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[/] [or1k/] [tags/] [start/] [gdb-5.0/] [utils/] [amd-udi/] [mondfe/] [yank.c] - Rev 1765
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static char _[] = "@(#)yank.c 5.20 93/07/30 16:39:05, Srini, 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 ***************************************************************************** * Engineer: Srini Subramanian. ***************************************************************************** ** This module is used to "yank" or load a COFF file ** Into target memory. ***************************************************************************** */ #include <stdio.h> #include <memory.h> #include <ctype.h> #include "coff.h" #include "memspcs.h" #include "main.h" #include "miniint.h" #include "macros.h" #include "error.h" #ifdef MSDOS #include <string.h> #include <stdlib.h> #else #include <string.h> #endif /* Definitions */ #define FILE_BUFFER_SIZE 1024 #ifdef MSDOS #define FILE_OPEN_FLAG "rb" #else #define FILE_OPEN_FLAG "r" #endif #define FROM_BEGINNING 0 /* Function declarations */ INT32 Mini_load_coff PARAMS((char *fname, INT32 space, INT32 sym, INT32 sects, int msg)); INT32 Mini_init_info_ptr PARAMS((INIT_INFO *init)); INT32 Mini_send_init_info PARAMS((INIT_INFO *init)); INT32 Mini_load_file PARAMS((char *fname, INT32 mspace, int fargc, char *fargs, INT32 sym, INT32 sects, int msg)); void convert32 PARAMS((BYTE *)); void convert16 PARAMS((BYTE *)); int SetSections PARAMS((char *)); void print_ld_msg PARAMS((INT32, int, ADDR32, INT32)); void print_ign_msg PARAMS((int, ADDR32, INT32)); void print_end_msg PARAMS((INT32, int, ADDR32, INT32)); /* GLobal */ GLOBAL INIT_INFO init_info; static BYTE buffer[FILE_BUFFER_SIZE]; extern char CoffFileName[]; static INT32 Symbols=0; /* No symbols support yet */ static INT32 Sections=STYP_ABS | STYP_TEXT | STYP_DATA | STYP_LIT | STYP_BSS; static INT32 MSpace=I_MEM; static int FileArgc; static char ArgString[1024]; static FILE *coff_in; static int InitializeProgram=1; /* ** This is the function called by the main program to load ** a COFF file. It also modifies the global data structure ** init. The data structure is then sent via an INIT message ** to the target. In addition, the "argv" parameter string ** is sent to the target with WRITE messages. ** */ INT32 yank_cmd(token, token_count) char *token[]; int token_count; { int i; int j; int SectionsGiven=0; int IPFlag=0; for (j=1; j < token_count; j++) { /* parse command */ switch (token[j][0]) { case '-': if (token[j][1] == '\0') return (EMSYNTAX); if (strcmp(token[j],"-ms")==0) {/*mem stack opt */ if (++j >= token_count) return (EMSYNTAX); if (sscanf(token[j],"%lx",&(init_info.mem_stack_size)) != 1) return (EMSYNTAX); } else if (strcmp(token[j],"-rs")==0) {/*r stack*/ if (++j >= token_count) return (EMSYNTAX); if (sscanf(token[j],"%lx",&(init_info.reg_stack_size)) != 1) return (EMSYNTAX); } else if (strcmp(token[j],"-noi")==0) {/*no init */ InitializeProgram = 0; IPFlag = 1; } else if (strcmp(token[j],"-i")==0) {/*init*/ InitializeProgram = 1; IPFlag = 1; } else { if (SetSections(token[j]) == (int) -1) return (EMSYNTAX); else SectionsGiven=1; } break; default: /* filename etc. */ if (!SectionsGiven) { Sections = STYP_ABS|STYP_TEXT|STYP_DATA|STYP_LIT|STYP_BSS; SectionsGiven=0; } if (!IPFlag) { InitializeProgram = 1; IPFlag=0; } (void) strcpy (&CoffFileName[0], token[j]); FileArgc = token_count - j; (void) strcpy(ArgString, token[j]); for (i = 1; i < FileArgc; i++) { strcat(ArgString, " "); strcat(ArgString, token[j+i]); }; j = token_count; /* break out of for loop */ break; }; } if (strcmp(CoffFileName,"") == 0) /* No COFF file given */ return (EMSYNTAX); if (Mini_load_file(&CoffFileName[0], MSpace, FileArgc, ArgString, Symbols, Sections, QuietMode) != SUCCESS) { return(FAILURE); } else return(SUCCESS); }; INT32 Mini_load_file(filename, mspace, fileargc, fileargs, sym, sects, quietmode) char *filename; INT32 mspace; int fileargc; char *fileargs; INT32 sym; INT32 sects; int quietmode; { if (Mini_init_info_ptr(&init_info) != SUCCESS) return(FAILURE); if (Mini_load_coff(filename, mspace, sym, sects, quietmode) != SUCCESS) return(FAILURE); init_info.argstring = fileargs; /* complete argv string */ if (InitializeProgram) { if (Mini_send_init_info(&init_info) != SUCCESS) return(FAILURE); } else { warning(EMNOINITP); } return(SUCCESS); }; INT32 Mini_init_info_ptr(init_ptr) INIT_INFO *init_ptr; { /* Re-initialize INIT message */ init_ptr->text_start = 0xffffffff; init_ptr->text_end = 0; init_ptr->data_start = 0xffffffff; init_ptr->data_end = 0; init_ptr->entry_point = 0; if (init_ptr->mem_stack_size == (UINT32) -1) init_ptr->mem_stack_size = MEM_STACK_SIZE; if (init_ptr->reg_stack_size == (UINT32) -1) init_ptr->reg_stack_size = REG_STACK_SIZE; init_ptr->argstring = (char *) 0; return(SUCCESS); }; INT32 Mini_send_init_info(info_ptr) INIT_INFO *info_ptr; { INT32 retval; /* Align INIT values to word boundaries */ info_ptr->text_start = ALIGN32(info_ptr->text_start); info_ptr->text_end = ALIGN32(info_ptr->text_end); info_ptr->data_start = ALIGN32(info_ptr->data_start); info_ptr->data_end = ALIGN32(info_ptr->data_end); info_ptr->mem_stack_size = ALIGN32(info_ptr->mem_stack_size); info_ptr->reg_stack_size = ALIGN32(info_ptr->reg_stack_size); /* Send INIT message */ if ((retval = Mini_init (info_ptr->text_start, info_ptr->text_end, info_ptr->data_start, info_ptr->data_end, info_ptr->entry_point, info_ptr->mem_stack_size, info_ptr->reg_stack_size, info_ptr->argstring)) != SUCCESS) { warning(EMINIT); return(FAILURE); }; return (SUCCESS); } /* Mini_send_init_info */ /* ** This function is used to load a COFF file. Depending on ** the global variable "target_interface", data will be loaded ** by either EB29K shared memory, PCEB shared memory, EB030 ** shared memory or serially. ** ** In addition, the global data structure "init" is updated. ** This data structure maintains the entry point and various ** other target initialization parameters. */ INT32 Mini_load_coff(filename, mspace, sym, Section, quietmode) char *filename; int quietmode; INT32 sym; INT32 Section; INT32 mspace; { unsigned short COFF_sections; INT32 flags; INT32 memory_space; INT32 address; INT32 byte_count; INT32 temp_byte_count; INT32 bytes_ret; struct filehdr COFF_header; struct aouthdr COFF_aout_header; struct scnhdr COFF_section_header; if (!quietmode) { fprintf(stderr, "loading %s\n", filename); if (io_config.echo_mode == (INT32) TRUE) fprintf(io_config.echo_file, "loading %s\n", filename); } /* Open the COFF input