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/*
* Copyright (c) 2020, 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 "Emulator.h"
#include "MmapRegion.h"
#include "SharedBufferRegion.h"
#include "SimpleRegion.h"
#include "SoftCPU.h"
#include <AK/LexicalPath.h>
#include <AK/LogStream.h>
#include <Kernel/API/Syscall.h>
#include <fcntl.h>
#include <serenity.h>
#include <stdio.h>
#include <string.h>
#include <sys/mman.h>
#include <sys/select.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <unistd.h>
#if defined(__GNUC__) && !defined(__clang__)
# pragma GCC optimize("O3")
#endif
//#define DEBUG_SPAM
namespace UserspaceEmulator {
static constexpr u32 stack_location = 0x10000000;
static constexpr size_t stack_size = 64 * KB;
static Emulator* s_the;
Emulator& Emulator::the()
{
ASSERT(s_the);
return *s_the;
}
Emulator::Emulator(const Vector<String>& arguments, NonnullRefPtr<ELF::Loader> elf)
: m_elf(move(elf))
, m_cpu(*this)
{
m_malloc_tracer = make<MallocTracer>();
ASSERT(!s_the);
s_the = this;
setup_stack(arguments);
}
void Emulator::setup_stack(const Vector<String>& arguments)
{
auto stack_region = make<SimpleRegion>(stack_location, stack_size);
stack_region->set_stack(true);
m_mmu.add_region(move(stack_region));
m_cpu.set_esp(shadow_wrap_as_initialized<u32>(stack_location + stack_size));
Vector<u32> argv_entries;
for (auto& argument : arguments) {
m_cpu.push_string(argument.characters());
argv_entries.append(m_cpu.esp().value());
}
m_cpu.push32(shadow_wrap_as_initialized<u32>(0)); // char** envp = { nullptr }
u32 envp = m_cpu.esp().value();
m_cpu.push32(shadow_wrap_as_initialized<u32>(0)); // char** argv = { argv_entries..., nullptr }
for (ssize_t i = argv_entries.size() - 1; i >= 0; --i)
m_cpu.push32(shadow_wrap_as_initialized(argv_entries[i]));
u32 argv = m_cpu.esp().value();
m_cpu.push32(shadow_wrap_as_initialized<u32>(0)); // (alignment)
u32 argc = argv_entries.size();
m_cpu.push32(shadow_wrap_as_initialized(envp));
m_cpu.push32(shadow_wrap_as_initialized(argv));
m_cpu.push32(shadow_wrap_as_initialized(argc));
m_cpu.push32(shadow_wrap_as_initialized<u32>(0)); // (alignment)
}
bool Emulator::load_elf()
{
m_elf->image().for_each_program_header([&](const ELF::Image::ProgramHeader& program_header) {
if (program_header.type() == PT_LOAD) {
auto region = make<SimpleRegion>(program_header.vaddr().get(), program_header.size_in_memory());
if (program_header.is_executable() && !program_header.is_writable())
region->set_text(true);
memcpy(region->data(), program_header.raw_data(), program_header.size_in_image());
memset(region->shadow_data(), 0x01, program_header.size_in_memory());
mmu().add_region(move(region));
return;
}
if (program_header.type() == PT_TLS) {
auto tcb_region = make<SimpleRegion>(0x20000000, program_header.size_in_memory());
memcpy(tcb_region->data(), program_header.raw_data(), program_header.size_in_image());
memset(tcb_region->shadow_data(), 0x01, program_header.size_in_memory());
auto tls_region = make<SimpleRegion>(0, 4);
tls_region->write32(0, shadow_wrap_as_initialized(tcb_region->base() + program_header.size_in_memory()));
memset(tls_region->shadow_data(), 0x01, 4);
