m_sid = parent->m_sid;
m_pgid = parent->m_pgid;
}
}
m_page_directory = (PageDirectory*)kmalloc_page_aligned(sizeof(PageDirectory));
MM.populate_page_directory(*this);
if (fork_parent) {
m_file_descriptors.resize(fork_parent->m_file_descriptors.size());
for (size_t i = 0; i < fork_parent->m_file_descriptors.size(); ++i) {
if (!fork_parent->m_file_descriptors[i])
continue;
#ifdef FORK_DEBUG
dbgprintf("fork: cloning fd %u... (%p) istty? %um\n", i, fork_parent->m_file_descriptors[i].ptr(), fork_parent->m_file_descriptors[i]->isTTY());
#endif
m_file_descriptors[i] = fork_parent->m_file_descriptors[i]->clone();
}
} else {
m_file_descriptors.resize(m_max_open_file_descriptors);
if (tty) {
m_file_descriptors[0] = tty->open(O_RDONLY);
m_file_descriptors[1] = tty->open(O_WRONLY);
m_file_descriptors[2] = tty->open(O_WRONLY);
}
}
if (fork_parent)
m_nextRegion = fork_parent->m_nextRegion;
else
m_nextRegion = LinearAddress(0x10000000);
if (fork_parent) {
memcpy(&m_tss, &fork_parent->m_tss, sizeof(m_tss));
} else {
memset(&m_tss, 0, sizeof(m_tss));
// Only IF is set when a process boots.
m_tss.eflags = 0x0202;
word cs, ds, ss;
if (isRing0()) {
cs = 0x08;
ds = 0x10;
ss = 0x10;
} else {
cs = 0x1b;
ds = 0x23;
ss = 0x23;
}
m_tss.ds = ds;
m_tss.es = ds;
m_tss.fs = ds;
m_tss.gs = ds;
m_tss.ss = ss;
m_tss.cs = cs;
}
m_tss.cr3 = (dword)m_page_directory;
if (isRing0()) {
// FIXME: This memory is leaked.
// But uh, there's also no kernel process termination, so I guess it's not technically leaked...
dword stackBottom = (dword)kmalloc_eternal(defaultStackSize);
m_stackTop0 = (stackBottom + defaultStackSize) & 0xffffff8;
m_tss.esp = m_stackTop0;
} else {
if (fork_parent) {
m_stackTop3 = fork_parent->m_stackTop3;
} else {
auto* region = allocateRegion(defaultStackSize, "stack");
ASSERT(region);
m_stackTop3 = region->linearAddress.offset(defaultStackSize).get() & 0xfffffff8;
m_tss.esp = m_stackTop3;
}
}
if (isRing3()) {
// Ring3 processes need a separate stack for Ring0.
m_kernelStack = kmalloc(defaultStackSize);
m_stackTop0 = ((DWORD)m_kernelStack + defaultStackSize) & 0xffffff8;
m_tss.ss0 = 0x10;
m_tss.esp0 = m_stackTop0;
}
// HACK: Ring2 SS in the TSS is the current PID.
