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|
/*
* %CopyrightBegin%
*
* Copyright Ericsson AB 2001-2016. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* %CopyrightEnd%
*/
/*
* hipe_native_bif.c
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "sys.h"
#include "erl_vm.h"
#include "global.h"
#include "erl_process.h"
#include "error.h"
#include "bif.h"
#include "erl_bits.h"
#include "erl_binary.h"
#include "hipe_mode_switch.h"
#include "hipe_native_bif.h"
#include "hipe_arch.h"
#include "hipe_stack.h"
/*
* These are wrappers for BIFs that may trigger a native
* stack walk with p->hipe.narity != 0.
*/
/* for -Wmissing-prototypes :-( */
extern Eterm hipe_erts_internal_check_process_code_2(BIF_ALIST_2);
extern Eterm hipe_show_nstack_1(BIF_ALIST_1);
/* Used when a BIF can trigger a stack walk. */
static __inline__ void hipe_set_narity(Process *p, unsigned int arity)
{
p->hipe.narity = arity;
}
Eterm hipe_erts_internal_check_process_code_2(BIF_ALIST_2)
{
Eterm ret;
hipe_set_narity(BIF_P, 2);
ret = erts_internal_check_process_code_2(BIF_P, BIF__ARGS);
hipe_set_narity(BIF_P, 0);
return ret;
}
Eterm hipe_show_nstack_1(BIF_ALIST_1)
{
Eterm ret;
hipe_set_narity(BIF_P, 1);
ret = hipe_bifs_show_nstack_1(BIF_P, BIF__ARGS);
hipe_set_narity(BIF_P, 0);
return ret;
}
/*
* This is called when inlined heap allocation in native code fails.
* The 'need' parameter is the number of heap words needed.
* The value is tagged as a fixnum to avoid untagged data on
* the x86 stack while the gc is running.
*/
void hipe_gc(Process *p, Eterm need)
{
hipe_set_narity(p, 1);
erts_garbage_collect(p, unsigned_val(need), NULL, 0);
hipe_set_narity(p, 0);
}
/* This is like the OP_setTimeout JAM instruction.
* Transformation to the BEAM instruction wait_timeout_fs
* has begun.
* XXX: BUG: native code should check return status
*/
BIF_RETTYPE hipe_set_timeout(BIF_ALIST_1)
{
Process* p = BIF_P;
Eterm timeout_value = BIF_ARG_1;
/* XXX: This should be converted to follow BEAM conventions,
* but that requires some compiler changes.
*
* In BEAM, set_timeout saves TWO CP values, and suspends.
* p->def_arg_reg[0] and p->i are both defined and used.
* If a message arrives, BEAM resumes at p->i.
* If a timeout fires, BEAM resumes at p->def_arg_reg[0].
* (See erts_set_proc_timer() and proc_timeout_common() in
* erl_hl_timer.c.)
*
* Here we set p->def_arg_reg[0] to hipe_beam_pc_resume.
* Assuming our caller invokes suspend immediately after
* our return, then hipe_mode_switch() will also set
* p->i to hipe_beam_pc_resume. Thus we'll resume in the same
* way regardless of the cause (message or timeout).
* hipe_mode_switch() checks for F_TIMO and returns a
* flag to native code indicating the cause.
*/
/*
* def_arg_reg[0] is (re)set unconditionally, in case this is the
* 2nd/3rd/... iteration through the receive loop: in order to pass
* a boolean flag to native code indicating timeout or new message,
* our mode switch has to clobber def_arg_reg[0]. This is ok, but if
* we re-suspend (because we ignored a received message) we also have
* to reinitialise def_arg_reg[0] with the BEAM resume label.
*
* XXX: A better solution would be to pass two parameters to
* set_timeout: the timeout and the on-timeout resume label.
* We could put the resume label in def_arg_reg[1] and resume
* at it without having to load a flag in a register and generate
* code to test it. Requires a HiPE compiler change though.
*/
p->def_arg_reg[0] = (Eterm) hipe_beam_pc_resume;
/*
* If we have already set the timer, we must NOT set it again. Therefore,
* we must test the F_INSLPQUEUE flag as well as the F_TIMO flag.