mmu().add_region(move(tcb_region));
mmu().set_tls_region(move(tls_region));
return;
}
});
m_cpu.set_eip(m_elf->image().entry().get());
auto malloc_symbol = m_elf->find_demangled_function("malloc");
auto free_symbol = m_elf->find_demangled_function("free");
m_malloc_symbol_start = malloc_symbol.value().value();
m_malloc_symbol_end = m_malloc_symbol_start + malloc_symbol.value().size();
m_free_symbol_start = free_symbol.value().value();
m_free_symbol_end = m_free_symbol_start + free_symbol.value().size();
m_debug_info = make<DebugInfo>(m_elf);
return true;
}
class ELFSymbolProvider final : public X86::SymbolProvider {
public:
ELFSymbolProvider(ELF::Loader& loader)
: m_loader(loader)
{
}
virtual String symbolicate(FlatPtr address, u32* offset = nullptr) const
{
return m_loader.symbolicate(address, offset);
}
private:
ELF::Loader& m_loader;
};
int Emulator::exec()
{
ELFSymbolProvider symbol_provider(*m_elf);
bool trace = false;
while (!m_shutdown) {
u32 base_eip = 0;
if (trace)
base_eip = m_cpu.eip();
auto insn = X86::Instruction::from_stream(m_cpu, true, true);
if (trace)
out() << (const void*)base_eip << " \033[33;1m" << insn.to_string(base_eip, &symbol_provider) << "\033[0m";
(m_cpu.*insn.handler())(insn);
if (trace)
m_cpu.dump();
}
if (auto* tracer = malloc_tracer())
tracer->dump_leak_report();
return m_exit_status;
}
bool Emulator::is_in_malloc_or_free() const
{
return (m_cpu.eip() >= m_malloc_symbol_start && m_cpu.eip() < m_malloc_symbol_end) || (m_cpu.eip() >= m_free_symbol_start && m_cpu.eip() < m_free_symbol_end);
}
Vector<FlatPtr> Emulator::raw_backtrace()
{
Vector<FlatPtr> backtrace;
backtrace.append(m_cpu.eip());
// FIXME: Maybe do something if the backtrace has uninitialized data in the frame chain.
u32 frame_ptr = m_cpu.ebp().value();
while (frame_ptr) {
u32 ret_ptr = m_mmu.read32({ 0x20, frame_ptr + 4 }).value();
if (!ret_ptr)
break;
backtrace.append(ret_ptr);
frame_ptr = m_mmu.read32({ 0x20, frame_ptr }).value();
}
return backtrace;
}
void Emulator::dump_backtrace(const Vector<FlatPtr>& backtrace)
{
for (auto& address : backtrace) {
u32 offset = 0;
String symbol = m_elf->symbolicate(address, &offset);
auto source_position = m_debug_info->get_source_position(address);
dbgprintf("==%d== %#08x %s +%#x", getpid(), address, symbol.characters(), offset);
if (source_position.has_value())
dbgprintf(" (%s:%zu)", LexicalPath(source_position.value().file_path).basename().characters(), source_position.value().line_number);
dbgprintf("\n");
}
}
void Emulator::dump_backtrace()
{
dump_backtrace(raw_backtrace());
}
u32 Emulator::virt_syscall(u32 function, u32 arg1, u32 arg2, u32 arg3)
{
#ifdef DEBUG_SPAM
dbgprintf("Syscall: %s (%x)\n", Syscall::to_string((Syscall::Function)function), function);
#endif
switch (function) {
case SC_ioctl:
return virt$ioctl(arg1, arg2, arg3);
case SC_get_dir_entries:
return virt$get_dir_entries(arg1, arg2, arg3);
case SC_usleep:
return virt$usleep(arg1);
case SC_shbuf_create:
return virt$shbuf_create(arg1, arg2);
case SC_shbuf_allow_pid:
return virt$shbuf_allow_pid(arg1, arg2);
case SC_shbuf_allow_all:
return virt$shbuf_allow_all(arg1);
case SC_shbuf_get:
