/* * Copyright (c) 2015, Indian Institute of Science * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This file is part of the Contiki operating system. * */ /** * \file * MSP430x elfloader. * \author * Sumankumar Panchal * */ #include "contiki.h" #include "loader/elfloader.h" #include "loader/elfloader-arch.h" #include "cfs/cfs.h" #include "loader/symtab.h" #include #include #include #include "dev/flash.h" #define DEBUG 0 #if DEBUG #include #define PRINTF(...) printf(__VA_ARGS__) #else #define PRINTF(...) do {} while(0) #endif #define EI_NIDENT 16 struct elf32_ehdr { unsigned char e_ident[EI_NIDENT]; /* ident bytes */ elf32_half e_type; /* file type */ elf32_half e_machine; /* target machine */ elf32_word e_version; /* file version */ elf32_addr e_entry; /* start address */ elf32_off e_phoff; /* phdr file offset */ elf32_off e_shoff; /* shdr file offset */ elf32_word e_flags; /* file flags */ elf32_half e_ehsize; /* sizeof ehdr */ elf32_half e_phentsize; /* sizeof phdr */ elf32_half e_phnum; /* number phdrs */ elf32_half e_shentsize; /* sizeof shdr */ elf32_half e_shnum; /* number shdrs */ elf32_half e_shstrndx; /* shdr string index */ }; /* Values for e_type. */ #define ET_NONE 0 /* Unknown type. */ #define ET_REL 1 /* Relocatable. */ #define ET_EXEC 2 /* Executable. */ #define ET_DYN 3 /* Shared object. */ #define ET_CORE 4 /* Core file. */ struct elf32_shdr { elf32_word sh_name; /* section name */ elf32_word sh_type; /* SHT_... */ elf32_word sh_flags; /* SHF_... */ elf32_addr sh_addr; /* virtual address */ elf32_off sh_offset; /* file offset */ elf32_word sh_size; /* section size */ elf32_word sh_link; /* misc info */ elf32_word sh_info; /* misc info */ elf32_word sh_addralign; /* memory alignment */ elf32_word sh_entsize; /* entry size if table */ }; /* sh_type */ #define SHT_NULL 0 /* inactive */ #define SHT_PROGBITS 1 /* program defined information */ #define SHT_SYMTAB 2 /* symbol table section */ #define SHT_STRTAB 3 /* string table section */ #define SHT_RELA 4 /* relocation section with addends*/ #define SHT_HASH 5 /* symbol hash table section */ #define SHT_DYNAMIC 6 /* dynamic section */ #define SHT_NOTE 7 /* note section */ #define SHT_NOBITS 8 /* no space section */ #define SHT_REL 9 /* relation section without addends */ #define SHT_SHLIB 10 /* reserved - purpose unknown */ #define SHT_DYNSYM 11 /* dynamic symbol table section */ #define SHT_LOPROC 0x70000000 /* reserved range for processor */ #define SHT_HIPROC 0x7fffffff /* specific section header types */ #define SHT_LOUSER 0x80000000 /* reserved range for application */ #define SHT_HIUSER 0xffffffff /* specific indexes */ struct elf32_rel { elf32_addr r_offset; /* Location to be relocated. */ elf32_word r_info; /* Relocation type and symbol index. */ }; struct elf32_sym { elf32_word st_name; /* String table index of name. */ elf32_addr st_value; /* Symbol value. */ elf32_word st_size; /* Size of associated object. */ unsigned char st_info; /* Type and binding information. */ unsigned char st_other; /* Reserved (not used). */ elf32_half st_shndx; /* Section index of symbol. */ }; #define ELF32_R_SYM(info) ((info) >> 8) struct relevant_section { unsigned char number; unsigned int offset; char *address; }; char elfloader_unknown[30]; /* Name that caused link error. */ struct process *const *elfloader_autostart_processes; static struct relevant_section bss, data, rodata, rodatafar, text, textfar; static const unsigned char elf_magic_header[] = { 