*/
if (p->flags & (F_INSLPQUEUE | F_TIMO))
return NIL; /* caller had better call nbif_suspend ASAP! */
if (timeout_value == am_infinity) {
/* p->flags |= F_TIMO; */ /* XXX: nbif_suspend_msg_timeout */
}
else {
int tres = erts_set_proc_timer_term(p, timeout_value);
if (tres != 0) { /* Wrong time */
#ifdef ERTS_SMP
if (p->hipe_smp.have_receive_locks) {
p->hipe_smp.have_receive_locks = 0;
erts_smp_proc_unlock(p, ERTS_PROC_LOCKS_MSG_RECEIVE);
}
#endif
BIF_ERROR(p, EXC_TIMEOUT_VALUE);
}
}
return NIL; /* caller had better call nbif_suspend ASAP! */
}
/* This is like the remove_message BEAM instruction
*/
void hipe_select_msg(Process *p)
{
ErtsMessage *msgp;
msgp = PEEK_MESSAGE(p);
UNLINK_MESSAGE(p, msgp); /* decrements global 'erts_proc_tot_mem' variable */
JOIN_MESSAGE(p);
CANCEL_TIMER(p); /* calls erts_cancel_proc_timer() */
erts_save_message_in_proc(p, msgp);
p->flags &= ~F_DELAY_GC;
if (ERTS_IS_GC_DESIRED(p)) {
/*
* We want to GC soon but we leave a few
* reductions giving the message some time
* to turn into garbage.
*/
ERTS_VBUMP_LEAVE_REDS(p, 5);
}
}
void hipe_fclearerror_error(Process *p)
{
#if !defined(NO_FPE_SIGNALS)
erts_fp_check_init_error(&p->fp_exception);
#else
erts_exit(ERTS_ABORT_EXIT, "Emulated FPE not cleared by HiPE");
#endif
}
/* Saving a stacktrace from native mode. Right now, we only create a
* minimal struct with no fields filled in except freason. The flag
* EXF_NATIVE is set, so that build_stacktrace (in beam_emu.c) does not
* try to interpret any other field.
*/
static void hipe_save_stacktrace(Process* c_p, Eterm args)
{
Eterm *hp;
struct StackTrace* s;
int sz;
int depth = erts_backtrace_depth; /* max depth (never negative) */
/* Create a container for the exception data. This must be done just
as in the save_stacktrace function in beam_emu.c */
sz = (offsetof(struct StackTrace, trace) + sizeof(Eterm)*depth
+ sizeof(Eterm) - 1) / sizeof(Eterm);
hp = HAlloc(c_p, 2 + 1 + sz);
s = (struct StackTrace *) (hp + 2);
c_p->ftrace = CONS(hp, args, make_big((Eterm *) s));
s->header = make_pos_bignum_header(sz);
s->current = NULL;
s->pc = NULL;
s->depth = hipe_fill_stacktrace(c_p, depth, s->trace);
/* Must mark this as a native-code exception. */
s->freason = NATIVE_EXCEPTION(c_p->freason);
return;
}
/*
* hipe_handle_exception() is called from hipe_${ARCH}_glue.S when an
* exception has been thrown, to expand the exception value, set the
* stack trace, and locate the current handler.
*/
void hipe_handle_exception(Process *c_p)
{
Eterm Value = c_p->fvalue;
Eterm Args = am_true;
ASSERT(c_p->freason != TRAP); /* Should have been handled earlier. */
if (c_p->mbuf) {
erts_printf("%s line %u: p==%p, p->mbuf==%p\n", __FUNCTION__, __LINE__, c_p, c_p->mbuf);
/* erts_garbage_collect(c_p, 0, NULL, 0); */
}
/*
* Check if we have an arglist for the top level call. If so, this
* is encoded in Value, so we have to dig out the real Value as well
* as the Arglist.