return virt$shbuf_get(arg1, arg2);
case SC_shbuf_release:
return virt$shbuf_release(arg1);
case SC_shbuf_seal:
return virt$shbuf_seal(arg1);
case SC_shbuf_set_volatile:
return virt$shbuf_set_volatile(arg1, arg2);
case SC_mmap:
return virt$mmap(arg1);
case SC_munmap:
return virt$munmap(arg1, arg2);
case SC_gettid:
return virt$gettid();
case SC_getpid:
return virt$getpid();
case SC_pledge:
return virt$pledge(arg1);
case SC_unveil:
return virt$unveil(arg1);
case SC_getuid:
return virt$getuid();
case SC_getgid:
return virt$getgid();
case SC_close:
return virt$close(arg1);
case SC_fstat:
return virt$fstat(arg1, arg2);
case SC_mkdir:
return virt$mkdir(arg1, arg2, arg3);
case SC_unlink:
return virt$unlink(arg1, arg2);
case SC_write:
return virt$write(arg1, arg2, arg3);
case SC_read:
return virt$read(arg1, arg2, arg3);
case SC_mprotect:
return virt$mprotect(arg1, arg2, arg3);
case SC_madvise:
return virt$madvise(arg1, arg2, arg3);
case SC_open:
return virt$open(arg1);
case SC_pipe:
return virt$pipe(arg1, arg2);
case SC_fcntl:
return virt$fcntl(arg1, arg2, arg3);
case SC_getgroups:
return virt$getgroups(arg1, arg2);
case SC_lseek:
return virt$lseek(arg1, arg2, arg3);
case SC_socket:
return virt$socket(arg1, arg2, arg3);
case SC_getsockopt:
return virt$getsockopt(arg1);
case SC_get_process_name:
return virt$get_process_name(arg1, arg2);
case SC_dbgputstr:
return virt$dbgputstr(arg1, arg2);
case SC_dbgputch:
return virt$dbgputch(arg1);
case SC_fchmod:
return virt$fchmod(arg1, arg2);
case SC_bind:
return virt$bind(arg1, arg2, arg3);
case SC_connect:
return virt$connect(arg1, arg2, arg3);
case SC_listen:
return virt$listen(arg1, arg2);
case SC_select:
return virt$select(arg1);
case SC_recvfrom:
return virt$recvfrom(arg1);
case SC_kill:
return virt$kill(arg1, arg2);
case SC_set_mmap_name:
return virt$set_mmap_name(arg1);
case SC_set_process_icon:
return virt$set_process_icon(arg1);
case SC_exit:
virt$exit((int)arg1);
return 0;
case SC_gettimeofday:
return virt$gettimeofday(arg1);
case SC_clock_gettime:
return virt$clock_gettime(arg1, arg2);
case SC_getrandom:
return virt$getrandom(arg1, arg2, arg3);
default:
warn() << "Unimplemented syscall: " << Syscall::to_string((Syscall::Function)function);
dump_backtrace();
TODO();
}
}
int Emulator::virt$usleep(useconds_t us)
{
return syscall(SC_usleep, us);
}
int Emulator::virt$shbuf_create(int size, FlatPtr buffer)
{
u8* host_data = nullptr;
int shbuf_id = syscall(SC_shbuf_create, size, &host_data);
if (shbuf_id < 0)
return shbuf_id;
FlatPtr address = allocate_vm(size, PAGE_SIZE);
auto region = SharedBufferRegion::create_with_shbuf_id(address, size, shbuf_id, host_data);
m_mmu.add_region(move(region));
m_mmu.copy_to_vm(buffer, &address, sizeof(address));
return shbuf_id;
}
FlatPtr Emulator::virt$shbuf_get(int shbuf_id, FlatPtr size_ptr)
{
size_t host_size = 0;
void* host_data = (void*)syscall(SC_shbuf_get, shbuf_id, &host_size);
if (host_data == (void*)-1)
return (FlatPtr)host_data;
FlatPtr address = allocate_vm(host_size, PAGE_SIZE);
auto region = SharedBufferRegion::create_with_shbuf_id(address, host_size, shbuf_id, (u8*)host_data);
m_mmu.add_region(move(region));