m_tss.ss2 = m_pid;
m_farPtr.offset = 0x98765432;
}
Process::~Process()
{
InterruptDisabler disabler;
ProcFileSystem::the().removeProcess(*this);
system.nprocess--;
gdt_free_entry(selector());
if (m_kernelStack) {
kfree(m_kernelStack);
m_kernelStack = nullptr;
}
MM.release_page_directory(*this);
}
void Process::dumpRegions()
{
kprintf("Process %s(%u) regions:\n", name().characters(), pid());
kprintf("BEGIN END SIZE NAME\n");
for (auto& region : m_regions) {
kprintf("%x -- %x %x %s\n",
region->linearAddress.get(),
region->linearAddress.offset(region->size - 1).get(),
region->size,
region->name.characters());
}
kprintf("Process %s(%u) subregions:\n", name().characters(), pid());
kprintf("REGION OFFSET BEGIN END SIZE NAME\n");
for (auto& subregion : m_subregions) {
kprintf("%x %x %x -- %x %x %s\n",
subregion->region->linearAddress.get(),
subregion->offset,
subregion->linearAddress.get(),
subregion->linearAddress.offset(subregion->size - 1).get(),
subregion->size,
subregion->name.characters());
}
}
void Process::notify_waiters(pid_t waitee, int exit_status, int signal)
{
ASSERT_INTERRUPTS_DISABLED();
for (auto* process = s_processes->head(); process; process = process->next()) {
if (process->waitee() == waitee)
process->m_waiteeStatus = (exit_status << 8) | (signal);
}
}
void Process::sys$exit(int status)
{
cli();
#ifdef TASK_DEBUG
kprintf("sys$exit: %s(%u) exit with status %d\n", name().characters(), pid(), status);
#endif
set_state(Exiting);
s_processes->remove(this);
notify_waiters(m_pid, status, 0);
if (!scheduleNewProcess()) {
kprintf("Process::sys$exit: Failed to schedule a new process :(\n");
HANG;
}
s_deadProcesses->append(this);
switchNow();
}
void Process::send_signal(int signal, Process* sender)
{
ASSERT_INTERRUPTS_DISABLED();
bool wasCurrent = current == sender;
set_state(Exiting);
s_processes->remove(this);
notify_waiters(m_pid, 0, signal);
if (wasCurrent) {
kprintf("Current process committing suicide!\n");
if (!scheduleNewProcess()) {
kprintf("Process::send_signal: Failed to schedule a new process :(\n");
HANG;
}
}
s_deadProcesses->append(this);
if (wasCurrent)
switchNow();
}
void Process::processDidCrash(Process* crashedProcess)
{
ASSERT_INTERRUPTS_DISABLED();
if (crashedProcess->state() == Crashing) {
kprintf("Double crash :(\n");
HANG;
}
crashedProcess->set_state(Crashing);
crashedProcess->dumpRegions();
s_processes->remove(crashedProcess);
notify_waiters(crashedProcess->m_pid, 0, SIGSEGV);
if (!scheduleNewProcess()) {
kprintf("Process::processDidCrash: Failed to schedule a new process :(\n");
HANG;
}
s_deadProcesses->append(crashedProcess);
switchNow();
}
void Process::doHouseKeeping()
{
if (s_deadProcesses->isEmpty())
return;
InterruptDisabler disabler;
Process* next = nullptr;
for (auto* deadProcess = s_deadProcesses->head(); deadProcess; deadProcess = next) {
next = deadProcess->next();
delete deadProcess;
}
s_deadProcesses->clear();
}
void yield()
{
if (!current) {
kprintf( "PANIC: yield() with !current" );
HANG;
}
//kprintf("%s<%u> yield()\n", current->name().characters(), current->pid());
InterruptDisabler disabler;
if (!scheduleNewProcess())
return;
//kprintf("yield() jumping to new process: %x (%s)\n", current->farPtr().selector, current->name().characters());
switchNow();
}
void switchNow()
{
Descriptor& descriptor = getGDTEntry(current->selector());
descriptor.type = 9;
flushGDT();
asm("sti\n"
"ljmp *(%%eax)\n"
::"a"(¤t->farPtr())
);
}
bool scheduleNewProcess()
{
ASSERT_INTERRUPTS_DISABLED();
if (!current) {
// XXX: The first ever context_switch() goes to the idle process.
// This to setup a reliable place we can return to.
return contextSwitch(Process::kernelProcess());
}
// Check and unblock processes whose wait conditions have been met.
