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[/] [or1k/] [tags/] [start/] [gdb-5.0/] [utils/] [amd-udi/] [montip/] [mtip.c] - Rev 1778
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static char _[] = "@(#)mtip.c 2.14 92/01/13 18:04:36, AMD."; /****************************************************************************** * Copyright 1991 Advanced Micro Devices, Inc. * * This software is the property of Advanced Micro Devices, Inc (AMD) which * specifically grants the user the right to modify, use and distribute this * software provided this notice is not removed or altered. All other rights * are reserved by AMD. * * AMD MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARD TO THIS * SOFTWARE. IN NO EVENT SHALL AMD BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL * DAMAGES IN CONNECTION WITH OR ARISING FROM THE FURNISHING, PERFORMANCE, OR * USE OF THIS SOFTWARE. * * So that all may benefit from your experience, please report any problems * or suggestions about this software to the 29K Technical Support Center at * 800-29-29-AMD (800-292-9263) in the USA, or 0800-89-1131 in the UK, or * 0031-11-1129 in Japan, toll free. The direct dial number is 512-462-4118. * * Advanced Micro Devices, Inc. * 29K Support Products * Mail Stop 573 * 5900 E. Ben White Blvd. * Austin, TX 78741 * 800-292-9263 ***************************************************************************** * Engineers: MINIMON DEVELOPMENT TEAM MEMBERS, AMD. */ #include <stdio.h> #include <string.h> #include <malloc.h> #include "messages.h" #include "coff.h" #include "memspcs.h" #include "mtip.h" #include "macros.h" /* TIP Breakpoint table */ typedef unsigned int BreakIdType; static struct break_table { BreakIdType id; INT32 space; ADDR32 offset; INT32 count; INT32 type; ADDR32 BreakInst; /* actual instruction */ struct break_table *next; }; struct break_table *bp_table=NULL; #define BUFFER_SIZE 1024 static BYTE buffer[BUFFER_SIZE]; int Mini_core_load PARAMS((char *corefile, INT32 space, INT32 sects, int syms)); void add_to_bp_table PARAMS((BreakIdType *id, INT32 space, ADDR32 offset, INT32 count, INT32 type, ADDR32 inst)); int get_from_bp_table PARAMS((BreakIdType id, INT32 *space, ADDR32 *offset, INT32 *count, INT32 *type, ADDR32 *inst)); int remove_from_bp_table PARAMS((BreakIdType id)); int is_breakpt_at PARAMS((INT32 space, ADDR32 offset)); /* ** Breakpoint code */ void add_to_bp_table(id, space, offset, count, type, inst) BreakIdType *id; INT32 space; ADDR32 offset; INT32 count; INT32 type; ADDR32 inst; { static BreakIdType current_break_id=1; struct break_table *temp, *temp2; if (bp_table == NULL) { /* first element */ bp_table = (struct break_table *) malloc (sizeof(struct break_table)); bp_table->id = current_break_id; bp_table->offset = offset; bp_table->space = space; bp_table->count = count; bp_table->type = type; bp_table->BreakInst = inst; bp_table->next = NULL; } else { temp2 = bp_table; temp = (struct break_table *) malloc (sizeof(struct break_table)); temp->id = current_break_id; temp->offset = offset; temp->space = space; temp->count = count; temp->type = type; temp->BreakInst = inst; temp->next = NULL; while (temp2->next != NULL) temp2 = temp2->next; temp2->next = temp; }; *id = current_break_id; current_break_id++; } int get_from_bp_table(id, space, offset, count, type, inst) BreakIdType id; INT32 *space; ADDR32 *offset; INT32 *count; INT32 *type; ADDR32 *inst; { struct break_table *temp; temp = bp_table; while (temp != NULL) { if (temp->id == id) { *offset = temp->offset; *space = temp->space; *count = temp->count; *type = temp->type; *inst = temp->BreakInst; return(0); } else { temp = temp->next; }; } return(-1); } int remove_from_bp_table(id) BreakIdType id; { struct break_table *temp, *temp2; if (bp_table == NULL) return (-1); else { temp = bp_table; if (temp->id == id) { /* head of list */ bp_table = bp_table->next; (void) free (temp); return (0); /* success */ } else { while (temp->next != NULL) { if (temp->next->id == id) { temp2 = temp->next; temp->next = temp->next->next; (void) free (temp2); return (0); /* success */ } else { temp = temp->next; } }; } }; return (-1); /* failed */ } int is_breakpt_at(space, offset) INT32 space; ADDR32 offset; { struct break_table *temp; temp = bp_table; while (temp != NULL) { if ((temp->space == space) && (temp->offset == offset)) { return(1); /* TRUE */ } else { temp = temp->next; }; } return(0); /* FALSE */ } /* ** Miscellaneous functions. */ int Mini_core_load(filename, space, sects, syms) char *filename; INT32 space; INT32 sects; int syms; { FILE *coff_in; INT32 COFF_sections; INT32 i; int read_count; int section_type; int host_endian; INT32 flags; INT32 memory_space; INT32 address; INT32 byte_count; INT32 write_count; INT32 temp_byte_count; INT16 temp_magic; INT16 temp_sections; struct filehdr COFF_header; struct aouthdr COFF_aout_header; struct scnhdr *COFF_section_header; struct scnhdr *temp_COFF_section_header; /* Open the COFF input file (if we can) */ coff_in = fopen(filename, FILE_OPEN_FLAG); if (coff_in == NULL) { /* warning (EMOPEN); */ return(-1); } /* ** Process COFF header(s) */ /* Read in COFF header information */ read_count = fread((char *)&COFF_header, sizeof(struct filehdr), 1, coff_in); /* Did we get it all? */ if (read_count != 1) { fclose(coff_in); /* warning(EMHDR); */ return (-1); } /* Is it an Am29000 COFF File? */ temp_magic = COFF_header.f_magic; tip_convert16((BYTE *) &temp_magic); if (COFF_header.f_magic == SIPFBOMAGIC) { host_endian = TRUE; } else if (temp_magic == SIPFBOMAGIC) { host_endian = FALSE; } else { fclose(coff_in); /* warning (EMMAGIC); */ return (-1); } /* Get number of COFF sections */ temp_sections = COFF_header.f_nscns; if (host_endian == FALSE) tip_convert16((BYTE *) &temp_sections); COFF_sections = (INT32) temp_sections; /* Read in COFF a.out header information (if we can) */ if (COFF_header.f_opthdr > 0) { read_count = fread((char *)&COFF_aout_header, sizeof(struct aouthdr), 1, coff_in); /* Did we get it all? */ if (read_count != 1) { fclose(coff_in); /* warning (EMAOUT); */ return (-1); } } /* ** Process COFF section headers */ /* Allocate space for section headers */ (char *)COFF_section_header = (char *) malloc((unsigned) (COFF_sections * sizeof(struct scnhdr))); if (COFF_section_header == NULL) { fclose(coff_in); /* warning (EMALLOC); */ return (-1); } /* Save the pointer to the malloc'ed data, so ** we can free it later. */ temp_COFF_section_header = COFF_section_header; read_count = fread((char *)COFF_section_header, sizeof(struct scnhdr), (int) COFF_sections, coff_in); /* Did we get it all? */ if (read_count != (int) COFF_sections) { fclose(coff_in); /* warning (EMSCNHDR); */ return (-1); } /* Process all sections */ for (i=0; i<COFF_sections; i=i+1) { address = COFF_section_header->s_paddr; byte_count = COFF_section_header->s_size; flags = COFF_section_header->s_flags; if (host_endian == FALSE) { tip_convert32((BYTE *) &address); tip_convert32((BYTE *) &byte_count); tip_convert32((BYTE *) &flags); } /* Print downloading messages (if necessary) */ if ((flags == STYP_TEXT) || (flags == (STYP_TEXT | STYP_ABS))) { section_type = TEXT_SECTION; memory_space = I_MEM; } else if ((flags == STYP_DATA) || (flags == (STYP_DATA | STYP_ABS))) { section_type = DATA_SECTION; memory_space = D_MEM; } else if ((flags == STYP_LIT) || (flags == (STYP_LIT | STYP_ABS))) { section_type = LIT_SECTION; memory_space = D_MEM; } else if ((flags == STYP_BSS) || (flags == (STYP_BSS | STYP_ABS))) { section_type = BSS_SECTION; memory_space = D_MEM; } else { section_type = UNKNOWN_SECTION; } /* Clear BSS sections in 29K data memory */ if (section_type == BSS_SECTION) { (void) memset ((char *) buffer, (int) '\0', sizeof(buffer)); while (byte_count > 0) { write_count = (byte_count < (INT32) sizeof(buffer)) ? byte_count : (INT32) sizeof (buffer); if(Mini_write_memory ((INT32) memory_space, (ADDR32) address, (INT32) write_count, (BYTE *) buffer) != SUCCESS) { (void) fclose(coff_in); return(-1); } address = address + write_count; byte_count = byte_count - write_count; } } else /* Else send data to the target */ while (byte_count > 0) { temp_byte_count = MIN(byte_count, (INT32) sizeof(buffer)); read_count = fread((char *) buffer, (int) temp_byte_count, 1, coff_in); /* Did we get it all? */ if (read_count != 1) { fclose(coff_in); /* warning (EMSCN); */ return (-1); } /* Write to 29K memory*/ if (section_type != UNKNOWN_SECTION) { if (Mini_write_memory ((INT32) memory_space, (ADDR32) address, (INT32) temp_byte_count, (BYTE *) buffer) != SUCCESS) { /* warning(EMWRITE); */ (void) fclose(coff_in); return(-1); }; } address = address + temp_byte_count; byte_count = byte_count - temp_byte_count; } /* end while */ COFF_section_header++; } /* end for loop */ (void) free((char *)temp_COFF_section_header); (void) fclose(coff_in); return (0); } /* end Mini_loadcoff() */
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