gpointer mono_arch_create_specific_trampoline (gpointer arg1, MonoTrampolineType tramp_type, MonoDomain *domain, guint32 *code_len) { guint8 *buf, *tramp; gint64 disp; Ia64CodegenState code; tramp = mono_get_trampoline_code (tramp_type); buf = mono_domain_code_reserve (domain, TRAMPOLINE_SIZE); /* FIXME: Optimize this */ ia64_codegen_init (code, buf); ia64_movl (code, GP_SCRATCH_REG, arg1); ia64_begin_bundle (code); disp = (tramp - code.buf) >> 4; if (ia64_is_imm21 (disp)) { ia64_br_cond (code, disp); } else { ia64_movl (code, GP_SCRATCH_REG2, tramp); ia64_mov_to_br (code, IA64_B6, GP_SCRATCH_REG2); ia64_br_cond_reg (code, IA64_B6); } ia64_codegen_close (code); g_assert (code.buf - buf <= TRAMPOLINE_SIZE); mono_arch_flush_icache (buf, code.buf - buf); if (code_len) *code_len = code.buf - buf; return buf; }
static gpointer get_real_call_filter (void) { static gpointer filter; static gboolean inited = FALSE; guint8 *start; Ia64CodegenState code; int in0, local0, out0, nout; unw_dyn_info_t *di; unw_dyn_region_info_t *r_pro, *r_body, *r_epilog; if (inited) return filter; start = mono_global_codeman_reserve (1024); /* int call_filter (guint64 fp, guint64 ip) */ /* * We have to create a register+stack frame similar to the frame which * contains the filter. * - setting fp * - setting up a register stack frame * These cannot be set up in this function, because the fp register is a * stacked register which is different in each method. Also, the register * stack frame is different in each method. So we pass the FP value in a a * non-stacked register and the code generated by the OP_START_HANDLER * opcode will copy it to the appropriate register after setting up the * register stack frame. * The stacked registers are not need to be set since variables used in * handler regions are never allocated to registers. */ in0 = 32; local0 = in0 + 2; out0 = local0 + 4; nout = 0; ia64_codegen_init (code, start); ia64_codegen_set_one_ins_per_bundle (code, TRUE); ia64_unw_save_reg (code, UNW_IA64_AR_PFS, UNW_IA64_GR + local0 + 0); ia64_alloc (code, local0 + 0, local0 - in0, out0 - local0, nout, 0); ia64_unw_save_reg (code, UNW_IA64_RP, UNW_IA64_GR + local0 + 1); ia64_mov_from_br (code, local0 + 1, IA64_B0); ia64_begin_bundle (code); r_pro = mono_ia64_create_unwind_region (&code); /* Frame pointer */ ia64_mov (code, IA64_R15, in0 + 0); /* Target ip */ ia64_mov_to_br (code, IA64_B6, in0 + 1); /* Call the filter */ ia64_br_call_reg (code, IA64_B0, IA64_B6); /* R8 contains the result of the filter */ /* FIXME: Add unwind info for this */ ia64_begin_bundle (code); r_body = mono_ia64_create_unwind_region (&code); r_pro->next = r_body; ia64_mov_to_ar_i (code, IA64_PFS, local0 + 0); ia64_mov_ret_to_br (code, IA64_B0, local0 + 1); ia64_br_ret_reg (code, IA64_B0); ia64_begin_bundle (code); r_epilog = mono_ia64_create_unwind_region (&code); r_body->next = r_epilog; ia64_codegen_set_one_ins_per_bundle (code, FALSE); ia64_codegen_close (code); g_assert ((code.buf - start) <= 256); mono_arch_flush_icache (start, code.buf - start); di = g_malloc0 (sizeof (unw_dyn_info_t)); di->start_ip = (unw_word_t) start; di->end_ip = (unw_word_t) code.buf; di->gp = 0; di->format = UNW_INFO_FORMAT_DYNAMIC; di->u.pi.name_ptr = (unw_word_t)"throw_trampoline"; di->u.pi.regions = r_body; _U_dyn_register (di); filter = ia64_create_ftnptr (start); inited = TRUE; return filter; }
guchar* mono_arch_create_generic_trampoline (MonoTrampolineType tramp_type, MonoTrampInfo **info, gboolean aot) { guint8 *buf, *tramp; int i, offset, saved_regs_offset, saved_fpregs_offset, last_offset, framesize; int in0, local0, out0, l0, l1, l2, l3, l4, l5, l6, l7, l8, o0, o1, o2, o3; gboolean has_caller; Ia64CodegenState code; unw_dyn_info_t *di; unw_dyn_region_info_t *r_pro; g_assert (!aot); *info = NULL; /* * Since jump trampolines are not patched, this trampoline is executed every * time a call is made to a jump trampoline. So we try to keep things faster * in that case. */ if (tramp_type == MONO_TRAMPOLINE_JUMP) has_caller = FALSE; else has_caller = TRUE; buf = mono_global_codeman_reserve (2048); ia64_codegen_init (code, buf); /* Stacked