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|
// for _Exit()
#include <stdlib.h>
#include <string.h>
#include <errno.h>
// for fork() and execve()
#include <unistd.h>
// for sched_yield()
#include <sched.h>
#include <stdio.h>
// for getrusage()
#include <sys/resource.h>
// for waitpid()
#include <sys/wait.h>
#include <pthread.h>
#include <bits/ensure.h>
#include <mlibc/allocator.hpp>
#include <mlibc/debug.hpp>
#include <mlibc/posix-pipe.hpp>
#include <mlibc/thread-entry.hpp>
#include <mlibc/all-sysdeps.hpp>
#include <posix.frigg_bragi.hpp>
#include <protocols/posix/supercalls.hpp>
namespace mlibc {
int sys_futex_tid() {
HelWord tid = 0;
HEL_CHECK(helSyscall0_1(kHelCallSuper + posix::superGetTid,
&tid));
return tid;
}
int sys_futex_wait(int *pointer, int expected, const struct timespec *time) {
// This implementation is inherently signal-safe.
if(time) {
if(helFutexWait(pointer, expected, time->tv_nsec + time->tv_sec * 1000000000))
return -1;
return 0;
}
if(helFutexWait(pointer, expected, -1))
return -1;
return 0;
}
int sys_futex_wake(int *pointer) {
// This implementation is inherently signal-safe.
if(helFutexWake(pointer))
return -1;
return 0;
}
int sys_waitpid(pid_t pid, int *status, int flags, struct rusage *ru, pid_t *ret_pid) {
if(ru) {
mlibc::infoLogger() << "mlibc: struct rusage in sys_waitpid is unsupported" << frg::endlog;
return ENOSYS;
}
SignalGuard sguard;
managarm::posix::CntRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_request_type(managarm::posix::CntReqType::WAIT);
req.set_pid(pid);
req.set_flags(flags);
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if(resp.error() == managarm::posix::Errors::ILLEGAL_ARGUMENTS) {
return EINVAL;
}
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
if(status)
*status = resp.mode();
*ret_pid = resp.pid();
return 0;
}
int sys_waitid(idtype_t idtype, id_t id, siginfo_t *info, int options) {
SignalGuard sguard;
managarm::posix::WaitIdRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_idtype(idtype);
req.set_id(id);
req.set_flags(options);
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::WaitIdResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if(resp.error() == managarm::posix::Errors::ILLEGAL_ARGUMENTS) {
return EINVAL;
}
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
info->si_pid = resp.pid();
info->si_uid = resp.uid();
info->si_signo = SIGCHLD;
info->si_status = resp.sig_status();
info->si_code = resp.sig_code();
return 0;
}
void sys_exit(int status) {
// This implementation is inherently signal-safe.
HEL_CHECK(helSyscall1(kHelCallSuper + posix::superExit, status));
__builtin_trap();
}
void sys_yield() {
// This implementation is inherently signal-safe.
HEL_CHECK(helYield());
}
int sys_sleep(time_t *secs, long *nanos) {
SignalGuard sguard;
globalQueue.trim();
uint64_t now;
HEL_CHECK(helGetClock(&now));
uint64_t async_id;
HEL_CHECK(helSubmitAwaitClock(now + uint64_t(*secs) * 1000000000 + uint64_t(*nanos),
globalQueue.getQueue(), 0, &async_id));
auto element = globalQueue.dequeueSingle();
auto result = parseSimple(element);
HEL_CHECK(result->error);
*secs = 0;
*nanos = 0;
return 0;
}
int sys_fork(pid_t *child) {
// This implementation is inherently signal-safe.
int res;
sigset_t full_sigset;
res = sigfillset(&full_sigset);
__ensure(!res);
sigset_t former_sigset;
res = sigprocmask(SIG_SETMASK, &full_sigset, &former_sigset);
__ensure(!res);
HelWord out;
HEL_CHECK(helSyscall0_1(kHelCallSuper + posix::superFork, &out));
*child = out;
if(!out) {
clearCachedInfos();
globalQueue.recreateQueue();
}
res = sigprocmask(SIG_SETMASK, &former_sigset, nullptr);
__ensure(!res);
return 0;
}
int sys_execve(const char *path, char *const argv[], char *const envp[]) {
// TODO: Make this function signal-safe!
