// TITLE("Long Jump") //++ // // Copyright (c) 1993 Microsoft Corporation // Copyright (c) 1993 Digital Equipment Corporation // // Module Name: // // longjmp.s // // Abstract: // // This module implements the Alpha specific routine to perform a long // jump operation. Three jump buffer types are supported: unsafe, safe // acc-style (virtual frame pointer, PC mapped SEH scope), and safe // GEM-style (real frame pointer, SEB-based SEH context). // // N.B. This function has been replaced by setjmp/setjmpex/longjmp in the // C runtime library. It remains here for backwards compatibility of // Beta 2 applications expecting setjmp and longjmp to be present in // ntdll, or for new acc or GEM compiled applications that link with // ntdll before libc. // // Author: // // David N. Cutler (davec) 2-Apr-1993 // // Environment: // // Any mode. // // Revision History: // // Thomas Van Baak (tvb) 22-Apr-1993 // // Adapted for Alpha AXP. // //-- #include "ksalpha.h" // // Define jump buffer types. // // _JMPBUF_TYPE_ZERO was used by the Beta 2 ntdll setjmp and can be handled // the same as _JMPBUF_TYPE_ACC. // // _JMPBUF_TYPE_FAST is for jump buffers containing the set of non-volatile // integer and floating registers. This form of setjmp/longjmp is not // compatible with SEH. It is an order of magnitude faster however. // // _JMPBUF_TYPE_ACC is for setjmp/longjmp compatible with SEH. The Alpha // acc compiler uses a virtual frame pointer, and SEH scope is inferred // from the PC through passive PC-mapping scope tables. // // _JMPBUF_TYPE_GEM is for setjmp/longjmp compatible with SEH. The Alpha // GEM C compiler uses a real frame pointer, and SEH scope is maintained // actively with an SEB pointer. // #define _JMPBUF_TYPE_ZERO 0 #define _JMPBUF_TYPE_FAST 1 #define _JMPBUF_TYPE_ACC 2 #define _JMPBUF_TYPE_GEM 3 SBTTL("Long Jump") //++ // // int // longjmp ( // IN jmp_buf JumpBuffer, // IN int ReturnValue // ) // // Routine Description: // // This function performs a long jump to the context specified by the // jump buffer. // // Arguments: // // JumpBuffer (a0) - Supplies the address of a jump buffer that contains // jump information. // // N.B. This is an array of double's to force quadword alignment. // // ReturnValue (a1) - Supplies the value that is to be returned to the // caller of set jump. // // Return Value: // // None. // //-- LEAF_ENTRY(longjmp) ldil t0, 1 // force nonzero value, if cmoveq a1, t0, a1 // given return value is zero ldl t1, JbType(a0) // get setjmp context type flag subq t1, 1, t2 // if eq 1, fast, unsafe longjmp bne t2, 10f // otherwise, provide safe longjmp // // Type 0x1: Provide unsafe handling of longjmp. // mov a1, v0 // set return value .set noreorder .set noat ldt f2, JbFltF2(a0) // restore floating registers f2 - f9 ldt f3, JbFltF3(a0) // ldt f4, JbFltF4(a0) // ldt f5, JbFltF5(a0) // ldt f6, JbFltF6(a0) // ldt f7, JbFltF7(a0) // ldt f8, JbFltF8(a0) // ldt f9, JbFltF9(a0) // ldq s0, JbIntS0(a0) // restore integer registers s0 - s6/fp ldq s1, JbIntS1(a0) // ldq s2, JbIntS2(a0) // ldq s3, JbIntS3(a0) // ldq s4, JbIntS4(a0) // ldq s5, JbIntS5(a0) // ldq fp, JbIntS6(a0) // .set at .set reorder ldq a1, JbFir(a0) // get setjmp return address ldq sp, JbIntSp(a0) // restore stack pointer jmp zero, (a1) // jump back to setjmp site // // Type 0x0: Provide safe handling of longjmp (idw 404 style). // Type 0x2: Provide safe handling of longjmp (acc style). // 10: bic t1, 0x2, t2 // if 0 or 2, safe acc longjmp bne t2, longjmpRfp // if not, safe GEM longjmp mov a1, a3 // set return value mov zero, a2 // set exception record address ldl a1, JbPc(a0) // set target instruction address ldl a0, JbFp(a0) // set target virtual frame pointer br zero, RtlUnwind // finish in common code .end longjmp SBTTL("Long Jump - GEM") .struct 0 LjRa: .space 8 // saved return address .space 8 // padding for 16-byte stack alignment LjEr: .space ExceptionRecordLength // local exception record LongjmpFrameLength: // // Type 0x3: Provide safe handling of longjmp (GEM style). // NESTED_ENTRY(longjmpRfp, LongjmpFrameLength, ra) lda sp, -LongjmpFrameLength(sp) // allocate stack frame stq ra, LjRa(sp) // save return address PROLOGUE_END // // The SEB is passed to the GEM exception handler through an exception // record. Set up the following local exception record: // // ExceptionRecord.ExceptionCode = STATUS_UNWIND; // ExceptionRecord.ExceptionFlags = EXCEPTION_UNWINDING; // ExceptionRecord.ExceptionRecord = NULL; // ExceptionRecord.ExceptionAddress = 0; // ExceptionRecord.NumberParameters = 1; // ExceptionRecord.ExceptionInformation[0] = Seb; // 10: mov a1, a3 // set return value lda a2, LjEr(sp) // set exception record address ldil t0, STATUS_UNWIND // get status code stl t0, ErExceptionCode(a2) // store in exception record ldil t1, EXCEPTION_UNWINDING // get exception flags stl t1, ErExceptionFlags(a2) // store in exception record stl zero, ErExceptionRecord(a2) // clear indirect exception record stl zero, ErExceptionAddress(a2) // clear exception address ldil t2, 1 // get number of parameters stl t2, ErNumberParameters(a2) // store in exception record ldl t3, JbSeb(a0) // get SEB pointer stl t3, ErExceptionInformation(a2) // store in exception record ldl a1, JbPc(a0) // set target instruction address ldl a0, JbFp(a0) // set target real frame pointer bsr ra, RtlUnwindRfp // finish in common code .end longjmpRfp