m_mmu.copy_to_vm(size_ptr, &host_size, sizeof(host_size));
return address;
}
int Emulator::virt$shbuf_allow_pid(int shbuf_id, pid_t peer_pid)
{
auto* region = m_mmu.shbuf_region(shbuf_id);
ASSERT(region);
return region->allow_pid(peer_pid);
}
int Emulator::virt$shbuf_allow_all(int shbuf_id)
{
auto* region = m_mmu.shbuf_region(shbuf_id);
ASSERT(region);
return region->allow_all();
}
int Emulator::virt$shbuf_release(int shbuf_id)
{
auto* region = m_mmu.shbuf_region(shbuf_id);
ASSERT(region);
auto rc = region->release();
m_mmu.remove_region(*region);
return rc;
}
int Emulator::virt$shbuf_seal(int shbuf_id)
{
auto* region = m_mmu.shbuf_region(shbuf_id);
ASSERT(region);
return region->seal();
}
int Emulator::virt$shbuf_set_volatile(int shbuf_id, bool is_volatile)
{
auto* region = m_mmu.shbuf_region(shbuf_id);
ASSERT(region);
return region->set_volatile(is_volatile);
}
int Emulator::virt$fstat(int fd, FlatPtr statbuf)
{
struct stat local_statbuf;
int rc = syscall(SC_fstat, fd, &local_statbuf);
if (rc < 0)
return rc;
mmu().copy_to_vm(statbuf, &local_statbuf, sizeof(local_statbuf));
return rc;
}
int Emulator::virt$close(int fd)
{
return syscall(SC_close, fd);
}
int Emulator::virt$mkdir(FlatPtr path, size_t path_length, mode_t mode)
{
auto buffer = mmu().copy_buffer_from_vm(path, path_length);
return syscall(SC_mkdir, buffer.data(), buffer.size(), mode);
}
int Emulator::virt$unlink(FlatPtr path, size_t path_length)
{
auto buffer = mmu().copy_buffer_from_vm(path, path_length);
return syscall(SC_unlink, buffer.data(), buffer.size());
}
int Emulator::virt$dbgputstr(FlatPtr characters, int length)
{
auto buffer = mmu().copy_buffer_from_vm(characters, length);
dbgputstr((const char*)buffer.data(), buffer.size());
return 0;
}
int Emulator::virt$fchmod(int fd, mode_t mode)
{
return syscall(SC_fchmod, fd, mode);
}
int Emulator::virt$bind(int sockfd, FlatPtr address, socklen_t address_length)
{
auto buffer = mmu().copy_buffer_from_vm(address, address_length);
return syscall(SC_bind, sockfd, buffer.data(), buffer.size());
}
int Emulator::virt$connect(int sockfd, FlatPtr address, socklen_t address_size)
{
auto buffer = mmu().copy_buffer_from_vm(address, address_size);
return syscall(SC_connect, sockfd, buffer.data(), buffer.size());
}
int Emulator::virt$dbgputch(char ch)
{
dbgputch(ch);
return 0;
}
int Emulator::virt$listen(int fd, int backlog)
{
return syscall(SC_listen, fd, backlog);
}
int Emulator::virt$kill(pid_t pid, int signal)
{
return syscall(SC_kill, pid, signal);
}
int Emulator::virt$set_process_icon(int shbuf_id)
{
return syscall(SC_set_process_icon, shbuf_id);
}
int Emulator::virt$gettimeofday(FlatPtr timeval)
{
struct timeval host_timeval;
int rc = syscall(SC_gettimeofday, &host_timeval);
if (rc < 0)
return rc;
mmu().copy_to_vm(timeval, &host_timeval, sizeof(host_timeval));
return rc;
}
int Emulator::virt$clock_gettime(int clockid, FlatPtr timespec)
{
struct timespec host_timespec;
int rc = syscall(SC_clock_gettime, clockid, &host_timespec);
if (rc < 0)
return rc;
mmu().copy_to_vm(timespec, &host_timespec, sizeof(host_timespec));
return rc;
}
int Emulator::virt$set_mmap_name(FlatPtr)
{
// FIXME: Implement.
