~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ MOTOROLA MICROPROCESSOR & MEMORY TECHNOLOGY GROUP M68000 Hi-Performance Microprocessor Division M68060 Software Package Production Release P1.00 -- October 10, 1994 M68060 Software Package Copyright © 1993, 1994 Motorola Inc. All rights reserved. THE SOFTWARE is provided on an "AS IS" basis and without warranty. To the maximum extent permitted by applicable law, MOTOROLA DISCLAIMS ALL WARRANTIES WHETHER EXPRESS OR IMPLIED, INCLUDING IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE and any warranty against infringement with regard to the SOFTWARE (INCLUDING ANY MODIFIED VERSIONS THEREOF) and any accompanying written materials. To the maximum extent permitted by applicable law, IN NO EVENT SHALL MOTOROLA BE LIABLE FOR ANY DAMAGES WHATSOEVER (INCLUDING WITHOUT LIMITATION, DAMAGES FOR LOSS OF BUSINESS PROFITS, BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION, OR OTHER PECUNIARY LOSS) ARISING OF THE USE OR INABILITY TO USE THE SOFTWARE. Motorola assumes no responsibility for the maintenance and support of the SOFTWARE. You are hereby granted a copyright license to use, modify, and distribute the SOFTWARE so long as this entire notice is retained without alteration in any modified and/or redistributed versions, and that such modified versions are clearly identified as such. No licenses are granted by implication, estoppel or otherwise under any patents or trademarks of Motorola, Inc. ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 68060 INTEGER SOFTWARE PACKAGE (Library version) ------------------------------------------------- The file ilsp.s contains the "Library version" of the 68060 Integer Software Package. Routines included in this module can be used to emulate 64-bit divide and multiply, and the "cmp2" instruction. These instructions are not implemented in hardware on the 68060 and normally take exception vector #61 "Unimplemented Integer Instruction". By re-compiling a program that uses these instructions, and making subroutine calls in place of the unimplemented instructions, a program can avoid the overhead associated with taking the exception. Release file format: -------------------- The file ilsp.sa is essentially a hexadecimal image of the release package. This is the ONLY format which will be supported. The hex image was created by assembling the source code and then converting the resulting binary output image into an ASCII text file. The hexadecimal numbers are listed using the Motorola Assembly Syntax assembler directive "dc.l" (define constant longword). The file can be converted to other assembly syntaxes by using any word processor with a global search and replace function. To assist in assembling and linking this module with other modules, the installer should add a symbolic label to the top of the file. This will allow calling routines to access the entry points of this package. The source code ilsp.s has also been included but only for documentation purposes. Release file structure: ----------------------- The file ilsp.sa contains an "Entry-Point" section and a code section. The ILSP has no "Call-Out" section. The first section is the "Entry-Point" section. In order to access a function in the package, a program must "bsr" or "jsr" to the location listed below in "68060ILSP Entry Points" that corresponds to the desired function. A branch instruction located at the selected entry point within the package will then enter the correct emulation code routine. The entry point addresses at the beginning of the package will remain fixed so that a program calling the routines will not have to be re-compiled with every new 68060ILSP release. For example, to use a 64-bit multiply instruction, do a "bsr" or "jsr" to the entry point defined by the 060ILSP entry table. A compiler generated code sequence for unsigned multiply could look like: # mulu.l ,Dh:Dl # mulu.l _multiplier,%d1:%d0 subq.l &0x8,%sp # make room for result on stack pea (%sp) # pass: result addr on stack mov.l %d0,-(%sp) # pass: multiplicand on stack mov.l _multiplier,-(%sp) # pass: multiplier on stack bsr.l _060LISP_TOP+0x18 # branch to multiply routine add.l &0xc,%sp # clear arguments from stack mov.l (%sp)+,%d1 # load result[63:32] mov.l (%sp)+,%d0 # load result[31:0] For a divide: # divu.l ,Dr:Dq # divu.l _divisor,%d1:%d0 subq.l &0x8,%sp # make room for result on stack pea (%sp) # pass: result addr on stack mov.l %d0,-(%sp) # pass: dividend hi on stack mov.l %d1,-(%sp) # pass: dividend hi on stack mov.l _divisor,-(%sp) # pass: divisor on stack bsr.l _060LISP_TOP+0x08 # branch to divide routine add.l &0xc,%sp # clear arguments from stack mov.l (%sp)+,%d1 # load remainder mov.l (%sp)+,%d0 # load quotient The library routines also return the correct condition code register value. If this is important, then the caller of the library routine must make sure that the value isn't lost while popping other items off of the stack. An example of using the "cmp2" instruction is as follows: # cmp2.l ,Rn # cmp2.l _bounds,%d0 pea _bounds # pass ptr to bounds mov.l %d0,-(%sp) # pass Rn bsr.l _060LSP_TOP_+0x48 # branch to "cmp2" routine mov.w %cc,_tmp # save off condition codes addq.l &0x8,%sp # clear arguments from stack Exception reporting: -------------------- If the instruction being emulated is a divide and the source operand is a zero, then the library routine, as its last instruction, executes an implemented divide using a zero source operand so that an "Integer Divide-by-Zero" exception will be taken. Although the exception stack frame will not point to the correct instruction, the user will at least be able to record that such an event occurred if desired. 68060ILSP entry points: ----------------------- _060ILSP_TOP: 0x000: _060LSP__idivs64_ 0x008: _060LSP__idivu64_ 0x010: _060LSP__imuls64_ 0x018: _060LSP__imulu64_ 0x020: _060LSP__cmp2_Ab_ 0x028: _060LSP__cmp2_Aw_ 0x030: _060LSP__cmp2_Al_ 0x038: _060LSP__cmp2_Db_ 0x040: _060LSP__cmp2_Dw_ 0x048: _060LSP__cmp2_Dl_