0x7f, 0x45, 0x4c, 0x46, /* 0x7f, 'E', 'L', 'F' */ 0x01, /* Only 32-bit objects. */ 0x01, /* Only LSB data. */ 0x01, /* Only ELF version 1. */ }; /* relocation type */ #define R_MSP430_NONE 0 #define R_MSP430_32 1 #define R_MSP430_10_PCREL 2 #define R_MSP430_16 3 #define R_MSP430_16_PCREL 4 #define R_MSP430_16_BYTE 5 #define R_MSP430_16_PCREL_BYTE 6 #define R_MSP430_2X_PCREL 7 #define R_MSP430_RL_PCREL 8 #define R_MSP430X_SRC_BYTE 9 #define R_MSP430X_SRC 10 #define R_MSP430X_DST_BYTE 11 #define R_MSP430X_DST 12 #define R_MSP430X_DST_2ND_BYTE 13 #define R_MSP430X_DST_2ND 14 #define R_MSP430X_PCREL_SRC_BYTE 15 #define R_MSP430X_PCREL_SRC 16 #define R_MSP430X_PCREL_DST_BYTE 17 #define R_MSP430X_PCREL_DST 18 #define R_MSP430X_PCREL_DST_2ND 19 #define R_MSP430X_PCREL_DST_2ND_BYTE 20 #define R_MSP430X_S_BYTE 21 #define R_MSP430X_S 22 #define R_MSP430X_D_BYTE 23 #define R_MSP430X_D 24 #define R_MSP430X_PCREL_D 25 #define R_MSP430X_INDXD 26 #define R_MSP430X_PCREL_INDXD 27 #define R_MSP430_10 28 #define ELF32_R_TYPE(info) ((unsigned char)(info)) static uint16_t datamemory_aligned[ELFLOADER_DATAMEMORY_SIZE / 2 + 1]; static uint8_t *datamemory = (uint8_t *)datamemory_aligned; #if ELFLOADER_CONF_TEXT_IN_ROM static const char textmemory[ELFLOADER_TEXTMEMORY_SIZE] = { 0 }; #else /* ELFLOADER_CONF_TEXT_IN_ROM */ static char textmemory[ELFLOADER_TEXTMEMORY_SIZE]; #endif /* ELFLOADER_CONF_TEXT_IN_ROM */ /*---------------------------------------------------------------------------*/ static void seek_read(int fd, unsigned int offset, char *buf, int len) { cfs_seek(fd, offset, CFS_SEEK_SET); cfs_read(fd, buf, len); #if DEBUG { int i; PRINTF("seek_read: Read len %d from offset %d\n", len, offset); for(i = 0; i < len; ++i) { PRINTF("%02x ", buf[i]); } printf("\n"); } #endif /* DEBUG */ } /*---------------------------------------------------------------------------*/ static void * find_local_symbol(int fd, const char *symbol, unsigned int symtab, unsigned short symtabsize, unsigned int strtab) { struct elf32_sym s; unsigned int a; char name[30]; struct relevant_section *sect; for(a = symtab; a < symtab + symtabsize; a += sizeof(s)) { seek_read(fd, a, (char *)&s, sizeof(s)); if(s.st_name != 0) { seek_read(fd, strtab + s.st_name, name, sizeof(name)); if(strcmp(name, symbol) == 0) { if(s.st_shndx == bss.number) { sect = &bss; } else if(s.st_shndx == data.number) { sect = &data; } else if(s.st_shndx == rodatafar.number) { sect = &rodatafar; } else if(s.st_shndx == textfar.number) { sect = &textfar; } else { return NULL; } return &(sect->address[s.st_value]); } } } return NULL; } /*---------------------------------------------------------------------------*/ static int relocate_section(int fd, unsigned int section, unsigned short size, unsigned int sectionaddr, char *sectionbase, unsigned int strs, unsigned int strtab, unsigned int symtab, unsigned short symtabsize, unsigned char using_relas) { /* * sectionbase added; runtime start address of current section */ struct elf32_rela rela; /* Now used both for rel and rela data! */ int rel_size = 0; struct elf32_sym s; unsigned int a; char name[30]; char *addr; struct relevant_section *sect; /* determine correct relocation entry sizes */ if(using_relas) { rel_size = sizeof(struct elf32_rela); } else { rel_size = sizeof(struct elf32_rel); } for(a = section; a < section + size; a += rel_size) { seek_read(fd, a, (char *)&rela, rel_size); seek_read(fd, symtab + sizeof(struct