return 0;
}
int Emulator::virt$get_process_name(FlatPtr buffer, int size)
{
if (size < 9)
return -ENAMETOOLONG;
mmu().copy_to_vm(buffer, "EMULATED", 9);
return 0;
}
int Emulator::virt$lseek(int fd, off_t offset, int whence)
{
return syscall(SC_lseek, fd, offset, whence);
}
int Emulator::virt$socket(int domain, int type, int protocol)
{
return syscall(SC_socket, domain, type, protocol);
}
int Emulator::virt$recvfrom(FlatPtr params_addr)
{
Syscall::SC_recvfrom_params params;
mmu().copy_from_vm(¶ms, params_addr, sizeof(params));
auto buffer = ByteBuffer::create_uninitialized(params.buffer.size);
sockaddr_un address;
if (params.addr)
mmu().copy_from_vm(&address, (FlatPtr)params.addr, sizeof(address));
socklen_t address_length = 0;
if (params.addr_length)
mmu().copy_from_vm(&address_length, (FlatPtr)address_length, sizeof(address_length));
int rc = recvfrom(params.sockfd, buffer.data(), buffer.size(), params.flags, params.addr ? (struct sockaddr*)&address : nullptr, params.addr_length ? &address_length : nullptr);
if (rc < 0)
return -errno;
mmu().copy_to_vm((FlatPtr)params.buffer.data, buffer.data(), buffer.size());
if (params.addr)
mmu().copy_to_vm((FlatPtr)params.addr, &address, address_length);
if (params.addr_length)
mmu().copy_to_vm((FlatPtr)params.addr_length, &address_length, sizeof(address_length));
return rc;
}
int Emulator::virt$select(FlatPtr params_addr)
{
Syscall::SC_select_params params;
mmu().copy_from_vm(¶ms, params_addr, sizeof(params));
fd_set readfds;
fd_set writefds;
fd_set exceptfds;
struct timespec timeout;
u32 sigmask;
if (params.readfds)
mmu().copy_from_vm(&readfds, (FlatPtr)params.readfds, sizeof(readfds));
if (params.writefds)
mmu().copy_from_vm(&writefds, (FlatPtr)params.writefds, sizeof(writefds));
if (params.exceptfds)
mmu().copy_from_vm(&exceptfds, (FlatPtr)params.exceptfds, sizeof(exceptfds));
if (params.timeout)
mmu().copy_from_vm(&timeout, (FlatPtr)params.timeout, sizeof(timeout));
if (params.sigmask)
mmu().copy_from_vm(&sigmask, (FlatPtr)params.sigmask, sizeof(sigmask));
int rc = pselect(params.nfds, &readfds, &writefds, &exceptfds, params.timeout ? &timeout : nullptr, params.sigmask ? &sigmask : nullptr);
if (rc < 0)
return -errno;
if (params.readfds)
mmu().copy_to_vm((FlatPtr)params.readfds, &readfds, sizeof(readfds));
if (params.writefds)
mmu().copy_to_vm((FlatPtr)params.writefds, &writefds, sizeof(writefds));
if (params.exceptfds)
mmu().copy_to_vm((FlatPtr)params.exceptfds, &exceptfds, sizeof(exceptfds));
if (params.timeout)
mmu().copy_to_vm((FlatPtr)params.timeout, &timeout, sizeof(timeout));
return rc;
}
int Emulator::virt$getsockopt(FlatPtr params_addr)
{
Syscall::SC_getsockopt_params params;
mmu().copy_from_vm(¶ms, params_addr, sizeof(params));
if (params.option == SO_PEERCRED) {
struct ucred creds = {};
socklen_t creds_size = sizeof(creds);
int rc = getsockopt(params.sockfd, params.level, SO_PEERCRED, &creds, &creds_size);
if (rc < 0)
return -errno;
// FIXME: Check params.value_size
mmu().copy_to_vm((FlatPtr)params.value, &creds, sizeof(creds));
return rc;
}
TODO();
}
int Emulator::virt$getgroups(ssize_t count, FlatPtr groups)
{
if (!count)
return syscall(SC_getgroups, 0, nullptr);
auto buffer = ByteBuffer::create_uninitialized(count * sizeof(gid_t));
int rc = syscall(SC_getgroups, count, buffer.data());
if (rc < 0)
return rc;
mmu().copy_to_vm(groups, buffer.data(), buffer.size());
return 0;
}
u32 Emulator::virt$fcntl(int fd, int cmd, u32 arg)
{
switch (cmd) {
case F_DUPFD:
case F_GETFD:
case F_SETFD:
case F_GETFL:
case F_SETFL:
case F_ISTTY:
break;
default:
TODO();
}
return syscall(SC_fcntl, fd, cmd, arg);
}
u32 Emulator::virt$open(u32 params_addr)
{
Syscall::SC_open_params params;
mmu().copy_from_vm(¶ms, params_addr, sizeof(params));
auto path = mmu().copy_buffer_from_vm((FlatPtr)params.path.characters, params.path.length);
int fd = openat_with_path_length(params.dirfd, (const char*)path.data(), path.size(), params.options, params.mode);
if (fd < 0)
return -errno;
return fd;
}
int Emulator::virt$pipe(FlatPtr vm_pipefd, int flags)
{
int pipefd[2];
int rc = syscall(SC_pipe, pipefd, flags);
if (rc < 0)
return rc;
mmu().copy_to_vm(vm_pipefd, pipefd, sizeof(pipefd));
return rc;
}
u32 Emulator::virt$munmap(FlatPtr address, u32 size)
{
auto* region = mmu().find_region({ 0x20, address });
ASSERT(region);
if (region->size() != round_up_to_power_of_two(size, PAGE_SIZE))
TODO();
mmu().remove_region(*region);
return 0;
}
FlatPtr Emulator::allocate_vm(size_t size, size_t alignment)
{
// FIXME: Write a proper VM allocator
static FlatPtr next_address = 0x30000000;
FlatPtr final_address;
if (alignment) {
// FIXME: What if alignment is not a power of 2?
