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//////////////////////////////////////////////////////////////////////// // $Id: iret.cc 11106 2012-03-25 11:54:32Z sshwarts $ ///////////////////////////////////////////////////////////////////////// // // Copyright (c) 2005-2012 Stanislav Shwartsman // Written by Stanislav Shwartsman [sshwarts at sourceforge net] // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA B 02110-1301 USA // ///////////////////////////////////////////////////////////////////////// #define NEED_CPU_REG_SHORTCUTS 1 #include "bochs.h" #include "cpu.h" #define LOG_THIS BX_CPU_THIS_PTR void BX_CPP_AttrRegparmN(1) BX_CPU_C::iret_protected(bxInstruction_c *i) { Bit16u raw_cs_selector, raw_ss_selector; bx_selector_t cs_selector, ss_selector; Bit32u dword1, dword2; bx_descriptor_t cs_descriptor, ss_descriptor; #if BX_SUPPORT_X86_64 if (long_mode()) { long_iret(i); return; } #endif if (BX_CPU_THIS_PTR get_NT()) /* NT = 1: RETURN FROM NESTED TASK */ { /* what's the deal with NT & VM ? */ Bit16u raw_link_selector; bx_selector_t link_selector; bx_descriptor_t tss_descriptor; if (BX_CPU_THIS_PTR get_VM()) BX_PANIC(("iret_protected: VM sholdn't be set here !")); BX_DEBUG(("IRET: nested task return")); if (BX_CPU_THIS_PTR tr.cache.valid==0) BX_PANIC(("IRET: TR not valid")); // examine back link selector in TSS addressed by current TR raw_link_selector = system_read_word(BX_CPU_THIS_PTR tr.cache.u.segment.base); // must specify global, else #TS(new TSS selector) parse_selector(raw_link_selector, &link_selector); if (link_selector.ti) { BX_ERROR(("iret: link selector.ti=1")); exception(BX_TS_EXCEPTION, raw_link_selector & 0xfffc); } // index must be within GDT limits, else #TS(new TSS selector) fetch_raw_descriptor(&link_selector, &dword1, &dword2, BX_TS_EXCEPTION); // AR byte must specify TSS, else #TS(new TSS selector) // new TSS must be busy, else #TS(new TSS selector) parse_descriptor(dword1, dword2, &tss_descriptor); if (tss_descriptor.valid==0 || tss_descriptor.segment) { BX_ERROR(("iret: TSS selector points to bad TSS")); exception(BX_TS_EXCEPTION, raw_link_selector & 0xfffc); } if (tss_descriptor.type != BX_SYS_SEGMENT_BUSY_286_TSS && tss_descriptor.type != BX_SYS_SEGMENT_BUSY_386_TSS) { BX_ERROR(("iret: TSS selector points to bad TSS")); exception(BX_TS_EXCEPTION, raw_link_selector & 0xfffc); } // TSS must be present, else #NP(new TSS selector) if (! IS_PRESENT(tss_descriptor)) { BX_ERROR(("iret: task descriptor.p == 0")); exception(BX_NP_EXCEPTION, raw_link_selector & 0xfffc); } // switch tasks (without nesting) to TSS specified by back link selector task_switch(i, &link_selector, &tss_descriptor, BX_TASK_FROM_IRET, dword1, dword2); return; } /* NT = 0: INTERRUPT RETURN ON STACK -or STACK_RETURN_TO_V86 */ unsigned top_nbytes_same; Bit32u new_eip = 0, new_esp, temp_ESP, new_eflags = 0; Bit16u new_ip = 0, new_flags = 0; /* 16bit opsize | 32bit opsize * ============================== * SS eSP+8 | SS eSP+16 * SP eSP+6 | ESP eSP+12 * ------------------------------- * FLAGS eSP+4 | EFLAGS eSP+8 * CS