*/
if (c_p->freason & EXF_ARGLIST) {
Eterm *tp;
ASSERT(is_tuple(Value));
tp = tuple_val(Value);
Value = tp[1];
Args = tp[2];
}
/* If necessary, build a stacktrace object. */
if (c_p->freason & EXF_SAVETRACE)
hipe_save_stacktrace(c_p, Args);
/* Get the fully expanded error term */
Value = expand_error_value(c_p, c_p->freason, Value);
/* Save final error term and stabilize the exception flags so no
further expansion is done. */
c_p->fvalue = Value;
c_p->freason = PRIMARY_EXCEPTION(c_p->freason);
/* Synthesized to avoid having to generate code for it. */
c_p->def_arg_reg[0] = exception_tag[GET_EXC_CLASS(c_p->freason)];
if (c_p->mbuf) {
/* erts_printf("%s line %u: p==%p, p->mbuf==%p, p->lastbif==%p\n", __FUNCTION__, __LINE__, c_p, c_p->mbuf, c_p->hipe.lastbif); */
erts_garbage_collect(c_p, 0, NULL, 0);
}
hipe_find_handler(c_p);
}
/* This is duplicated from beam_emu.c for now */
static struct StackTrace *get_trace_from_exc(Eterm exc)
{
if (exc == NIL)
return NULL;
else
return (struct StackTrace *) big_val(CDR(list_val(exc)));
}
/*
* This does what the (misnamed) Beam instruction 'raise_ss' does,
* namely, a proper re-throw of an exception that was caught by 'try'.
*/
BIF_RETTYPE hipe_rethrow(BIF_ALIST_2)
{
Process* c_p = BIF_P;
Eterm exc = BIF_ARG_1;
Eterm value = BIF_ARG_2;
c_p->fvalue = value;
if (c_p->freason == EXC_NULL) {
/* a safety check for the R10-0 case; should not happen */
c_p->ftrace = NIL;
BIF_ERROR(c_p, EXC_ERROR);
}
/* For R10-0 code, 'exc' might be an atom. In that case, just
keep the existing c_p->ftrace. */
switch (exc) {
case am_throw:
BIF_ERROR(c_p, (EXC_THROWN & ~EXF_SAVETRACE));
break;
case am_error:
BIF_ERROR(c_p, (EXC_ERROR & ~EXF_SAVETRACE));
break;
case am_exit:
BIF_ERROR(c_p, (EXC_EXIT & ~EXF_SAVETRACE));
break;
default:
{/* R10-1 and later
XXX note: should do sanity check on given exception if it can be
passed from a user! Currently only expecting generated calls.
*/
struct StackTrace *s;
c_p->ftrace = exc;
s = get_trace_from_exc(exc);
if (s == NULL) {
BIF_ERROR(c_p, EXC_ERROR);
} else {
BIF_ERROR(c_p, PRIMARY_EXCEPTION(s->freason));
}
}
}
}
/*
* Support for compiled binary syntax operations.
*/
char *hipe_bs_allocate(int len)
{
Binary *bptr;
bptr = erts_bin_nrml_alloc(len);
erts_refc_init(&bptr->refc, 1);
return bptr->orig_bytes;
}
Binary *hipe_bs_reallocate(Binary* oldbptr, int newsize)
{
Binary *bptr;
bptr = erts_bin_realloc(oldbptr, newsize);
return bptr;
}
int hipe_bs_put_big_integer(
#ifdef ERTS_SMP
Process *p,
#endif
Eterm arg, Uint num_bits, byte* base, unsigned offset, unsigned flags)
{
byte *save_bin_buf;
Uint save_bin_offset;
int res;
ERL_BITS_DEFINE_STATEP(p);
save_bin_buf = erts_current_bin;
save_bin_offset = erts_bin_offset;
erts_current_bin = base;
erts_bin_offset = offset;
res = erts_new_bs_put_integer(ERL_BITS_ARGS_3(arg, num_bits, flags));
erts_current_bin = save_bin_buf;