final_address = round_up_to_power_of_two(next_address, alignment);
} else {
final_address = next_address;
}
next_address = final_address + size;
return final_address;
}
u32 Emulator::virt$mmap(u32 params_addr)
{
Syscall::SC_mmap_params params;
mmu().copy_from_vm(¶ms, params_addr, sizeof(params));
ASSERT(params.addr == 0);
u32 final_size = round_up_to_power_of_two(params.size, PAGE_SIZE);
u32 final_address = allocate_vm(final_size, params.alignment);
if (params.flags & MAP_ANONYMOUS)
mmu().add_region(MmapRegion::create_anonymous(final_address, final_size, params.prot));
else
mmu().add_region(MmapRegion::create_file_backed(final_address, final_size, params.prot, params.flags, params.fd, params.offset));
return final_address;
}
u32 Emulator::virt$gettid()
{
return gettid();
}
u32 Emulator::virt$getpid()
{
return getpid();
}
u32 Emulator::virt$pledge(u32)
{
return 0;
}
u32 Emulator::virt$unveil(u32)
{
return 0;
}
u32 Emulator::virt$mprotect(FlatPtr, size_t, int)
{
return 0;
}
u32 Emulator::virt$madvise(FlatPtr, size_t, int)
{
return 0;
}
uid_t Emulator::virt$getuid()
{
return getuid();
}
gid_t Emulator::virt$getgid()
{
return getgid();
}
u32 Emulator::virt$write(int fd, FlatPtr data, ssize_t size)
{
if (size < 0)
return -EINVAL;
auto buffer = mmu().copy_buffer_from_vm(data, size);
return syscall(SC_write, fd, buffer.data(), buffer.size());
}
u32 Emulator::virt$read(int fd, FlatPtr buffer, ssize_t size)
{
if (size < 0)
return -EINVAL;
auto local_buffer = ByteBuffer::create_uninitialized(size);
int nread = syscall(SC_read, fd, local_buffer.data(), local_buffer.size());
if (nread < 0) {
if (nread == -EPERM) {
dump_backtrace();
TODO();
}
return nread;
}
mmu().copy_to_vm(buffer, local_buffer.data(), local_buffer.size());
return nread;
}
void Emulator::virt$exit(int status)
{
dbg() << "exit(" << status << "), shutting down!";
m_exit_status = status;
m_shutdown = true;
}
ssize_t Emulator::virt$getrandom(FlatPtr buffer, size_t buffer_size, unsigned int flags)
{
auto host_buffer = ByteBuffer::create_uninitialized(buffer_size);
int rc = syscall(SC_getrandom, host_buffer.data(), host_buffer.size(), flags);
if (rc < 0)
return rc;
mmu().copy_to_vm(buffer, host_buffer.data(), host_buffer.size());
return rc;
}
int Emulator::virt$get_dir_entries(int fd, FlatPtr buffer, ssize_t size)
{
auto host_buffer = ByteBuffer::create_uninitialized(size);
int rc = syscall(SC_get_dir_entries, fd, host_buffer.data(), host_buffer.size());
if (rc < 0)
return rc;
mmu().copy_to_vm(buffer, host_buffer.data(), host_buffer.size());
return rc;
}
int Emulator::virt$ioctl(int fd, unsigned request, FlatPtr arg)
{
(void)fd;
(void)arg;
dbg() << "Unsupported ioctl: " << request;
dump_backtrace();
TODO();
}
}
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