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serenity/Kernel/Syscalls/mmap.cpp
Andreas Kling 5e7abea31e Kernel+Profiler: Capture metadata about all profiled processes 
The perfcore file format was previously limited to a single process
since the pid/executable/regions data was top-level in the JSON.

This patch moves the process-specific data into a top-level array
named "processes" and we now add entries for each process that has
been sampled during the profile run.

This makes it possible to see samples from multiple threads when
viewing a perfcore file with Profiler. This is extremely cool! :^)
2021-03-02 22:38:06 +01:00

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/*
* Copyright (c) 2018-2021, Andreas Kling <kling@serenityos.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <AK/WeakPtr.h>
#include <Kernel/FileSystem/FileDescription.h>
#include <Kernel/PerformanceEventBuffer.h>
#include <Kernel/Process.h>
#include <Kernel/VM/MemoryManager.h>
#include <Kernel/VM/PageDirectory.h>
#include <Kernel/VM/PrivateInodeVMObject.h>
#include <Kernel/VM/Region.h>
#include <Kernel/VM/SharedInodeVMObject.h>
#include <LibC/limits.h>
#include <LibELF/Validation.h>
namespace Kernel {
static bool should_make_executable_exception_for_dynamic_loader(bool make_readable, bool make_writable, bool make_executable, const Region& region)
{
// Normally we don't allow W -> X transitions, but we have to make an exception
// for the dynamic loader, which needs to do this after performing text relocations.
// FIXME: Investigate whether we could get rid of all text relocations entirely.
// The exception is only made if all the following criteria is fulfilled:
// The region must be RW
if (!(region.is_readable() && region.is_writable() && !region.is_executable()))
return false;
// The region wants to become RX
if (!(make_readable && !make_writable && make_executable))
return false;
// The region is backed by a file
if (!region.vmobject().is_inode())
return false;
// The file mapping is private, not shared (no relocations in a shared mapping!)
if (!region.vmobject().is_private_inode())
return false;
Elf32_Ehdr header;
if (!copy_from_user(&header, region.vaddr().as_ptr(), sizeof(header)))
return false;
auto& inode = static_cast<const InodeVMObject&>(region.vmobject());
// The file is a valid ELF binary
if (!ELF::validate_elf_header(header, inode.size()))
return false;
// The file is an ELF shared object
if (header.e_type != ET_DYN)
return false;
// FIXME: Are there any additional checks/validations we could do here?
return true;
}
static bool validate_mmap_prot(int prot, bool map_stack, bool map_anonymous, const Region* region = nullptr)
{
bool make_readable = prot & PROT_READ;
bool make_writable = prot & PROT_WRITE;
bool make_executable = prot & PROT_EXEC;
if (map_anonymous && make_executable)
return false;
if (make_writable && make_executable)
return false;
if (map_stack) {
if (make_executable)
return false;
if (!make_readable || !make_writable)
return false;
}
if (region) {
if (make_writable && region->has_been_executable())
return false;
if (make_executable && region->has_been_writable()) {
if (should_make_executable_exception_for_dynamic_loader(make_readable, make_writable, make_executable, *region))
return true;
return false;
}
}
return true;
}
static bool validate_inode_mmap_prot(const Process& process, int prot, const Inode& inode, bool map_shared)
{
auto metadata = inode.metadata();
if ((prot & PROT_READ) && !metadata.may_read(process))
return false;
if (map_shared) {
// FIXME: What about readonly filesystem mounts? We cannot make a
// decision here without knowing the mount flags, so we would need to
// keep a Custody or something from mmap time.