frg::string<MemoryAllocator> args_area(getSysdepsAllocator());
for(auto it = argv; *it; ++it)
args_area += frg::string_view{*it, strlen(*it) + 1};
frg::string<MemoryAllocator> env_area(getSysdepsAllocator());
for(auto it = envp; *it; ++it)
env_area += frg::string_view{*it, strlen(*it) + 1};
uintptr_t out;
HEL_CHECK(helSyscall6_1(kHelCallSuper + posix::superExecve,
reinterpret_cast<uintptr_t>(path),
strlen(path),
reinterpret_cast<uintptr_t>(args_area.data()),
args_area.size(),
reinterpret_cast<uintptr_t>(env_area.data()),
env_area.size(),
&out));
return out;
}
gid_t sys_getgid() {
SignalGuard sguard;
managarm::posix::GetGidRequest<MemoryAllocator> req(getSysdepsAllocator());
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
return resp.uid();
}
int sys_setgid(gid_t gid) {
SignalGuard sguard;
managarm::posix::SetGidRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_uid(gid);
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if(resp.error() == managarm::posix::Errors::ACCESS_DENIED) {
return EPERM;
}else if(resp.error() == managarm::posix::Errors::ILLEGAL_ARGUMENTS) {
return EINVAL;
}else{
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
return 0;
}
}
gid_t sys_getegid() {
SignalGuard sguard;
managarm::posix::GetEgidRequest<MemoryAllocator> req(getSysdepsAllocator());
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
return resp.uid();
}
int sys_setegid(gid_t egid) {
SignalGuard sguard;
managarm::posix::SetEgidRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_uid(egid);
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if(resp.error() == managarm::posix::Errors::ACCESS_DENIED) {
return EPERM;
}else if(resp.error() == managarm::posix::Errors::ILLEGAL_ARGUMENTS) {
return EINVAL;
}else{
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
return 0;
}
}
uid_t sys_getuid() {
SignalGuard sguard;
managarm::posix::GetUidRequest<MemoryAllocator> req(getSysdepsAllocator());
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
return resp.uid();
}
int sys_setuid(uid_t uid) {
SignalGuard sguard;
managarm::posix::SetUidRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_uid(uid);
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if(resp.error() == managarm::posix::Errors::ACCESS_DENIED) {
return EPERM;
}else if(resp.error() == managarm::posix::Errors::ILLEGAL_ARGUMENTS) {
return EINVAL;
}else{
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
return 0;
}
}
uid_t sys_geteuid() {
SignalGuard sguard;
managarm::posix::GetEuidRequest<MemoryAllocator> req(getSysdepsAllocator());
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
return resp.uid();
}
int sys_seteuid(uid_t euid) {
SignalGuard sguard;
managarm::posix::SetEuidRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_uid(euid);
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if(resp.error() == managarm::posix::Errors::ACCESS_DENIED) {
return EPERM;
}else if(resp.error() == managarm::posix::Errors::ILLEGAL_ARGUMENTS) {
return EINVAL;
}else{
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
return 0;
}
}
pid_t sys_gettid() {
// TODO: use an actual gettid syscall.
return sys_getpid();
}
pid_t sys_getpid() {
SignalGuard sguard;
managarm::posix::GetPidRequest<MemoryAllocator> req(getSysdepsAllocator());
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
return resp.pid();
}
pid_t sys_getppid() {
SignalGuard sguard;
managarm::posix::GetPpidRequest<MemoryAllocator> req(getSysdepsAllocator());
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
return resp.pid();
}
int sys_getsid(pid_t pid, pid_t *sid) {
SignalGuard sguard;
managarm::posix::GetSidRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_pid(pid);
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if(resp.error() == managarm::posix::Errors::NO_SUCH_RESOURCE) {
*sid = 0;
return ESRCH;
} else {
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
*sid = resp.pid();
return 0;
}
}
int sys_getpgid(pid_t pid, pid_t *pgid) {
SignalGuard sguard;
managarm::posix::GetPgidRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_pid(pid);