eSP+2 | CS eSP+4 * IP eSP+0 | EIP eSP+0 */ if (i->os32L()) { top_nbytes_same = 12; } else { top_nbytes_same = 6; } if (BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.d_b) temp_ESP = ESP; else temp_ESP = SP; if (i->os32L()) { new_eflags = stack_read_dword(temp_ESP + 8); raw_cs_selector = (Bit16u) stack_read_dword(temp_ESP + 4); new_eip = stack_read_dword(temp_ESP + 0); // if VM=1 in flags image on stack then STACK_RETURN_TO_V86 if (new_eflags & EFlagsVMMask) { if (CPL == 0) { stack_return_to_v86(new_eip, raw_cs_selector, new_eflags); return; } else BX_INFO(("iret: VM set on stack, CPL!=0")); } } else { new_flags = stack_read_word(temp_ESP + 4); raw_cs_selector = stack_read_word(temp_ESP + 2); new_ip = stack_read_word(temp_ESP + 0); } parse_selector(raw_cs_selector, &cs_selector); // return CS selector must be non-null, else #GP(0) if ((raw_cs_selector & 0xfffc) == 0) { BX_ERROR(("iret: return CS selector null")); exception(BX_GP_EXCEPTION, 0); } // selector index must be within descriptor table limits, // else #GP(return selector) fetch_raw_descriptor(&cs_selector, &dword1, &dword2, BX_GP_EXCEPTION); parse_descriptor(dword1, dword2, &cs_descriptor); // return CS selector RPL must be >= CPL, else #GP(return selector) if (cs_selector.rpl < CPL) { BX_ERROR(("iret: return selector RPL < CPL")); exception(BX_GP_EXCEPTION, raw_cs_selector & 0xfffc); } // check code-segment descriptor check_cs(&cs_descriptor, raw_cs_selector, 0, cs_selector.rpl); if (cs_selector.rpl == CPL) { /* INTERRUPT RETURN TO SAME LEVEL */ /* top 6/12 bytes on stack must be within limits, else #SS(0) */ /* satisfied above */ if (i->os32L()) { /* load CS-cache with new code segment descriptor */ branch_far32(&cs_selector, &cs_descriptor, new_eip, cs_selector.rpl); // ID,VIP,VIF,AC,VM,RF,x,NT,IOPL,OF,DF,IF,TF,SF,ZF,x,AF,x,PF,x,CF Bit32u changeMask = EFlagsOSZAPCMask | EFlagsTFMask | EFlagsDFMask | EFlagsNTMask | EFlagsRFMask; #if BX_CPU_LEVEL >= 4 changeMask |= (EFlagsIDMask | EFlagsACMask); // ID/AC #endif if (CPL <= BX_CPU_THIS_PTR get_IOPL()) changeMask |= EFlagsIFMask; if (CPL == 0) changeMask |= EFlagsVIPMask | EFlagsVIFMask | EFlagsIOPLMask; // IF only changed if (CPL <= EFLAGS.IOPL) // VIF, VIP, IOPL only changed if CPL == 0 // VM unaffected writeEFlags(new_eflags, changeMask); } else { /* load CS-cache with new code segment descriptor */ branch_far32(&cs_selector, &cs_descriptor, (Bit32u) new_ip, cs_selector.rpl); /* load flags with third word on stack */ write_flags(new_flags, CPL==0, CPL<=BX_CPU_THIS_PTR get_IOPL()); } /* increment stack by 6/12 */ if (BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.d_b) ESP += top_nbytes_same; else SP += top_nbytes_same; return; } else { /* INTERRUPT RETURN TO OUTER PRIVILEGE LEVEL */ /* 16bit opsize | 32bit opsize * ============================== * SS eSP+8 | SS eSP+16 * SP eSP+6 | ESP eSP+12 * FLAGS eSP+4 | EFLAGS eSP+8 * CS eSP+2 | CS eSP+4 * IP eSP+0 | EIP eSP+0 */ /* examine return SS selector and associated descriptor */ if (i->os32L()) { raw_ss_selector = stack_read_word(temp_ESP + 