for (auto* process = s_processes->head(); process; process = process->next()) {
if (process->state() == Process::BlockedSleep) {
if (process->wakeupTime() <= system.uptime) {
process->unblock();
continue;
}
}
if (process->state() == Process::BlockedWait) {
if (!Process::fromPID(process->waitee())) {
process->unblock();
continue;
}
}
if (process->state() == Process::BlockedRead) {
ASSERT(process->m_fdBlockedOnRead != -1);
if (process->m_file_descriptors[process->m_fdBlockedOnRead]->hasDataAvailableForRead()) {
process->unblock();
continue;
}
}
}
#ifdef SCHEDULER_DEBUG
dbgprintf("Scheduler choices:\n");
for (auto* process = s_processes->head(); process; process = process->next()) {
//if (process->state() == Process::BlockedWait || process->state() == Process::BlockedSleep)
// continue;
dbgprintf("%w %s(%u)\n", process->state(), process->name().characters(), process->pid());
}
#endif
auto* prevHead = s_processes->head();
for (;;) {
// Move head to tail.
s_processes->append(s_processes->removeHead());
auto* process = s_processes->head();
if (process->state() == Process::Runnable || process->state() == Process::Running) {
#ifdef SCHEDULER_DEBUG
dbgprintf("switch to %s(%u) (%p vs %p)\n", process->name().characters(), process->pid(), process, current);
#endif
return contextSwitch(process);
}
if (process == prevHead) {
// Back at process_head, nothing wants to run.
kprintf("Nothing wants to run!\n");
kprintf("PID OWNER STATE NSCHED NAME\n");
for (auto* process = s_processes->head(); process; process = process->next()) {
kprintf("%w %w:%w %b %w %s\n",
process->pid(),
process->uid(),
process->gid(),
process->state(),
process->timesScheduled(),
process->name().characters());
}
kprintf("Switch to kernel process @ %w:%x\n", s_kernelProcess->tss().cs, s_kernelProcess->tss().eip);
return contextSwitch(Process::kernelProcess());
}
}
}
static bool contextSwitch(Process* t)
{
t->setTicksLeft(5);
t->didSchedule();
if (current == t)
return false;
#ifdef SCHEDULER_DEBUG
// Some sanity checking to force a crash earlier.
auto csRPL = t->tss().cs & 3;
auto ssRPL = t->tss().ss & 3;
if (csRPL != ssRPL) {
kprintf("Fuckup! Switching from %s(%u) to %s(%u) has RPL mismatch\n",
current->name().characters(), current->pid(),
t->name().characters(), t->pid()
);
kprintf("code: %w:%x\n", t->tss().cs, t->tss().eip);
kprintf(" stk: %w:%x\n", t->tss().ss, t->tss().esp);
ASSERT(csRPL == ssRPL);
}
#endif
if (current) {
// If the last process hasn't blocked (still marked as running),
// mark it as runnable for the next round.
if (current->state() == Process::Running)
current->set_state(Process::Runnable);
}
current = t;
t->set_state(Process::Running);
if (!t->selector()) {
t->setSelector(gdt_alloc_entry());
auto& descriptor = getGDTEntry(t->selector());
descriptor.setBase(&t->tss());
descriptor.setLimit(0xffff);
descriptor.dpl = 0;
descriptor.segment_present = 1;
descriptor.granularity = 1;
descriptor.zero = 0;
descriptor.operation_size = 1;
descriptor.descriptor_type = 0;
}
auto& descriptor = getGDTEntry(t->selector());
descriptor.type = 11; // Busy TSS
flushGDT();
return true;
}
Process* Process::fromPID(pid_t pid)
{
ASSERT_INTERRUPTS_DISABLED();
for (auto* process = s_processes->head(); process; process = process->next()) {