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if(resp.error() == managarm::posix::Errors::NO_SUCH_RESOURCE) {
*pgid = 0;
return ESRCH;
} else {
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
*pgid = resp.pid();
return 0;
}
}
int sys_setpgid(pid_t pid, pid_t pgid) {
SignalGuard sguard;
managarm::posix::SetPgidRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_pid(pid);
req.set_pgid(pgid);
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
if(resp.error() == managarm::posix::Errors::INSUFFICIENT_PERMISSION) {
return EPERM;
}else if(resp.error() == managarm::posix::Errors::NO_SUCH_RESOURCE) {
return ESRCH;
}else if(resp.error() == managarm::posix::Errors::ACCESS_DENIED) {
return EACCES;
}else{
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
return 0;
}
}
int sys_getrusage(int scope, struct rusage *usage) {
memset(usage, 0, sizeof(struct rusage));
SignalGuard sguard;
managarm::posix::CntRequest<MemoryAllocator> req(getSysdepsAllocator());
req.set_request_type(managarm::posix::CntReqType::GET_RESOURCE_USAGE);
req.set_mode(scope);
auto [offer, send_head, recv_resp] =
exchangeMsgsSync(
getPosixLane(),
helix_ng::offer(
helix_ng::sendBragiHeadOnly(req, getSysdepsAllocator()),
helix_ng::recvInline()
)
);
HEL_CHECK(offer.error());
HEL_CHECK(send_head.error());
HEL_CHECK(recv_resp.error());
managarm::posix::SvrResponse<MemoryAllocator> resp(getSysdepsAllocator());
resp.ParseFromArray(recv_resp.data(), recv_resp.length());
__ensure(resp.error() == managarm::posix::Errors::SUCCESS);
usage->ru_utime.tv_sec = resp.ru_user_time() / 1'000'000'000;
usage->ru_utime.tv_usec = (resp.ru_user_time() % 1'000'000'000) / 1'000;
return 0;
}
int sys_getschedparam(void *tcb, int *policy, struct sched_param *param) {
if(tcb != mlibc::get_current_tcb()) {
return ESRCH;
}
*policy = SCHED_OTHER;
int prio = 0;
// TODO(no92): use helGetPriority(kHelThisThread) here
mlibc::infoLogger() << "\e[31mlibc: sys_getschedparam always returns priority 0\e[39m" << frg::endlog;
param->sched_priority = prio;
return 0;
}
int sys_setschedparam(void *tcb, int policy, const struct sched_param *param) {
if(tcb != mlibc::get_current_tcb()) {
return ESRCH;
}
if(policy != SCHED_OTHER) {
return EINVAL;
}
HEL_CHECK(helSetPriority(kHelThisThread, param->sched_priority));
return 0;
}
int sys_clone(void *tcb, pid_t *pid_out, void *stack) {
HelWord pid = 0;
HEL_CHECK(helSyscall2_1(kHelCallSuper + posix::superClone,
reinterpret_cast<HelWord>(__mlibc_start_thread),
reinterpret_cast<HelWord>(stack),
&pid));
if (pid_out)
*pid_out = pid;
return 0;
}
int sys_tcb_set(void *pointer) {
#if defined(__aarch64__)
uintptr_t addr = reinterpret_cast<uintptr_t>(pointer);
addr += sizeof(Tcb) - 0x10;
asm volatile ("msr tpidr_el0, %0" :: "r"(addr));
#else
HEL_CHECK(helWriteFsBase(pointer));
#endif
return 0;
}
void sys_thread_exit() {
// This implementation is inherently signal-safe.
HEL_CHECK(helSyscall1(kHelCallSuper + posix::superExit, 0));
__builtin_trap();
}
int sys_thread_setname(void *tcb, const char *name) {
if(strlen(name) > 15) {
return ERANGE;
}
auto t = reinterpret_cast<Tcb *>(tcb);
char *path;
int cs = 0;
if(asprintf(&path, "/proc/self/task/%d/comm", t->tid) < 0) {
return ENOMEM;
}
pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, &cs);
int fd;
if(int e = sys_open(path, O_WRONLY, 0, &fd); e) {
return e;
}
if(int e = sys_write(fd, name, strlen(name) + 1, NULL)) {
return e;
}
sys_close(fd);
pthread_setcancelstate(cs, 0);
return 0;
}
int sys_thread_getname(void *tcb, char *name, size_t size) {
auto t = reinterpret_cast<Tcb *>(tcb);
char *path;
int cs = 0;
ssize_t real_size = 0;
if(asprintf(&path, "/proc/self/task/%d/comm", t->tid) < 0) {
return ENOMEM;
}
pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, &cs);
int fd;
if(int e = sys_open(path, O_RDONLY | O_CLOEXEC, 0, &fd); e) {
return e;
}
if(int e = sys_read(fd, name, size, &real_size)) {
return e;
}
name[real_size - 1] = 0;
sys_close(fd);
pthread_setcancelstate(cs, 0);
if(static_cast<ssize_t>(size) <= real_size) {
return ERANGE;
}
return 0;
}
} //namespace mlibc
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