erts_bin_offset = save_bin_offset;
return res;
}
int hipe_bs_put_small_float(
Process *p,
Eterm arg, Uint num_bits, byte* base, unsigned offset, unsigned flags)
{
byte *save_bin_buf;
Uint save_bin_offset;
int res;
ERL_BITS_DEFINE_STATEP(p);
save_bin_buf = erts_current_bin;
save_bin_offset = erts_bin_offset;
erts_current_bin = base;
erts_bin_offset = offset;
res = erts_new_bs_put_float(p, arg, num_bits, flags);
erts_current_bin = save_bin_buf;
erts_bin_offset = save_bin_offset;
return res;
}
void hipe_bs_put_bits(
Eterm arg, Uint num_bits, byte* base, unsigned offset, unsigned flags)
{
Uint Bitoffs, Bitsize;
byte *Bytep;
ERTS_GET_BINARY_BYTES(arg, Bytep, Bitoffs, Bitsize);
erts_copy_bits(Bytep, Bitoffs, 1, base, offset, 1, num_bits);
}
Eterm hipe_bs_utf8_size(Eterm arg)
{
/* See beam_emu.c:OpCase(i_bs_utf8_size_sd): error handling
is delayed to the subsequent put_utf8 operation. */
if (arg < make_small(0x80UL))
return make_small(1);
else if (arg < make_small(0x800UL))
return make_small(2);
else if (arg < make_small(0x10000UL))
return make_small(3);
else
return make_small(4);
}
BIF_RETTYPE hipe_bs_put_utf8(BIF_ALIST_3)
{
Process* p = BIF_P;
Eterm arg = BIF_ARG_1;
byte* base = (byte*) BIF_ARG_2;
Uint offset = (Uint) BIF_ARG_3;
byte *save_bin_buf;
Uint save_bin_offset;
int res;
unsigned int new_offset;
ERL_BITS_DEFINE_STATEP(p);
save_bin_buf = erts_current_bin;
save_bin_offset = erts_bin_offset;
erts_current_bin = base;
erts_bin_offset = offset;
res = erts_bs_put_utf8(ERL_BITS_ARGS_1(arg));
new_offset = erts_bin_offset;
erts_current_bin = save_bin_buf;
erts_bin_offset = save_bin_offset;
if (res == 0)
BIF_ERROR(p, BADARG);
return new_offset;
}
Eterm hipe_bs_utf16_size(Eterm arg)
{
/* See beam_emu.c:OpCase(i_bs_utf16_size_sd): error handling
is delayed to the subsequent put_utf16 operation. */
if (arg >= make_small(0x10000UL))
return make_small(4);
else
return make_small(2);
}
/* This would have used standard_bif_interface_4, which doesn't exist.
* Instead we call it via wrappers for the two relevant cases:
* (flags & BSF_LITTLE) != 0 and (flags & BSF_LITTLE) == 0.
*/
static
Eterm hipe_bs_put_utf16(Process *p, Eterm arg, byte *base, unsigned int offset, Uint flags)
{
byte *save_bin_buf;
Uint save_bin_offset;
int res;
unsigned int new_offset;
ERL_BITS_DEFINE_STATEP(p);
save_bin_buf = erts_current_bin;
save_bin_offset = erts_bin_offset;
erts_current_bin = base;
erts_bin_offset = offset;
res = erts_bs_put_utf16(ERL_BITS_ARGS_2(arg, flags));
new_offset = erts_bin_offset;
erts_current_bin = save_bin_buf;
erts_bin_offset = save_bin_offset;
if (res == 0)
BIF_ERROR(p, BADARG);
return new_offset;
}
BIF_RETTYPE hipe_bs_put_utf16be(BIF_ALIST_3)
{
Process *p = BIF_P;
Eterm arg = BIF_ARG_1;
byte *base = (byte*) BIF_ARG_2;
Uint offset = (Uint) BIF_ARG_3;
return hipe_bs_put_utf16(p, arg, base, offset, 0);
}
BIF_RETTYPE hipe_bs_put_utf16le(BIF_ALIST_3)