file (if we can) */ if ((coff_in = fopen(filename, FILE_OPEN_FLAG)) == NULL) { warning (EMOPEN); return(FAILURE); }; /* Read in COFF header information */ if (fread((char *)&COFF_header, sizeof(struct filehdr), 1, coff_in) != 1) { fclose(coff_in); warning(EMHDR); return (FAILURE); }; /* Is it an Am29000 COFF File? */ if ((COFF_header.f_magic != 0x17a) && (COFF_header.f_magic != 0x7a01) && (COFF_header.f_magic != 0x17b) && (COFF_header.f_magic != 0x7b01)) { fclose(coff_in); warning (EMMAGIC); return (FAILURE); } /* Get number of COFF sections */ if ((COFF_header.f_magic != 0x17a) && (COFF_header.f_magic != 0x017b)) convert16((BYTE *) &COFF_header.f_nscns); COFF_sections = (unsigned short) COFF_header.f_nscns; /* Read in COFF a.out header information (if we can) */ if (COFF_header.f_opthdr > 0) { if (fread((char *)&COFF_aout_header, sizeof(struct aouthdr), 1, coff_in) != 1) { fclose(coff_in); warning (EMAOUT); return (FAILURE); }; /* Set entry point in INIT message */ init_info.entry_point = COFF_aout_header.entry; if ((COFF_header.f_magic != 0x17a) && (COFF_header.f_magic != 0x017b)) { convert16((BYTE *) &COFF_header.f_opthdr); convert32((BYTE *) &init_info.entry_point); } } /* ** Process COFF section headers */ /* Process all sections */ while ((int) COFF_sections--) { fseek (coff_in, (long) (FILHSZ+(int)COFF_header.f_opthdr+ SCNHSZ*(COFF_header.f_nscns-COFF_sections-1)), FROM_BEGINNING); if (fread(&COFF_section_header, 1, SCNHSZ, coff_in) != SCNHSZ) { fclose(coff_in); warning (EMSCNHDR); return (FAILURE); } if ((COFF_header.f_magic != 0x17a) && (COFF_header.f_magic != 0x017b)) { convert32((BYTE *) &(COFF_section_header.s_paddr)); convert32((BYTE *) &(COFF_section_header.s_scnptr)); convert32((BYTE *) &(COFF_section_header.s_size)); convert32((BYTE *) &(COFF_section_header.s_flags)); } address = COFF_section_header.s_paddr; byte_count = COFF_section_header.s_size; flags = COFF_section_header.s_flags; /* Print downloading messages (if necessary) */ if ((flags == (INT32) STYP_TEXT) || (flags == (INT32) (STYP_TEXT | STYP_ABS))) { memory_space = I_MEM; init_info.text_start = MIN((ADDR32) address, (ADDR32) init_info.text_start); init_info.text_end = MAX((ADDR32) (address + byte_count), (ADDR32) init_info.text_end); } else if ((flags == (INT32) STYP_DATA) || (flags == (INT32) (STYP_DATA | STYP_ABS)) || (flags == (INT32) STYP_LIT) || (flags == (INT32) (STYP_LIT | STYP_ABS)) || (flags == (INT32) STYP_BSS) || (flags == (INT32) (STYP_BSS | STYP_ABS))) { memory_space = D_MEM; init_info.data_start = MIN((ADDR32) address, (ADDR32) init_info.data_start); init_info.data_end = MAX((ADDR32) (address + byte_count), (ADDR32) init_info.data_end); } else { print_ign_msg(quietmode, address, byte_count); flags = (INT32) 0; } if ((flags == (INT32) STYP_BSS) || (flags == (INT32) (STYP_BSS | STYP_ABS))) { /* Clear BSS section */ if (flags & Section) { print_ld_msg(flags,quietmode,address,byte_count); if (Mini_fill ((INT32) D_MEM, (ADDR32) address, (INT32) (byte_count+3)/4, 4 /* fill zeroes */, "\0\0\0") != SUCCESS) { (void) fclose(coff_in); warning(EMFILL); return(FAILURE); }; print_end_msg(flags,quietmode,address,byte_count); } } else if (flags & Section) { /* not a BSS or COmment */ if (flags == (INT32) (flags & Section)) { fseek (coff_in, COFF_section_header.s_scnptr, FROM_BEGINNING); while (byte_count > 0) { temp_byte_count = MIN((INT32) byte_count, (INT32) sizeof(buffer)); if (fread((char *) buffer, (int) temp_byte_count, 1, coff_in) != 1) { fclose(coff_in); warning (EMSCN); return (FAILURE); }; print_ld_msg(flags, quietmode,address, temp_byte_count); /* Write to 29K memory*/ if (Mini_write_req ((INT32) memory_space, (ADDR32) address, (INT32) (temp_byte_count+3)/4, (INT16) 4, /* size */ &bytes_ret, (BYTE *) buffer, (INT32) FALSE) != SUCCESS) { warning(EMWRITE); return(FAILURE); } address = address + temp_byte_count; byte_count = byte_count - temp_byte_count; }; print_end_msg(flags, quietmode, COFF_section_header.s_paddr, COFF_section_header.s_size); }; } } /* end while */ (void) fclose(coff_in); return (SUCCESS); } /* end Mini_loadcoff() */ int SetSections(string) char *string; { int i; if (string[0] != '-') return (-1); /* not section options */ Sections = STYP_ABS; for (i=1; string[i] != '\0'; i++) { switch (string[i]) { case 't': case 'T': Sections = Sections | STYP_TEXT; break; case 'd': case 'D': Sections = Sections | STYP_DATA; break; case 'b': case 'B': Sections = Sections | STYP_BSS; break; case 'l': case 'L': Sections = Sections | STYP_LIT; break; default: return (EMSYNTAX); } } return (0); } void print_ld_msg(flags, mode, address, byte_count) INT32 flags; int mode; ADDR32 address; INT32 byte_count; { if (!mode) { if (flags & (INT32) STYP_BSS) fprintf(stderr, "Clearing "); else fprintf(stderr, "Loading "); if ((flags == (INT32) STYP_TEXT) || (flags == (INT32) (STYP_TEXT|STYP_ABS))) fprintf(stderr, "TEXT "); else if (flags & (INT32) STYP_DATA) fprintf(stderr, "DATA "); else if (flags & (INT32) STYP_LIT) fprintf(stderr, "LIT "); else if (flags & (INT32) STYP_BSS) fprintf(stderr, "BSS "); fprintf(stderr, "section from 0x%08lx to 0x%08lx\r", address, (ADDR32) (address+byte_count)); } } void print_ign_msg(mode, address, byte_count) int mode; ADDR32 address; INT32 byte_count; { if (!mode) fprintf(stderr, "Ignoring COMMENT section (%ld bytes) ...\n", byte_count); } void print_end_msg(flags, mode,address,size) INT32 flags; int mode; ADDR32 address; INT32 size; { if (!mode) { if (flags & (INT32) STYP_BSS) fprintf(stderr, "Cleared "); else fprintf(stderr, "Loaded "); if (io_config.echo_mode == (INT32) TRUE) { if (flags & (INT32) STYP_BSS) fprintf(io_config.echo_file, "Cleared "); else fprintf(io_config.echo_file, "Loaded "); } if ((flags == (INT32) STYP_TEXT) || (flags == (INT32) (STYP_TEXT|STYP_ABS))) fprintf(stderr, "TEXT "); else if (flags & (INT32) STYP_DATA) fprintf(stderr, "DATA "); else if (flags & (INT32) STYP_LIT) fprintf(stderr, "LIT "); else if (flags & (INT32) STYP_BSS) fprintf(stderr, "BSS "); fprintf(stderr, "section from 0x%08lx to 0x%08lx\n", address, (ADDR32) (address+size)); if (io_config.echo_mode == (INT32) TRUE) { if ((flags == (INT32) STYP_TEXT) || (flags == (INT32) (STYP_TEXT|STYP_ABS))) fprintf(io_config.echo_file, "TEXT "); else if (flags & (INT32) STYP_DATA) fprintf(io_config.echo_file, "DATA "); else if (flags & (INT32) STYP_LIT) fprintf(io_config.echo_file, "LIT "); else if (flags & (INT32) STYP_BSS) fprintf(io_config.echo_file, "BSS "); fprintf(io_config.echo_file, "section from 0x%08lx to 0x%08lx\n", address, (ADDR32) (address+size)); } } }