elf32_sym) * ELF32_R_SYM(rela.r_info), (char *)&s, sizeof(s)); if(s.st_name != 0) { seek_read(fd, strtab + s.st_name, name, sizeof(name)); PRINTF("name: %s\n", name); addr = (char *)symtab_lookup(name); if(addr == NULL) { PRINTF("name not found in global: %s\n", name); addr = find_local_symbol(fd, name, symtab, symtabsize, strtab); PRINTF("found address %p\n", addr); } if(addr == NULL) { if(s.st_shndx == bss.number) { sect = &bss; } else if(s.st_shndx == data.number) { sect = &data; } else if(s.st_shndx == rodatafar.number) { sect = &rodatafar; } else if(s.st_shndx == textfar.number) { sect = &textfar; } else { PRINTF("elfloader unknown name: '%30s'\n", name); memcpy(elfloader_unknown, name, sizeof(elfloader_unknown)); elfloader_unknown[sizeof(elfloader_unknown) - 1] = 0; return ELFLOADER_SYMBOL_NOT_FOUND; } addr = sect->address; } } else { if(s.st_shndx == bss.number) { sect = &bss; } else if(s.st_shndx == data.number) { sect = &data; } else if(s.st_shndx == rodatafar.number) { sect = &rodatafar; } else if(s.st_shndx == textfar.number) { sect = &textfar; } else { return ELFLOADER_SEGMENT_NOT_FOUND; } addr = sect->address; } if(!using_relas) { /* copy addend to rela structure */ seek_read(fd, sectionaddr + rela.r_offset, (char *)&rela.r_addend, 4); } elfloader_arch_relocate(fd, sectionaddr, sectionbase, &rela, addr); } return ELFLOADER_OK; } /*---------------------------------------------------------------------------*/ static void * find_program_processes(int fd, unsigned int symtab, unsigned short size, unsigned int strtab) { struct elf32_sym s; unsigned int a; char name[30]; for(a = symtab; a < symtab + size; a += sizeof(s)) { seek_read(fd, a, (char *)&s, sizeof(s)); if(s.st_name != 0) { seek_read(fd, strtab + s.st_name, name, sizeof(name)); if(strcmp(name, "autostart_processes") == 0) { return &data.address[s.st_value]; } } } return NULL; } /*---------------------------------------------------------------------------*/ void elfloader_init(void) { elfloader_autostart_processes = NULL; } /*---------------------------------------------------------------------------*/ int elfloader_load(int fd) { struct elf32_ehdr ehdr; struct elf32_shdr shdr; struct elf32_shdr strtable; unsigned int strs; unsigned int shdrptr; unsigned int nameptr; char name[17]; int i; unsigned short shdrnum, shdrsize; unsigned char using_relas = -1; unsigned short textoff = 0, textfaroff = 0, textsize, textfarsize, textrelaoff = 0, textrelasize, textfarrelaoff = 0, textfarrelasize; unsigned short dataoff = 0, datasize, datarelaoff = 0, datarelasize; unsigned short rodataoff = 0, rodatafaroff = 0, rodatasize, rodatafarsize, rodatarelaoff = 0, rodatarelasize, rodatafarrelaoff = 0, rodatafarrelasize; unsigned short symtaboff = 0, symtabsize; unsigned short strtaboff = 0, strtabsize; unsigned short bsssize = 0; struct process **process; int ret; elfloader_unknown[0] = 0; /* The ELF header is located at the start of the buffer. */ seek_read(fd, 0, (char *)&ehdr, sizeof(ehdr)); /* Make sure that we have a correct and compatible ELF header. */ if(memcmp(ehdr.e_ident, elf_magic_header, sizeof(elf_magic_header)) != 0) { PRINTF("ELF header problems\n"); return ELFLOADER_BAD_ELF_HEADER; } /* Grab the section header. */ shdrptr = ehdr.e_shoff; seek_read(fd, shdrptr, (char *)&shdr, sizeof(shdr)); /* Get the size and number of entries of the section header. */ shdrsize = ehdr.e_shentsize; shdrnum = ehdr.e_shnum; PRINTF("Section header: size %d num %d\n", shdrsize, shdrnum); /* The