if (process->pid() == pid)
return process;
}
return nullptr;
}
FileHandle* Process::fileHandleIfExists(int fd)
{
if (fd < 0)
return nullptr;
if ((unsigned)fd < m_file_descriptors.size())
return m_file_descriptors[fd].ptr();
return nullptr;
}
ssize_t Process::sys$get_dir_entries(int fd, void* buffer, size_t size)
{
VALIDATE_USER_WRITE(buffer, size);
auto* handle = fileHandleIfExists(fd);
if (!handle)
return -EBADF;
return handle->get_dir_entries((byte*)buffer, size);
}
int Process::sys$lseek(int fd, off_t offset, int whence)
{
auto* handle = fileHandleIfExists(fd);
if (!handle)
return -EBADF;
return handle->seek(offset, whence);
}
int Process::sys$ttyname_r(int fd, char* buffer, size_t size)
{
VALIDATE_USER_WRITE(buffer, size);
auto* handle = fileHandleIfExists(fd);
if (!handle)
return -EBADF;
if (!handle->isTTY())
return -ENOTTY;
auto ttyName = handle->tty()->ttyName();
if (size < ttyName.length() + 1)
return -ERANGE;
strcpy(buffer, ttyName.characters());
return 0;
}
ssize_t Process::sys$write(int fd, const void* data, size_t size)
{
VALIDATE_USER_READ(data, size);
#ifdef DEBUG_IO
kprintf("Process::sys$write: called(%d, %p, %u)\n", fd, data, size);
#endif
auto* handle = fileHandleIfExists(fd);
#ifdef DEBUG_IO
kprintf("Process::sys$write: handle=%p\n", handle);
#endif
if (!handle)
return -EBADF;
auto nwritten = handle->write((const byte*)data, size);
#ifdef DEBUG_IO
kprintf("Process::sys$write: nwritten=%u\n", nwritten);
#endif
return nwritten;
}
ssize_t Process::sys$read(int fd, void* outbuf, size_t nread)
{
VALIDATE_USER_WRITE(outbuf, nread);
#ifdef DEBUG_IO
kprintf("Process::sys$read: called(%d, %p, %u)\n", fd, outbuf, nread);
#endif
auto* handle = fileHandleIfExists(fd);
#ifdef DEBUG_IO
kprintf("Process::sys$read: handle=%p\n", handle);
#endif
if (!handle)
return -EBADF;
if (handle->isBlocking()) {
if (!handle->hasDataAvailableForRead()) {
m_fdBlockedOnRead = fd;
block(BlockedRead);
yield();
}
}
nread = handle->read((byte*)outbuf, nread);
#ifdef DEBUG_IO
kprintf("Process::sys$read: nread=%u\n", nread);
#endif
return nread;
}
int Process::sys$close(int fd)
{
auto* handle = fileHandleIfExists(fd);
if (!handle)
return -EBADF;
int rc = handle->close();
m_file_descriptors[fd] = nullptr;
return rc;
}
int Process::sys$lstat(const char* path, Unix::stat* statbuf)
{
VALIDATE_USER_WRITE(statbuf, sizeof(Unix::stat));
int error;
auto handle = VirtualFileSystem::the().open(move(path), error, O_NOFOLLOW_NOERROR, cwdInode());
if (!handle)
return error;
handle->stat(statbuf);
return 0;
}
int Process::sys$stat(const char* path, Unix::stat* statbuf)
{
VALIDATE_USER_WRITE(statbuf, sizeof(Unix::stat));
int error;
auto handle = VirtualFileSystem::the().open(move(path), error, 0, cwdInode());
if (!handle)
return error;
handle->stat(statbuf);
return 0;
}
int Process::sys$readlink(const char* path, char* buffer, size_t size)
{
VALIDATE_USER_READ(path, strlen(path));
VALIDATE_USER_WRITE(buffer, size);
int error;
auto handle = VirtualFileSystem::the().open(path, error, O_RDONLY | O_NOFOLLOW_NOERROR, cwdInode());
if (!handle)
return error;
if (!handle->metadata().isSymbolicLink())
return -EINVAL;
auto contents = handle->readEntireFile();
if (!contents)
return -EIO; // FIXME: Get a more detailed error from VFS.
