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ruby--ruby/yjit.c

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// YJIT combined compilation unit. This setup allows spreading functions
// across different files without having to worry about putting things
// in headers and prefixing function names.
#include "internal.h"
#include "vm_core.h"
#include "vm_callinfo.h"
#include "builtin.h"
#include "insns.inc"
#include "insns_info.inc"
#include "vm_sync.h"
#include "yjit.h"
#ifndef YJIT_CHECK_MODE
# define YJIT_CHECK_MODE 0
#endif
// >= 1: print when output code invalidation happens
// >= 2: dump list of instructions when regions compile
#ifndef YJIT_DUMP_MODE
# define YJIT_DUMP_MODE 0
#endif
// USE_MJIT comes from configure options
#define JIT_ENABLED USE_MJIT
// Check if we need to include YJIT in the build
#if JIT_ENABLED && YJIT_SUPPORTED_P
#include "yjit_asm.c"
// Code block into which we write machine code
static codeblock_t block;
static codeblock_t *cb = NULL;
// Code block into which we write out-of-line machine code
static codeblock_t outline_block;
static codeblock_t *ocb = NULL;
#if YJIT_STATS
// Comments for generated code
struct yjit_comment {
uint32_t offset;
const char *comment;
};
typedef rb_darray(struct yjit_comment) yjit_comment_array_t;
static yjit_comment_array_t yjit_code_comments;
// Counters for generated code
#define YJIT_DECLARE_COUNTERS(...) struct rb_yjit_runtime_counters { \
int64_t __VA_ARGS__; \
}; \
static char yjit_counter_names[] = #__VA_ARGS__;
YJIT_DECLARE_COUNTERS(
exec_instruction,
send_keywords,
send_kw_splat,
send_args_splat,
send_block_arg,
send_ivar_set_method,
send_zsuper_method,
send_undef_method,
send_optimized_method,
send_optimized_method_send,
send_optimized_method_call,
send_optimized_method_block_call,
send_missing_method,
send_bmethod,
send_refined_method,
send_cfunc_ruby_array_varg,
send_cfunc_argc_mismatch,
send_cfunc_toomany_args,
send_cfunc_tracing,
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send_cfunc_kwargs,
send_attrset_kwargs,
send_iseq_tailcall,
send_iseq_arity_error,
send_iseq_only_keywords,
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send_iseq_kwargs_req_and_opt_missing,
send_iseq_kwargs_mismatch,
send_iseq_complex_callee,
send_not_implemented_method,
send_getter_arity,
send_se_cf_overflow,
send_se_protected_check_failed,
traced_cfunc_return,
invokesuper_me_changed,
invokesuper_block,
leave_se_interrupt,
leave_interp_return,
leave_start_pc_non_zero,
getivar_se_self_not_heap,
getivar_idx_out_of_range,
getivar_megamorphic,
setivar_se_self_not_heap,
setivar_idx_out_of_range,
setivar_val_heapobject,
setivar_name_not_mapped,
setivar_not_object,
setivar_frozen,
oaref_argc_not_one,
oaref_arg_not_fixnum,
opt_getinlinecache_miss,
binding_allocations,
binding_set,
vm_insns_count,
compiled_iseq_count,
compiled_block_count,
compilation_failure,
YJIT: Add ability to exit to interpreter from stubs Previously, YJIT assumed that it's always possible to generate a new basic block when servicing a stub in branch_stub_hit(). When YJIT is out of executable memory, for example, this assumption doesn't hold up. Add handling to branch_stub_hit() for servicing stubs without consuming more executable memory by adding a code path that exits to the interpreter at the location the branch stub represents. The new code path reconstructs interpreter state in branch_stub_hit() and then exits with a new snippet called `code_for_exit_from_stub` that returns `Qundef` from the YJIT native stack frame. As this change adds another place where we regenerate code from `branch_t`, extract the logic for it into a new function and call it regenerate_branch(). While we are at it, make the branch shrinking code path in branch_stub_hit() more explicit. This new functionality is hard to test without full support for out of memory conditions. To verify this change, I ran `RUBY_YJIT_ENABLE=1 make check -j12` with the following patch to stress test the new code path: ```diff diff --git a/yjit_core.c b/yjit_core.c index 4ab63d9806..5788b8c5ed 100644 --- a/yjit_core.c +++ b/yjit_core.c @@ -878,8 +878,12 @@ branch_stub_hit(branch_t *branch, const uint32_t target_idx, rb_execution_contex cb_set_write_ptr(cb, branch->end_addr); } +if (rand() < RAND_MAX/2) { // Compile the new block version p_block = gen_block_version(target, target_ctx, ec); +}else{ + p_block = NULL; +} if (!p_block && branch_modified) { // We couldn't generate a new block for the branch, but we modified the branch. ``` We can enable the new test along with other OOM tests once full support lands. Other small changes: * yjit_utils.c (print_str): Update to work with new native frame shape. Follow up for 8fa0ee4d404. * yjit_iface.c (rb_yjit_init): Run yjit_init_core() after yjit_init_codegen() so `cb` and `ocb` are available.