if ((prot & PROT_WRITE) && !metadata.may_write(process))
return false;
InterruptDisabler disabler;
if (auto shared_vmobject = inode.shared_vmobject()) {
if ((prot & PROT_EXEC) && shared_vmobject->writable_mappings())
return false;
if ((prot & PROT_WRITE) && shared_vmobject->executable_mappings())
return false;
}
}
return true;
}
KResultOr<FlatPtr> Process::sys$mmap(Userspace<const Syscall::SC_mmap_params*> user_params)
{
REQUIRE_PROMISE(stdio);
Syscall::SC_mmap_params params;
if (!copy_from_user(&params, user_params))
return EFAULT;
FlatPtr addr = params.addr;
size_t size = params.size;
size_t alignment = params.alignment;
int prot = params.prot;
int flags = params.flags;
int fd = params.fd;
int offset = params.offset;
if (prot & PROT_EXEC) {
REQUIRE_PROMISE(prot_exec);
}
if (prot & MAP_FIXED) {
REQUIRE_PROMISE(map_fixed);
}
if (alignment & ~PAGE_MASK)
return EINVAL;
if (page_round_up_would_wrap(size))
return EINVAL;
if (!is_user_range(VirtualAddress(addr), page_round_up(size)))
return EFAULT;
String name;
if (params.name.characters) {
if (params.name.length > PATH_MAX)
return ENAMETOOLONG;
name = copy_string_from_user(params.name);
if (name.is_null())
return EFAULT;
}
if (size == 0)
return EINVAL;
if ((FlatPtr)addr & ~PAGE_MASK)
return EINVAL;
bool map_shared = flags & MAP_SHARED;
bool map_anonymous = flags & MAP_ANONYMOUS;
bool map_private = flags & MAP_PRIVATE;
bool map_stack = flags & MAP_STACK;
bool map_fixed = flags & MAP_FIXED;
bool map_noreserve = flags & MAP_NORESERVE;
bool map_randomized = flags & MAP_RANDOMIZED;
if (map_shared && map_private)
return EINVAL;
if (!map_shared && !map_private)
return EINVAL;
if (map_fixed && map_randomized)
return EINVAL;
if (!validate_mmap_prot(prot, map_stack, map_anonymous))
return EINVAL;
if (map_stack && (!map_private || !map_anonymous))
return EINVAL;
Region* region = nullptr;
Optional<Range> range;
if (map_randomized) {
range = space().page_directory().range_allocator().allocate_randomized(page_round_up(size), alignment);
} else {
range = space().allocate_range(VirtualAddress(addr), size, alignment);
if (!range.has_value()) {
if (addr && !map_fixed) {
// If there's an address but MAP_FIXED wasn't specified, the address is just a hint.
range = space().allocate_range({}, size, alignment);
}
}
}
if (!range.has_value())
return ENOMEM;
if (map_anonymous) {
auto strategy = map_noreserve ? AllocationStrategy::None : AllocationStrategy::Reserve;
auto region_or_error = space().allocate_region(range.value(), !name.is_null() ? name : "mmap", prot, strategy);
if (region_or_error.is_error())
return region_or_error.error().error();
region = region_or_error.value();
} else {
if (offset < 0)
return EINVAL;
if (static_cast<size_t>(offset) & ~PAGE_MASK)
return EINVAL;
auto description = file_description(fd);
if (!description)
return EBADF;
if (description->is_directory())
return ENODEV;
// Require read access even when read protection is not requested.
if (!description->is_readable())
return EACCES;
if (map_shared) {
if ((prot & PROT_WRITE) && !description->is_writable())
return EACCES;
}
if (description->inode()) {
if (!validate_inode_mmap_prot(*this, prot, *description->inode(), map_shared))
return EACCES;
}
auto region_or_error = description->mmap(*this, range.value(), static_cast<size_t>(offset), prot, map_shared);
if (region_or_error.is_error())
return region_or_error.error().error();
region = region_or_error.value();
}
if (!region)
return ENOMEM;
region->set_mmap(true);
if (map_shared)
region->set_shared(true);
if (map_stack)
region->set_stack(true);
if (!name.is_null())
region->set_name(name);
return region->vaddr().get();
}
static KResultOr<Range> expand_range_to_page_boundaries(FlatPtr address, size_t size)
{
if (page_round_up_would_wrap(size))
return EINVAL;
if ((address + size) < address)
return EINVAL;
if (page_round_up_would_wrap(address + size))
return EINVAL;
auto base = VirtualAddress { address }.page_base();
auto end = page_round_up(address + size);
return Range { base, end - base.get() };
}
KResultOr<int> Process::sys$mprotect(Userspace<void*> addr, size_t size, int prot)
{
REQUIRE_PROMISE(stdio);
if (prot & PROT_EXEC) {
REQUIRE_PROMISE(prot_exec);
}
auto range_or_error = expand_range_to_page_boundaries(addr, size);
if (range_or_error.is_error())
return range_or_error.error();
auto range_to_mprotect = range_or_error.value();
if (!range_to_mprotect.size())
return EINVAL;
if (!is_user_range(range_to_mprotect))
return EFAULT;
if (auto* whole_region = space().find_region_from_range(range_to_mprotect)) {
if (!whole_region->is_mmap())
return EPERM;
if (!validate_mmap_prot(prot, whole_region->is_stack(), whole_region->vmobject().is_anonymous(), whole_region))
return EINVAL;
if (whole_region->access() == prot_to_region_access_flags(prot))
return 0;
if (whole_region->vmobject().is_inode()
&& !validate_inode_mmap_prot(*this, prot, static_cast<const InodeVMObject&>(whole_region->vmobject()).inode(), whole_region->is_shared())) {
return EACCES;
}
whole_region->set_readable(prot & PROT_READ);
whole_region->set_writable(prot & PROT_WRITE);
whole_region->set_executable(prot & PROT_EXEC);
whole_region->remap();
return 0;
}
// Check if we can carve out the desired range from an existing region
if (auto* old_region = space().find_region_containing(range_to_mprotect)) {
if (!old_region->is_mmap())
return EPERM;
if (!validate_mmap_prot(prot, old_region->is_stack(), old_region->vmobject().is_anonymous(), old_region))
return EINVAL;
if (old_region->access() == prot_to_region_access_flags(prot))
return 0;
if (old_region->vmobject().is_inode()
&& !validate_inode_mmap_prot(*this, prot, static_cast<const InodeVMObject&>(old_region->vmobject()).inode(), old_region->is_shared())) {
return EACCES;
}
// This vector is the region(s) adjacent to our range.