16); } else { raw_ss_selector = stack_read_word(temp_ESP + 8); } /* selector must be non-null, else #GP(0) */ if ((raw_ss_selector & 0xfffc) == 0) { BX_ERROR(("iret: SS selector null")); exception(BX_GP_EXCEPTION, 0); } parse_selector(raw_ss_selector, &ss_selector); /* selector RPL must = RPL of return CS selector, * else #GP(SS selector) */ if (ss_selector.rpl != cs_selector.rpl) { BX_ERROR(("iret: SS.rpl != CS.rpl")); exception(BX_GP_EXCEPTION, raw_ss_selector & 0xfffc); } /* selector index must be within its descriptor table limits, * else #GP(SS selector) */ fetch_raw_descriptor(&ss_selector, &dword1, &dword2, BX_GP_EXCEPTION); parse_descriptor(dword1, dword2, &ss_descriptor); /* AR byte must indicate a writable data segment, * else #GP(SS selector) */ if (ss_descriptor.valid==0 || ss_descriptor.segment==0 || IS_CODE_SEGMENT(ss_descriptor.type) || !IS_DATA_SEGMENT_WRITEABLE(ss_descriptor.type)) { BX_ERROR(("iret: SS AR byte not writable or code segment")); exception(BX_GP_EXCEPTION, raw_ss_selector & 0xfffc); } /* stack segment DPL must equal the RPL of the return CS selector, * else #GP(SS selector) */ if (ss_descriptor.dpl != cs_selector.rpl) { BX_ERROR(("iret: SS.dpl != CS selector RPL")); exception(BX_GP_EXCEPTION, raw_ss_selector & 0xfffc); } /* SS must be present, else #NP(SS selector) */ if (! IS_PRESENT(ss_descriptor)) { BX_ERROR(("iret: SS not present!")); exception(BX_NP_EXCEPTION, raw_ss_selector & 0xfffc); } if (i->os32L()) { new_esp = stack_read_dword(temp_ESP + 12); new_eflags = stack_read_dword(temp_ESP + 8); new_eip = stack_read_dword(temp_ESP + 0); } else { new_esp = stack_read_word(temp_ESP + 6); new_eflags = stack_read_word(temp_ESP + 4); new_eip = stack_read_word(temp_ESP + 0); } // ID,VIP,VIF,AC,VM,RF,x,NT,IOPL,OF,DF,IF,TF,SF,ZF,x,AF,x,PF,x,CF Bit32u changeMask = EFlagsOSZAPCMask | EFlagsTFMask | EFlagsDFMask | EFlagsNTMask | EFlagsRFMask; #if BX_CPU_LEVEL >= 4 changeMask |= (EFlagsIDMask | EFlagsACMask); // ID/AC #endif if (CPL <= BX_CPU_THIS_PTR get_IOPL()) changeMask |= EFlagsIFMask; if (CPL == 0) changeMask |= EFlagsVIPMask | EFlagsVIFMask | EFlagsIOPLMask; if (! i->os32L()) // 16 bit changeMask &= 0xffff; /* load CS:EIP from stack */ /* load the CS-cache with CS descriptor */ /* set CPL to the RPL of the return CS selector */ branch_far32(&cs_selector, &cs_descriptor, new_eip, cs_selector.rpl); // IF only changed if (prev_CPL <= EFLAGS.IOPL) // VIF, VIP, IOPL only changed if prev_CPL == 0 // VM unaffected writeEFlags(new_eflags, changeMask); // load SS:eSP from stack // load the SS-cache with SS descriptor load_ss(&ss_selector, &ss_descriptor, cs_selector.rpl); if (ss_descriptor.u.segment.d_b) ESP = new_esp; else SP = new_esp; validate_seg_regs(); } } #if BX_SUPPORT_X86_64 void BX_CPP_AttrRegparmN(1) BX_CPU_C::long_iret(bxInstruction_c *i) { Bit16u raw_cs_selector, raw_ss_selector; bx_selector_t cs_selector, ss_selector; Bit32u dword1, dword2; bx_descriptor_t cs_descriptor, ss_descriptor; Bit32u new_eflags; Bit64u new_rip, new_rsp, temp_RSP; BX_DEBUG (("LONG MODE IRET")); if (BX_CPU_THIS_PTR