string table section: holds the names of the sections. */ seek_read(fd, ehdr.e_shoff + shdrsize * ehdr.e_shstrndx, (char *)&strtable, sizeof(strtable)); /* * Get a pointer to the actual table of strings. This table holds * the names of the sections, not the names of other symbols in the * file (these are in the sybtam section). */ strs = strtable.sh_offset; PRINTF("Strtable offset %d\n", strs); /* * Go through all sections and pick out the relevant ones. The * ".text" and ".far.text" segments holds the actual code from * the ELF file. The ".data" segment contains initialized data. * The ".bss" segment holds the size of the unitialized data segment. * The ".rodata" and ".far.rodata" segments contains constant data. * The ".rela[a].text" and ".rela[a].far.text" segments contains * relocation information for the contents of the ".text" and * ".far.text" segments, respectively. The ".rela[a].rodata" and * ".rela[a].far.rodata" segments contains relocation information * for the contents of the ".rodata" and ".far.rodata" segments, * respectively. The ".rela[a].data" segment contains relocation * information for the contents of the ".data" segment. The ".symtab" * segment contains the symbol table for this file. The ".strtab" * segment points to the actual string names used by the symbol table. * * In addition to grabbing pointers to the relevant sections, we * also save the section number for resolving addresses in the * relocator code. */ /* * Initialize the segment sizes to zero so that we can check if * their sections was found in the file or not. */ textsize = textfarsize = textrelasize = textfarrelasize = datasize = datarelasize = rodatasize = rodatafarsize = rodatarelasize = rodatafarrelasize = symtabsize = strtabsize = 0; bss.number = data.number = rodata.number = rodatafar.number = text.number = textfar.number = -1; shdrptr = ehdr.e_shoff; for(i = 0; i < shdrnum; ++i) { seek_read(fd, shdrptr, (char *)&shdr, sizeof(shdr)); /* The name of the section is contained in the strings table. */ nameptr = strs + shdr.sh_name; seek_read(fd, nameptr, name, sizeof(name)); PRINTF("Section shdrptr 0x%x, %d + %d type %d\n", shdrptr, strs, shdr.sh_name, (int)shdr.sh_type); /* * Match the name of the section with a predefined set of names * (.text, .far.text, .data, .bss, .rodata, .far.rodata, .rela.text, .rela.far.text, * .rela.data, .rela.rodata, .rela.far.rodata, .symtab, and .strtab). */ if(shdr.sh_type == SHT_SYMTAB) { PRINTF("symtab\n"); symtaboff = shdr.sh_offset; symtabsize = shdr.sh_size; } else if(shdr.sh_type == SHT_STRTAB) { PRINTF("strtab\n"); strtaboff = shdr.sh_offset; strtabsize = shdr.sh_size; } else if(strncmp(name, ".text", 5) == 0) { textoff = shdr.sh_offset; textsize = shdr.sh_size; text.number = i; text.offset = textoff; } else if(strncmp(name, ".far.text", 9) == 0) { textfaroff = shdr.sh_offset; textfarsize = shdr.sh_size; textfar.number = i; textfar.offset = textfaroff; } else if(strncmp(name, ".rel.text", 9) == 0) { using_relas = 0; textrelaoff = shdr.sh_offset; textrelasize = shdr.sh_size; } else if(strncmp(name, ".rela.text", 10) == 0) { using_relas = 1; textrelaoff = shdr.sh_offset; textrelasize = shdr.sh_size; } else if(strncmp(name, ".rela.far.text", 14) == 0) { using_relas = 1; textfarrelaoff = shdr.sh_offset; textfarrelasize = shdr.sh_size; } else if(strncmp(name, ".data", 5) == 0) { dataoff = shdr.sh_offset; datasize = shdr.sh_size; data.number = i; data.offset = dataoff; } else