memcpy(buffer, contents.pointer(), min(size, contents.size()));
if (contents.size() + 1 < size)
buffer[contents.size()] = '\0';
return 0;
}
int Process::sys$chdir(const char* path)
{
VALIDATE_USER_READ(path, strlen(path));
int error;
auto handle = VirtualFileSystem::the().open(path, error, 0, cwdInode());
if (!handle)
return error;
if (!handle->isDirectory())
return -ENOTDIR;
m_cwd = handle->vnode();
return 0;
}
int Process::sys$getcwd(char* buffer, size_t size)
{
VALIDATE_USER_WRITE(buffer, size);
auto path = VirtualFileSystem::the().absolutePath(cwdInode());
if (path.isNull())
return -EINVAL;
if (size < path.length() + 1)
return -ERANGE;
strcpy(buffer, path.characters());
return -ENOTIMPL;
}
size_t Process::number_of_open_file_descriptors() const
{
size_t count = 0;
for (auto& handle : m_file_descriptors) {
if (handle)
++count;
}
return count;
}
int Process::sys$open(const char* path, int options)
{
#ifdef DEBUG_IO
kprintf("Process::sys$open(): PID=%u, path=%s {%u}\n", m_pid, path, pathLength);
#endif
VALIDATE_USER_READ(path, strlen(path));
if (number_of_open_file_descriptors() >= m_max_open_file_descriptors)
return -EMFILE;
int error;
auto handle = VirtualFileSystem::the().open(path, error, options, cwdInode());
if (!handle)
return error;
if (options & O_DIRECTORY && !handle->isDirectory())
return -ENOTDIR; // FIXME: This should be handled by VFS::open.
int fd = 0;
for (; fd < m_max_open_file_descriptors; ++fd) {
if (!m_file_descriptors[fd])
break;
}
handle->setFD(fd);
m_file_descriptors[fd] = move(handle);
return fd;
}
int Process::sys$uname(utsname* buf)
{
VALIDATE_USER_WRITE(buf, sizeof(utsname));
strcpy(buf->sysname, "Serenity");
strcpy(buf->release, "1.0-dev");
strcpy(buf->version, "FIXME");
strcpy(buf->machine, "i386");
strcpy(buf->nodename, getHostname().characters());
return 0;
}
int Process::sys$kill(pid_t pid, int signal)
{
if (pid == 0) {
// FIXME: Send to same-group processes.
ASSERT(pid != 0);
}
if (pid == -1) {
// FIXME: Send to all processes.
ASSERT(pid != -1);
}
ASSERT(pid != current->pid()); // FIXME: Support this scenario.
InterruptDisabler disabler;
auto* peer = Process::fromPID(pid);
if (!peer)
return -ESRCH;
peer->send_signal(signal, this);
return 0;
}
int Process::sys$sleep(unsigned seconds)
{
if (!seconds)
return 0;
sleep(seconds * TICKS_PER_SECOND);
return 0;
}
int Process::sys$gettimeofday(timeval* tv)
{
VALIDATE_USER_WRITE(tv, sizeof(tv));
InterruptDisabler disabler;
auto now = RTC::now();
tv->tv_sec = now;
tv->tv_usec = 0;
return 0;
}
uid_t Process::sys$getuid()
{
return m_uid;
}
gid_t Process::sys$getgid()
{
return m_gid;
}
pid_t Process::sys$getpid()
{
return m_pid;
}
pid_t Process::sys$waitpid(pid_t waitee, int* wstatus, int options)
{
if (wstatus)
VALIDATE_USER_WRITE(wstatus, sizeof(int));
InterruptDisabler disabler;
if (!Process::fromPID(waitee))
return -1;
m_waitee = waitee;
m_waiteeStatus = 0;
block(BlockedWait);
yield();
if (wstatus)
*wstatus = m_waiteeStatus;
return m_waitee;
}
void Process::unblock()
{
ASSERT(m_state != Process::Runnable && m_state != Process::Running);
system.nblocked--;
m_state = Process::Runnable;
}
void Process::block(Process::State state)
{
ASSERT(current->state() == Process::Running);
system.nblocked++;
current->set_state(state);
}
void block(Process::State state)
{
current->block(state);
yield();
}
void sleep(DWORD ticks)
{
ASSERT(current->state() == Process::Running);
current->setWakeupTime(system.uptime + ticks);
current->block(Process::BlockedSleep);
yield();
}
Process* Process::kernelProcess()
{
ASSERT(s_kernelProcess);
return s_kernelProcess;
}
Region::Region(LinearAddress a, size_t s, RetainPtr<Zone>&& z, String&& n)
: linearAddress(a)
, size(s)
, zone(move(z))
, name(move(n))
{
}
Region::~Region()
{
}
Subregion::Subregion(Region& r, dword o, size_t s, LinearAddress l, String&& n)\
: region(r)
, offset(o)
, size(s)
, linearAddress(l)
, name(move(n))
{
}
Subregion::~Subregion()
{
}
bool Process::isValidAddressForKernel(LinearAddress laddr) const
{
// We check extra carefully here since the first 4MB of the address space is identity-mapped.