Registers */ in0 = 32; local0 = in0 + 8; out0 = local0 + 16; l0 = 40; l1 = 41; l2 = 42; l3 = 43; l4 = 44; l5 = 45; /* saved ar.pfs */ l6 = 46; /* arg */ l7 = 47; /* code */ l8 = 48; /* saved sp */ o0 = out0 + 0; /* regs */ o1 = out0 + 1; /* code */ o2 = out0 + 2; /* arg */ o3 = out0 + 3; /* tramp */ framesize = (128 * 8) + 1024; framesize = (framesize + (MONO_ARCH_FRAME_ALIGNMENT - 1)) & ~ (MONO_ARCH_FRAME_ALIGNMENT - 1); /* * Allocate a new register+memory stack frame. * 8 input registers (the max used by the ABI) * 16 locals * 4 output (number of parameters passed to trampoline) */ ia64_unw_save_reg (code, UNW_IA64_AR_PFS, UNW_IA64_GR + l5); ia64_alloc (code, l5, local0 - in0, out0 - local0, 4, 0); ia64_unw_save_reg (code, UNW_IA64_SP, UNW_IA64_GR + l8); ia64_mov (code, l8, IA64_SP); ia64_adds_imm (code, IA64_SP, (-framesize), IA64_SP); offset = 16; /* scratch area */ /* Save the argument received from the specific trampoline */ ia64_mov (code, l6, GP_SCRATCH_REG); /* Save the calling address */ ia64_unw_save_reg (code, UNW_IA64_RP, UNW_IA64_GR + local0 + 7); ia64_mov_from_br (code, l7, IA64_B0); /* Create unwind info for the prolog */ ia64_begin_bundle (code); r_pro = mono_ia64_create_unwind_region (&code); /* Save registers */ /* Not needed for jump trampolines */ if (tramp_type != MONO_TRAMPOLINE_JUMP) { saved_regs_offset = offset; offset += 128 * 8; /* * Only the registers which are needed for computing vtable slots need * to be saved. */ last_offset = -1; for (i = 0; i < 64; ++i) if ((1 << i) & MONO_ARCH_CALLEE_REGS) { if (last_offset != i * 8) ia64_adds_imm (code, l1, saved_regs_offset + (i * 8), IA64_SP); ia64_st8_spill_inc_imm_hint (code, l1, i, 8, 0); last_offset = (i + 1) * 8; } } /* Save fp registers */ saved_fpregs_offset = offset; offset += 8 * 8; ia64_adds_imm (code, l1, saved_fpregs_offset, IA64_SP); for (i = 0; i < 8; ++i) ia64_stfd_inc_imm_hint (code, l1, i + 8, 8, 0); g_assert (offset < framesize); /* Arg1 is the pointer to the saved registers */ ia64_adds_imm (code, o0, saved_regs_offset, IA64_SP); /* Arg2 is the address of the calling code */ if (has_caller) ia64_mov (code, o1, l7); else ia64_mov (code, o1, 0); /* Arg3 is the method/vtable ptr */ ia64_mov (code, o2, l6); /* Arg4 is the trampoline address */ /* FIXME: */ ia64_mov (code, o3, 0); tramp = (guint8*)mono_get_trampoline_func (tramp_type); /* Call the trampoline using an indirect call */ ia64_movl (code, l0, tramp); ia64_ld8_inc_imm (code, l1, l0, 8); ia64_mov_to_br (code, IA64_B6, l1); ia64_ld8 (code, IA64_GP, l0); ia64_br_call_reg (code, 0, IA64_B6); /* Check for thread interruption */ /* This is not perf critical code so no need to check the interrupt flag */ ia64_mov (code, l2, IA64_R8); tramp = (guint8*)mono_thread_force_interruption_checkpoint; ia64_movl (code, l0, tramp); ia64_ld8_inc_imm (code, l1, l0, 8); ia64_mov_to_br (code, IA64_B6, l1); ia64_ld8 (code, IA64_GP, l0); ia64_br_call_reg (code, 0, IA64_B6); ia64_mov (code, IA64_R8, l2); /* Restore fp regs */ ia64_adds_imm (code, l1, saved_fpregs_offset, IA64_SP); for (i = 0; i < 8; ++i) ia64_ldfd_inc_imm (code, i + 8, l1, 8); /* FIXME: Handle NATs in fp regs / scratch regs */ if (tramp_type != MONO_TRAMPOLINE_CLASS_INIT) { /* Load method address from function descriptor */ ia64_ld8 (code, l0, IA64_R8); ia64_mov_to_br (code, IA64_B6, l0); } /* Clean up register/memory stack frame */ ia64_adds_imm (code, IA64_SP, framesize, IA64_SP); ia64_mov_to_ar_i (code, IA64_PFS, l5); if (tramp_type == MONO_TRAMPOLINE_CLASS_INIT) { ia64_mov_ret_to_br (code, IA64_B0, l7); ia64_br_ret_reg (code, IA64_B0); } else { /* Call the compiled method */ ia64_mov_to_br (code, IA64_B0, l7); ia64_br_cond_reg (code, IA64_B6); } ia64_codegen_close (code); g_assert ((code.buf - buf) <= 2048); /* FIXME: emit unwind info for epilog */ di = g_malloc0 (sizeof (unw_dyn_info_t)); di->start_ip = (unw_word_t) buf; di->end_ip = (unw_word_t) code.buf; di->gp = 0; di->format = UNW_INFO_FORMAT_DYNAMIC; di->u.pi.name_ptr = (unw_word_t)"ia64_generic_trampoline"; di->u.pi.regions = r_pro; _U_dyn_register (di); mono_arch_flush_icache (buf, code.buf - buf); return buf; }