{
Process *p = BIF_P;
Eterm arg = BIF_ARG_1;
byte *base = (byte*) BIF_ARG_2;
Uint offset = (Uint) BIF_ARG_3;
return hipe_bs_put_utf16(p, arg, base, offset, BSF_LITTLE);
}
static int validate_unicode(Eterm arg)
{
if (is_not_small(arg) ||
arg > make_small(0x10FFFFUL) ||
(make_small(0xD800UL) <= arg && arg <= make_small(0xDFFFUL)))
return 0;
return 1;
}
BIF_RETTYPE hipe_bs_validate_unicode(BIF_ALIST_1)
{
Process *p = BIF_P;
Eterm arg = BIF_ARG_1;
if (!validate_unicode(arg))
BIF_ERROR(p, BADARG);
return NIL;
}
int hipe_bs_validate_unicode_retract(ErlBinMatchBuffer* mb, Eterm arg)
{
if (!validate_unicode(arg)) {
mb->offset -= 32;
return 0;
}
return 1;
}
BIF_RETTYPE hipe_is_divisible(BIF_ALIST_2)
{
/* Arguments are Eterm-sized unsigned integers */
Uint dividend = BIF_ARG_1;
Uint divisor = BIF_ARG_2;
if (dividend % divisor) {
BIF_ERROR(BIF_P, BADARG);
} else {
return NIL;
}
}
/* This is like the loop_rec_fr BEAM instruction
*/
Eterm hipe_check_get_msg(Process *c_p)
{
ErtsMessage *msgp;
c_p->flags |= F_DELAY_GC;
next_message:
msgp = PEEK_MESSAGE(c_p);
if (!msgp) {
#ifdef ERTS_SMP
erts_smp_proc_lock(c_p, ERTS_PROC_LOCKS_MSG_RECEIVE);
/* Make sure messages wont pass exit signals... */
if (ERTS_PROC_PENDING_EXIT(c_p)) {
erts_smp_proc_unlock(c_p, ERTS_PROC_LOCKS_MSG_RECEIVE);
return THE_NON_VALUE; /* Will be rescheduled for exit */
}
ERTS_SMP_MSGQ_MV_INQ2PRIVQ(c_p);
msgp = PEEK_MESSAGE(c_p);
if (msgp)
erts_smp_proc_unlock(c_p, ERTS_PROC_LOCKS_MSG_RECEIVE);
else {
/* XXX: BEAM doesn't need this */
c_p->hipe_smp.have_receive_locks = 1;
#endif
c_p->flags &= ~F_DELAY_GC;
return THE_NON_VALUE;
#ifdef ERTS_SMP
}
#endif
}
if (is_non_value(ERL_MESSAGE_TERM(msgp))
&& !erts_decode_dist_message(c_p, ERTS_PROC_LOCK_MAIN, msgp, 0)) {
/*
* A corrupt distribution message that we weren't able to decode;
* remove it...
*/
ASSERT(!msgp->data.attached);
UNLINK_MESSAGE(c_p, msgp);
msgp->next = NULL;
erts_cleanup_messages(msgp);
goto next_message;
}
ASSERT(is_value(ERL_MESSAGE_TERM(msgp)));
return ERL_MESSAGE_TERM(msgp);
}
/*
* SMP-specific stuff
*/
#ifdef ERTS_SMP
/*
* This is like the timeout BEAM instruction.
*/
void hipe_clear_timeout(Process *c_p)
{
/*
* A timeout has occurred. Reset the save pointer so that the next
* receive statement will examine the first message first.
*/
#ifdef ERTS_SMP
/* XXX: BEAM has different entries for the locked and unlocked
cases. HiPE doesn't, so we must check dynamically. */
if (c_p->hipe_smp.have_receive_locks) {
c_p->hipe_smp.have_receive_locks = 0;
erts_smp_proc_unlock(c_p, ERTS_PROC_LOCKS_MSG_RECEIVE);
}
#endif
if (IS_TRACED_FL(c_p, F_TRACE_RECEIVE)) {
trace_receive(c_p, am_clock_service, am_timeout, NULL);
}
c_p->flags &= ~F_TIMO;
JOIN_MESSAGE(c_p);
}
void hipe_atomic_inc(int *counter)
{
erts_smp_atomic_inc_nob((erts_smp_atomic_t*)counter);
}
#endif
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