// 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)
return true;
if (is_kmalloc_address((void*)laddr.get()))
return true;
return validate_user_read(laddr);
}
bool Process::validate_user_read(LinearAddress laddr) const
{
InterruptDisabler disabler;
return MM.validate_user_read(*this, laddr);
}
bool Process::validate_user_write(LinearAddress laddr) const
{
InterruptDisabler disabler;
return MM.validate_user_write(*this, laddr);
}
pid_t Process::sys$getsid(pid_t pid)
{
if (pid == 0)
return m_sid;
InterruptDisabler disabler;
auto* process = Process::fromPID(pid);
if (!process)
return -ESRCH;
if (m_sid != process->m_sid)
return -EPERM;
return process->m_sid;
}
pid_t Process::sys$setsid()
{
InterruptDisabler disabler;
bool found_process_with_same_pgid_as_my_pid = false;
forEachProcess([&] (auto& process) {
if (process.pgid() == pid()) {
found_process_with_same_pgid_as_my_pid = true;
return false;
}
return true;
});
if (found_process_with_same_pgid_as_my_pid)
return -EPERM;
m_sid = m_pid;
m_pgid = m_pid;
return m_sid;
}
pid_t Process::sys$getpgid(pid_t pid)
{
if (pid == 0)
return m_pgid;
InterruptDisabler disabler; // FIXME: Use a ProcessHandle
auto* process = Process::fromPID(pid);
if (!process)
return -ESRCH;
return process->m_pgid;
}
pid_t Process::sys$getpgrp()
{
return m_pgid;
}
static pid_t get_sid_from_pgid(pid_t pgid)
{
InterruptDisabler disabler;
auto* group_leader = Process::fromPID(pgid);
if (!group_leader)
return -1;
return group_leader->sid();
}
int Process::sys$setpgid(pid_t specified_pid, pid_t specified_pgid)
{
InterruptDisabler disabler; // FIXME: Use a ProcessHandle
pid_t pid = specified_pid ? specified_pid : m_pid;
if (specified_pgid < 0)
return -EINVAL;
auto* process = Process::fromPID(pid);
if (!process)
return -ESRCH;
pid_t new_pgid = specified_pgid ? specified_pgid : process->m_pid;
pid_t current_sid = get_sid_from_pgid(process->m_pgid);
pid_t new_sid = get_sid_from_pgid(new_pgid);
if (current_sid != new_sid) {
// Can't move a process between sessions.
return -EPERM;
}
// FIXME: There are more EPERM conditions to check for here..
process->m_pgid = new_pgid;
return 0;
}
pid_t Process::sys$tcgetpgrp(int fd)
{
auto* handle = fileHandleIfExists(fd);
if (!handle)
return -EBADF;
if (!handle->isTTY())
return -ENOTTY;
auto& tty = *handle->tty();
if (&tty != m_tty)
return -ENOTTY;
return tty.pgid();
}
int Process::sys$tcsetpgrp(int fd, pid_t pgid)
{
if (pgid < 0)
return -EINVAL;
if (get_sid_from_pgid(pgid) != m_sid)
return -EINVAL;
auto* handle = fileHandleIfExists(fd);
if (!handle)
return -EBADF;
if (!handle->isTTY())
return -ENOTTY;
auto& tty = *handle->tty();
if (&tty != m_tty)
return -ENOTTY;
tty.set_pgid(pgid);
return 0;
}
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