// We need to allocate a new region for the range we wanted to change permission bits on.
auto adjacent_regions = space().split_region_around_range(*old_region, range_to_mprotect);
size_t new_range_offset_in_vmobject = old_region->offset_in_vmobject() + (range_to_mprotect.base().get() - old_region->range().base().get());
auto& new_region = space().allocate_split_region(*old_region, range_to_mprotect, new_range_offset_in_vmobject);
new_region.set_readable(prot & PROT_READ);
new_region.set_writable(prot & PROT_WRITE);
new_region.set_executable(prot & PROT_EXEC);
// Unmap the old region here, specifying that we *don't* want the VM deallocated.
old_region->unmap(Region::ShouldDeallocateVirtualMemoryRange::No);
space().deallocate_region(*old_region);
// Map the new regions using our page directory (they were just allocated and don't have one).
for (auto* adjacent_region : adjacent_regions) {
adjacent_region->map(space().page_directory());
}
new_region.map(space().page_directory());
return 0;
}
// FIXME: We should also support mprotect() across multiple regions. (#175) (#964)
return EINVAL;
}
KResultOr<int> Process::sys$madvise(Userspace<void*> address, size_t size, int advice)
{
REQUIRE_PROMISE(stdio);
auto range_or_error = expand_range_to_page_boundaries(address, size);
if (range_or_error.is_error())
return range_or_error.error();
auto range_to_madvise = range_or_error.value();
if (!range_to_madvise.size())
return EINVAL;
if (!is_user_range(range_to_madvise))
return EFAULT;
auto* region = space().find_region_from_range(range_to_madvise);
if (!region)
return EINVAL;
if (!region->is_mmap())
return EPERM;
bool set_volatile = advice & MADV_SET_VOLATILE;
bool set_nonvolatile = advice & MADV_SET_NONVOLATILE;
if (set_volatile && set_nonvolatile)
return EINVAL;
if (set_volatile || set_nonvolatile) {
if (!region->vmobject().is_anonymous())
return EPERM;
bool was_purged = false;
switch (region->set_volatile(VirtualAddress(address), size, set_volatile, was_purged)) {
case Region::SetVolatileError::Success:
break;
case Region::SetVolatileError::NotPurgeable:
return EPERM;
case Region::SetVolatileError::OutOfMemory:
return ENOMEM;
}
if (set_nonvolatile)
return was_purged ? 1 : 0;
return 0;
}
if (advice & MADV_GET_VOLATILE) {
if (!region->vmobject().is_anonymous())
return EPERM;
return region->is_volatile(VirtualAddress(address), size) ? 0 : 1;
}
return EINVAL;
}
KResultOr<int> Process::sys$set_mmap_name(Userspace<const Syscall::SC_set_mmap_name_params*> user_params)
{
REQUIRE_PROMISE(stdio);
Syscall::SC_set_mmap_name_params params;
if (!copy_from_user(&params, user_params))
return EFAULT;
if (params.name.length > PATH_MAX)
return ENAMETOOLONG;
auto name = copy_string_from_user(params.name);
if (name.is_null())
return EFAULT;
auto range_or_error = expand_range_to_page_boundaries((FlatPtr)params.addr, params.size);
if (range_or_error.is_error())
return range_or_error.error();
auto range = range_or_error.value();
auto* region = space().find_region_from_range(range);
if (!region)
return EINVAL;
if (!region->is_mmap())
return EPERM;
region->set_name(move(name));
return 0;
}
KResultOr<int> Process::sys$munmap(Userspace<void*> addr, size_t size)
{
REQUIRE_PROMISE(stdio);
if (!size)
return EINVAL;
auto range_or_error = expand_range_to_page_boundaries(addr, size);
if (range_or_error.is_error())
return range_or_error.error();
auto range_to_unmap = range_or_error.value();
if (!is_user_range(range_to_unmap))
return EFAULT;
if (auto* whole_region = space().find_region_from_range(range_to_unmap)) {
if (!whole_region->is_mmap())
return EPERM;
bool success = space().deallocate_region(*whole_region);
VERIFY(success);
return 0;
}
if (auto* old_region = space().find_region_containing(range_to_unmap)) {
if (!old_region->is_mmap())
return EPERM;
auto new_regions = space().split_region_around_range(*old_region, range_to_unmap);
// We manually unmap the old region here, specifying that we *don't* want the VM deallocated.
