From: cuz Date: Sat, 18 May 2002 21:38:01 +0000 (+0000) Subject: Added check/support for simple addressing format. X-Git-Tag: V2.12.0~2344 X-Git-Url: https://git.sur5r.net/?a=commitdiff_plain;h=9364b206ab205c8b527a646e0b87358927dfa93a;p=cc65 Added check/support for simple addressing format. Check the operating system option and return the module id to the caller. Use bzero instead of memset. git-svn-id: svn://svn.cc65.org/cc65/trunk@1278 b7a2c559-68d2-44c3-8de9-860c34a00d81 --- diff --git a/libsrc/common/modload.s b/libsrc/common/modload.s index 955e596b3..a42e8eae5 100644 --- a/libsrc/common/modload.s +++ b/libsrc/common/modload.s @@ -37,7 +37,7 @@ .include "modload.inc" .import pushax, pusha0, push0, push1, decax1 - .import _malloc, _free, _memset + .import _malloc, _free, _bzero .import __ZP_START__ ; Linker generated .importzp sp, ptr1, tmp1, regbank @@ -68,21 +68,16 @@ Header: .res O65_HDR_SIZE ; The o65 header ; Input InputByte = Header ; Byte read from input -; Segment addresses. Since the ld65 linker uses a relocation base address -; of zero for all segments, the addresses of the segments are also the -; relocation values. -CodeAddr = Module ; Address of code seg -DataAddr = Header + 1 ; Address of data seg -BssAddr = Header + 3 ; Address of bss seg - .data -Read: jmp $FFFF ; Jump to read routine +Read: jmp $FFFF ; Jump to read routine .rodata -ExpectedHdr: .byte $01, $00 ; non C64 marker - .byte $6F, $36, $35 ; Magic ("o65") - .byte $00 ; Version - .word $0000 ; Mode word +ExpectedHdr: + .byte $01, $00 ; non C64 marker + .byte $6F, $36, $35 ; Magic ("o65") + .byte $00 ; Version + .word O65_CPU_6502|O65_RELOC_BYTE|O65_SIZE_16BIT|O65_FTYPE_EXE|O65_ADDR_SIMPLE|O65_ALIGN_1 + ExpectedHdrSize = * - ExpectedHdr @@ -109,37 +104,33 @@ RestoreRegBank: rts ;------------------------------------------------------------------------------ -; GetReloc: Return a relocation value based on the segment in A +; GetReloc: Return a relocation value based on the segment in A. +; The routine uses some knowledge about the values to make the code shorter. .code GetReloc: cmp #O65_SEGID_TEXT - bne @L1 - lda CodeAddr - ldx CodeAddr+1 - rts + bcc FormatError + cmp #O65_SEGID_ZP + beq @L1 + bcs FormatError -@L1: cmp #O65_SEGID_DATA - bne @L2 - lda DataAddr - ldx DataAddr+1 - rts +; Text, data and bss segment -@L2: cmp #O65_SEGID_BSS - bne @L3 - lda BssAddr - ldx BssAddr+1 + lda Module + ldx Module+1 ; Return start address of buffer rts -@L3: cmp #O65_SEGID_ZP - bne FormatError - lda #<__ZP_START__ +; Zero page relocation + +@L1: lda #<__ZP_START__ ldx #>__ZP_START__ rts ;------------------------------------------------------------------------------ ; FormatError: Bail out with an o65 format error - + +.code FormatError: lda #MLOAD_ERR_FMT ; bne CleanupAndExit ; Branch always @@ -271,10 +262,8 @@ Loop: jsr ReadByte ; Read byte from relocation table RelocLow: ldy #0 clc - lda (TPtr),y - adc ptr1 - sta (TPtr),y - jmp Loop + lda ptr1 + bcc AddCommon ; Relocate a high byte @@ -283,8 +272,10 @@ RelocHigh: ldy #0 clc adc ptr1 ; We just need the carry -AddHigh:lda (TPtr),y - adc ptr1+1 +AddHigh: + lda ptr1+1 +AddCommon: + adc (TPtr),y sta (TPtr),y jmp Loop ; Done, next entry @@ -293,8 +284,8 @@ AddHigh:lda (TPtr),y RelocWord: ldy #0 clc - lda (TPtr),y - adc ptr1 + lda ptr1 + adc (TPtr),y sta (TPtr),y iny bne AddHigh ; Branch always (add high byte) @@ -334,7 +325,7 @@ _mod_load: lda (Ctrl),y sta Read+1 iny - lda (Ctrl),y + lda (Ctrl),y sta Read+2 ; Read the o65 header: C->read (C, &H, sizeof (H)) @@ -350,31 +341,89 @@ _mod_load: ; We read the o65 header successfully. Validate it. ldy #ExpectedHdrSize-1 -@L3: lda Header,y +ValidateHeader: + lda Header,y cmp ExpectedHdr,y - beq @L4 - lda #MLOAD_ERR_HDR - jmp CleanupAndExit -@L4: dey - bpl @L3 + bne HeaderError + dey + bpl ValidateHeader -; Header is ok as far as we can say now. Read and skip all options. We may -; add a check here for the OS option later. +; Header is ok as far as we can say now. Read all options, check for the +; OS