get_NT()) { BX_ERROR(("iret64: return from nested task in x86-64 mode !")); exception(BX_GP_EXCEPTION, 0); } /* 64bit opsize * ============ * SS eSP+32 * ESP eSP+24 * ------------- * EFLAGS eSP+16 * CS eSP+8 * EIP eSP+0 */ if (long64_mode()) temp_RSP = RSP; else { if (BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.d_b) temp_RSP = ESP; else temp_RSP = SP; } unsigned top_nbytes_same = 0; /* stop compiler warnings */ #if BX_SUPPORT_X86_64 if (i->os64L()) { new_eflags = (Bit32u) stack_read_qword(temp_RSP + 16); raw_cs_selector = (Bit16u) stack_read_qword(temp_RSP + 8); new_rip = stack_read_qword(temp_RSP + 0); top_nbytes_same = 24; } else #endif if (i->os32L()) { new_eflags = stack_read_dword(temp_RSP + 8); raw_cs_selector = (Bit16u) stack_read_dword(temp_RSP + 4); new_rip = (Bit64u) stack_read_dword(temp_RSP + 0); top_nbytes_same = 12; } else { new_eflags = stack_read_word(temp_RSP + 4); raw_cs_selector = stack_read_word(temp_RSP + 2); new_rip = (Bit64u) stack_read_word(temp_RSP + 0); top_nbytes_same = 6; } // ignore VM flag in long mode new_eflags &= ~EFlagsVMMask; parse_selector(raw_cs_selector, &cs_selector); // return CS selector must be non-null, else #GP(0) if ((raw_cs_selector & 0xfffc) == 0) { BX_ERROR(("iret64: return CS selector null")); exception(BX_GP_EXCEPTION, 0); } // selector index must be within descriptor table limits, // else #GP(return selector) fetch_raw_descriptor(&cs_selector, &dword1, &dword2, BX_GP_EXCEPTION); parse_descriptor(dword1, dword2, &cs_descriptor); // return CS selector RPL must be >= CPL, else #GP(return selector) if (cs_selector.rpl < CPL) { BX_ERROR(("iret64: return selector RPL < CPL")); exception(BX_GP_EXCEPTION, raw_cs_selector & 0xfffc); } // check code-segment descriptor check_cs(&cs_descriptor, raw_cs_selector, 0, cs_selector.rpl); /* INTERRUPT RETURN TO SAME PRIVILEGE LEVEL */ if (cs_selector.rpl == CPL && !i->os64L()) { /* top 24 bytes on stack must be within limits, else #SS(0) */ /* satisfied above */ /* load CS:EIP from stack */ /* load CS-cache with new code segment descriptor */ if(cs_descriptor.u.segment.l) { branch_far64(&cs_selector, &cs_descriptor, new_rip, CPL); } else { branch_far32(&cs_selector, &cs_descriptor, (Bit32u) new_rip, CPL); } // ID,VIP,VIF,AC,VM,RF,x,NT,IOPL,OF,DF,IF,TF,SF,ZF,x,AF,x,PF,x,CF Bit32u changeMask = EFlagsOSZAPCMask | EFlagsTFMask | EFlagsDFMask | EFlagsNTMask | EFlagsRFMask | EFlagsIDMask | EFlagsACMask; if (CPL <= BX_CPU_THIS_PTR get_IOPL()) changeMask |= EFlagsIFMask; if (CPL == 0) changeMask |= EFlagsVIPMask | EFlagsVIFMask | EFlagsIOPLMask; if (! i->os32L()) // 16 bit changeMask &= 0xffff; // IF only changed if (CPL <= EFLAGS.IOPL) // VIF, VIP, IOPL only changed if CPL == 0 // VM unaffected writeEFlags(new_eflags, changeMask); /* we are NOT in 64-bit mode */ if (BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS].cache.u.segment.d_b) ESP += top_nbytes_same; else SP += top_nbytes_same; } else { /* INTERRUPT RETURN TO OUTER PRIVILEGE LEVEL or 64 BIT MODE */ /* 64bit opsize * ============ * SS eSP+32 * ESP eSP+24 * EFLAGS eSP+16 * CS eSP+8 * EIP eSP+0 */ /* examine return SS selector and associated descriptor */ #if BX_SUPPORT_X86_64 if (i->os64L()) { raw_ss_selector = (Bit16u) stack_read_qword(temp_RSP + 32); new_rsp = stack_read_qword(temp_RSP + 24); } else #endif { if (i->os32L()) { raw_ss_selector = (Bit16u) stack_read_dword(temp_RSP + 16); new_rsp = (Bit64u) stack_read_dword(temp_RSP + 12); } else { raw_ss_selector = stack_read_word(temp_RSP + 8); new_rsp = (Bit64u) stack_read_word(temp_RSP + 6); } } if ((raw_ss_selector & 0xfffc) == 0) { if (! IS_LONG64_SEGMENT(cs_descriptor) || cs_selector.rpl == 3) { BX_ERROR(("iret64: SS selector null")); exception(BX_GP_EXCEPTION, 0); } } else { parse_selector(raw_ss_selector, &ss_selector); /* selector RPL must = RPL of return CS selector, * else #GP(SS selector) */ if (ss_selector.rpl != cs_selector.rpl) { BX_ERROR(("iret64: SS.rpl != CS.rpl")); exception(BX_GP_EXCEPTION, raw_ss_selector & 0xfffc); } /* selector index must be within its descriptor table limits, * else #GP(SS selector) */ fetch_raw_descriptor(&ss_selector, &dword1, &dword2, BX_GP_EXCEPTION); parse_descriptor(dword1, dword2, &ss_descriptor); /* AR byte must indicate a writable data segment, * else #GP(SS selector) */ if (ss_descriptor.valid==0 || ss_descriptor.segment==0 || IS_CODE_SEGMENT(ss_descriptor.type) || !IS_DATA_SEGMENT_WRITEABLE(ss_descriptor.type)) { BX_ERROR(("iret64: SS AR byte not writable or code segment")); exception(BX_GP_EXCEPTION, raw_ss_selector & 0xfffc); } /* stack segment DPL must equal the RPL of the return CS selector, * else #GP(SS selector) */ if (ss_descriptor.dpl != cs_selector.rpl) { BX_ERROR(("iret64: SS.dpl != CS selector RPL")); exception(BX_GP_EXCEPTION, raw_ss_selector & 0xfffc); } /* SS must be present, else #NP(SS selector) */ if (! IS_PRESENT(ss_descriptor)) { BX_ERROR(("iret64: SS not present!")); exception(BX_NP_EXCEPTION, raw_ss_selector & 0xfffc); } } Bit8u prev_cpl = CPL; /* previous CPL */ // ID,VIP,VIF,AC,VM,RF,x,NT,IOPL,OF,DF,IF,TF,SF,ZF,x,AF,x,PF,x,CF Bit32u changeMask = EFlagsOSZAPCMask | EFlagsTFMask | EFlagsDFMask | EFlagsNTMask | EFlagsRFMask | EFlagsIDMask | EFlagsACMask; if (prev_cpl <= BX_CPU_THIS_PTR get_IOPL()) changeMask |= EFlagsIFMask; if (prev_cpl == 0) changeMask |= EFlagsVIPMask | EFlagsVIFMask | EFlagsIOPLMask; if (! i->os32L()) // 16 bit changeMask &= 0xffff; /* set CPL to the RPL of the return CS selector */ branch_far64(&cs_selector, &cs_descriptor, new_rip, cs_selector.rpl); // IF only changed if (prev_CPL <= EFLAGS.IOPL) // VIF, VIP, IOPL only changed if prev_CPL == 0 // VM unaffected writeEFlags(new_eflags, changeMask); if ((raw_ss_selector & 0xfffc) != 0) { // load SS:RSP from stack // load the SS-cache with SS descriptor load_ss(&ss_selector, &ss_descriptor, cs_selector.rpl); } else { // we are in 64-bit mode ! load_null_selector(&BX_CPU_THIS_PTR sregs[BX_SEG_REG_SS], raw_ss_selector); } if (long64_mode()) RSP = new_rsp; else { if (ss_descriptor.u.segment.d_b) ESP = (Bit32u) new_rsp; else SP = (Bit16u) new_rsp; } if (prev_cpl != CPL) validate_seg_regs(); } } #endif