old_region->unmap(Region::ShouldDeallocateVirtualMemoryRange::No);
space().deallocate_region(*old_region);
// Instead we give back the unwanted VM manually.
space().page_directory().range_allocator().deallocate(range_to_unmap);
// And finally we map the new region(s) using our page directory (they were just allocated and don't have one).
for (auto* new_region : new_regions) {
new_region->map(space().page_directory());
}
return 0;
}
// FIXME: We should also support munmap() across multiple regions. (#175)
return EINVAL;
}
KResultOr<FlatPtr> Process::sys$mremap(Userspace<const Syscall::SC_mremap_params*> user_params)
{
REQUIRE_PROMISE(stdio);
Syscall::SC_mremap_params params {};
if (!copy_from_user(&params, user_params))
return EFAULT;
auto range_or_error = expand_range_to_page_boundaries((FlatPtr)params.old_address, params.old_size);
if (range_or_error.is_error())
return range_or_error.error().error();
auto old_range = range_or_error.value();
auto* old_region = space().find_region_from_range(old_range);
if (!old_region)
return EINVAL;
if (!old_region->is_mmap())
return EPERM;
if (old_region->vmobject().is_shared_inode() && params.flags & MAP_PRIVATE && !(params.flags & (MAP_ANONYMOUS | MAP_NORESERVE))) {
auto range = old_region->range();
auto old_name = old_region->name();
auto old_prot = region_access_flags_to_prot(old_region->access());
NonnullRefPtr inode = static_cast<SharedInodeVMObject&>(old_region->vmobject()).inode();
// Unmap without deallocating the VM range since we're going to reuse it.
old_region->unmap(Region::ShouldDeallocateVirtualMemoryRange::No);
space().deallocate_region(*old_region);
auto new_vmobject = PrivateInodeVMObject::create_with_inode(inode);
auto new_region_or_error = space().allocate_region_with_vmobject(range, new_vmobject, 0, old_name, old_prot, false);
if (new_region_or_error.is_error())
return new_region_or_error.error().error();
auto& new_region = *new_region_or_error.value();
new_region.set_mmap(true);
return new_region.vaddr().get();
}
dbgln("sys$mremap: Unimplemented remap request (flags={})", params.flags);
return ENOTIMPL;
}
KResultOr<FlatPtr> Process::sys$allocate_tls(size_t size)
{
REQUIRE_PROMISE(stdio);
if (!size)
return EINVAL;
if (!m_master_tls_region.is_null())
return EEXIST;
if (thread_count() != 1)
return EFAULT;
Thread* main_thread = nullptr;
for_each_thread([&main_thread](auto& thread) {
main_thread = &thread;
return IterationDecision::Break;
});
VERIFY(main_thread);
auto range = space().allocate_range({}, size);
if (!range.has_value())
return ENOMEM;
auto region_or_error = space().allocate_region(range.value(), String(), PROT_READ | PROT_WRITE);
if (region_or_error.is_error())
return region_or_error.error().error();
m_master_tls_region = region_or_error.value()->make_weak_ptr();
m_master_tls_size = size;
m_master_tls_alignment = PAGE_SIZE;
auto tsr_result = main_thread->make_thread_specific_region({});
if (tsr_result.is_error())
return EFAULT;
auto& tls_descriptor = Processor::current().get_gdt_entry(GDT_SELECTOR_TLS);
tls_descriptor.set_base(main_thread->thread_specific_data());
tls_descriptor.set_limit(main_thread->thread_specific_region_size());
return m_master_tls_region.unsafe_ptr()->vaddr().get();
}
KResultOr<int> Process::sys$msyscall(Userspace<void*> address)
{
if (space().enforces_syscall_regions())
return EPERM;
if (!address) {
space().set_enforces_syscall_regions(true);
return 0;
}
if (!is_user_address(VirtualAddress { address }))
return EFAULT;
auto* region = space().find_region_containing(Range { VirtualAddress { address }, 1 });
if (!region)
return EINVAL;
if (!region->is_mmap())
return EINVAL;
region->set_syscall_region(true);
return 0;
}
}
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