option and ignore all others. The OS option contains a version number +; and the module id as additional data. -Opt: jsr ReadByte + iny ; Y = $00 + sty TPtr+1 ; Flag for OS option read +Opt: jsr ReadByte ; Read the length byte beq OptDone ; Jump if done sta TPtr ; Use TPtr as a counter -OneOpt: dec TPtr + +; An option has a length of at least 2 bytes + + cmp #2 + bcc HeaderError ; Must be 2 bytes total at least + +; Check for the OS option + + dec TPtr + jsr ReadByte ; Get the option type + cmp #O65_OPT_OS ; OS option? + bne SkipOpt ; No: Skip + + lda TPtr ; Get remaining length+1 + cmp #5 ; CC65 has 6 bytes total + bne OSError + + jsr ReadByte ; Get the operating system + cmp #O65_OS_CC65_MODULE + bne OSError ; Wrong operating system + + jsr ReadByte ; Get the version number, expect zero + bne OSError ; Wrong version + + jsr ReadByte ; Get low byte of id + ldy #MODCTRL_MODULE_ID + sta (Ctrl),y + jsr ReadByte + ldy #MODCTRL_MODULE_ID+1 + sta (Ctrl),y + + inc TPtr+1 ; Remember that we got the OS + + jmp Opt + +; Skip one option + +SkipOpt: + dec TPtr beq Opt ; Next option jsr ReadByte ; Skip one byte - jmp OneOpt + jmp SkipOpt + +; Operating system error + +OSError: + lda #MLOAD_ERR_OS + jmp CleanupAndExit + +; Options done, check that we got the OS option + OptDone: + lda TPtr+1 + bne CalcSizes + +; Entry point for header errors + +HeaderError: + lda #MLOAD_ERR_HDR + jmp CleanupAndExit ; Skipped all options. Calculate the size of text+data and of text+data+bss ; (the latter is the size of the memory block we need). We will store the ; total module size also into the control structure for evaluation by the ; caller +CalcSizes: lda Header + O65_HDR_TLEN add Header + O65_HDR_DLEN sta TPtr @@ -393,52 +442,47 @@ OptDone: tax pla ; Restore low byte of total size -; Total memory size is now in a/x. Allocate memory, check if we got it. +; Total memory size is now in a/x. Allocate memory and remember the result, +; both, locally and in the control structure so it the caller can access +; the memory block. After that, check if we got the requested memory. jsr _malloc sta Module stx Module+1 - ora Module+1 - bne GotMem - -; Could not allocate memory - - lda #MLOAD_ERR_MEM - jmp CleanupAndExit - -; We got the memory block. Place a pointer to the memory block also in the -; module control structure. -GotMem: lda Module ; Ctrl->module = Module; ldy #MODCTRL_MODULE sta (Ctrl),y txa iny sta (Ctrl),y + ora Module + bne GotMem -; Calculate the start addresses of the segments. Since the linker uses a -; base address of zero for all segments, the load addresses are also the -; relocation values for the segments. +; Could not allocate memory - lda Module - add Header + O65_HDR_TLEN - sta DataAddr - lda Module + 1 - adc Header + O65_HDR_TLEN + 1 - sta DataAddr + 1 + lda #MLOAD_ERR_MEM + jmp CleanupAndExit + +; Control structure is complete now. Clear the bss segment. +; bzero (bss_addr, bss_size) lda Module add TPtr - sta BssAddr + pha lda Module+1 - add TPtr+1 - sta BssAddr + 1 + adc TPtr+1 ; Module + tlen + dlen + tax + pla + jsr pushax + lda Header + O65_HDR_BLEN + ldx Header + O65_HDR_BLEN+1 + jsr _bzero ; bzero (bss, bss_size); -; Control structure is complete now. Load code and data segment into memory. -; The sum of the sizes of code+data segment is still in TPtr. +; Load code and data segment into memory. The sum of the sizes of +; code+data segment is still in TPtr. ; C->read (C, C->module, H.tlen + H.dlen) - jsr PushCtrl +GotMem: jsr PushCtrl lda Module ldx Module+1 jsr pushax @@ -472,19 +516,9 @@ Reloc: lda Module lda Module + 1 adc Header + O65_HDR_TLEN + 1 tax - pla ; Date segment address in a/x + pla ; Data segment address in a/x jsr RelocSeg -; Clear the bss segment: memset (bss_addr, 0, bss_size) - - lda BssAddr - ldx BssAddr + 1 - jsr pushax - jsr push0 - lda Header + O65_HDR_BLEN - ldx Header + O65_HDR_BLEN+1 - jsr _memset ; memset (bss, 0, bss_size); - ; We're done. Restore the register bank and return a success code jsr RestoreRegBank ; X will be zero on return