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exit_from_branch_stub,
invalidation_count,
invalidate_method_lookup,
invalidate_bop_redefined,
invalidate_ractor_spawn,
invalidate_constant_state_bump,
invalidate_constant_ic_fill,
constant_state_bumps,
expandarray_splat,
expandarray_postarg,
expandarray_not_array,
expandarray_rhs_too_small,
gbpp_block_param_modified,
gbpp_block_handler_not_iseq,
// Member with known name for iterating over counters
last_member
)
static struct rb_yjit_runtime_counters yjit_runtime_counters = { 0 };
#undef YJIT_DECLARE_COUNTERS
#endif // YJIT_STATS
// The number of bytes counting from the beginning of the inline code block
// that should not be changed. After patching for global invalidation, no one
// should make changes to the invalidated code region anymore. This is used to
// break out of invalidation race when there are multiple ractors.
static uint32_t yjit_codepage_frozen_bytes = 0;
#include "yjit_utils.c"
#include "yjit_core.c"
#include "yjit_iface.c"
#include "yjit_codegen.c"
#else
// !JIT_ENABLED || !YJIT_SUPPORTED_P
// In these builds, YJIT could never be turned on. Provide dummy
// implementations for YJIT functions exposed to the rest of the code base.
// See yjit.h.
void Init_builtin_yjit(void) {}
bool rb_yjit_enabled_p(void) { return false; }
unsigned rb_yjit_call_threshold(void) { return UINT_MAX; }
void rb_yjit_invalidate_all_method_lookup_assumptions(void) {};
void rb_yjit_method_lookup_change(VALUE klass, ID mid) {};
void rb_yjit_cme_invalidate(VALUE cme) {}
void rb_yjit_collect_vm_usage_insn(int insn) {}
void rb_yjit_collect_binding_alloc(void) {}
void rb_yjit_collect_binding_set(void) {}
bool rb_yjit_compile_iseq(const rb_iseq_t *iseq, rb_execution_context_t *ec) { return false; }
void rb_yjit_init(struct rb_yjit_options *options) {}
void rb_yjit_bop_redefined(VALUE klass, const rb_method_entry_t *me, enum ruby_basic_operators bop) {}
void rb_yjit_constant_state_changed(void) {}
void rb_yjit_iseq_mark(const struct rb_iseq_constant_body *body) {}
void rb_yjit_iseq_update_references(const struct rb_iseq_constant_body *body) {}
void rb_yjit_iseq_free(const struct rb_iseq_constant_body *body) {}
void rb_yjit_before_ractor_spawn(void) {}
void rb_yjit_constant_ic_update(const rb_iseq_t *const iseq, IC ic) {}
void rb_yjit_tracing_invalidate_all(void) {}
#endif // if JIT_ENABLED && YJIT_SUPPORTED_P