if(strncmp(name, ".rodata", 7) == 0) { /* read-only data handled the same way as regular text section */ rodataoff = shdr.sh_offset; rodatasize = shdr.sh_size; rodata.number = i; rodata.offset = rodataoff; } else if(strncmp(name, ".far.rodata", 11) == 0) { rodatafaroff = shdr.sh_offset; rodatafarsize = shdr.sh_size; rodatafar.number = i; rodatafar.offset = rodataoff; } else if(strncmp(name, ".rel.rodata", 11) == 0) { /* using elf32_rel instead of rela */ using_relas = 0; rodatarelaoff = shdr.sh_offset; rodatarelasize = shdr.sh_size; } else if(strncmp(name, ".rela.rodata", 12) == 0) { using_relas = 1; rodatarelaoff = shdr.sh_offset; rodatarelasize = shdr.sh_size; } else if(strncmp(name, ".rela.far.rodata", 16) == 0) { using_relas = 1; rodatafarrelaoff = shdr.sh_offset; rodatafarrelasize = shdr.sh_size; } else if(strncmp(name, ".rel.data", 9) == 0) { /* using elf32_rel instead of rela */ using_relas = 0; datarelaoff = shdr.sh_offset; datarelasize = shdr.sh_size; } else if(strncmp(name, ".rela.data", 10) == 0) { using_relas = 1; datarelaoff = shdr.sh_offset; datarelasize = shdr.sh_size; } else if(strncmp(name, ".bss", 4) == 0) { bsssize = shdr.sh_size; bss.number = i; bss.offset = 0; } /* Move on to the next section header. */ shdrptr += shdrsize; } if(symtabsize == 0) { return ELFLOADER_NO_SYMTAB; } if(strtabsize == 0) { return ELFLOADER_NO_STRTAB; } if(textfarsize == 0) { return ELFLOADER_NO_TEXT; } PRINTF("before allocate ram\n"); bss.address = (char *)elfloader_arch_allocate_ram(bsssize + datasize); data.address = (char *)bss.address + bsssize; PRINTF("before allocate rom\n"); textfar.address = (char *)elfloader_arch_allocate_rom(textfarsize + rodatafarsize); rodatafar.address = (char *)textfar.address + textfarsize; PRINTF("bss base address: bss.address = 0x%08x\n", bss.address); PRINTF("data base address: data.address = 0x%08x\n", data.address); PRINTF("textfar base address: textfar.address = 0x%08x\n", textfar.address); PRINTF("rodatafar base address: rodatafar.address = 0x%08x\n", rodatafar.address); /* If we have text segment relocations, we process them. */ PRINTF("elfloader: relocate textfar\n"); if(textfarrelasize > 0) { ret = relocate_section(fd, textfarrelaoff, textfarrelasize, textfaroff, textfar.address, strs, strtaboff, symtaboff, symtabsize, using_relas); if(ret != ELFLOADER_OK) { return ret; } } /* If we have any rodata segment relocations, we process them too. */ PRINTF("elfloader: relocate rodata\n"); if(rodatafarrelasize > 0) { ret = relocate_section(fd, rodatafarrelaoff, rodatafarrelasize, rodatafaroff, rodatafar.address, strs, strtaboff, symtaboff, symtabsize, using_relas); if(ret != ELFLOADER_OK) { PRINTF("elfloader: data failed\n"); return ret; } } /* If we have any data segment relocations, we process them too. */ PRINTF("elfloader: relocate data\n"); if(datarelasize > 0) { ret = relocate_section(fd, datarelaoff, datarelasize, dataoff, data.address, strs, strtaboff, symtaboff, symtabsize, using_relas); if(ret != ELFLOADER_OK) { PRINTF("elfloader: data failed\n"); return ret; } } /* Write text and rodata segment into flash and data segment into RAM. */ elfloader_arch_write_rom(fd, textfaroff, textfarsize, textfar.address); elfloader_arch_write_rom(fd, rodatafaroff, rodatafarsize, rodatafar.address); memset(bss.address, 0, bsssize); seek_read(fd, dataoff, data.address, datasize); PRINTF("elfloader: autostart search\n"); process = (struct process **)find_local_symbol(fd, "autostart_processes", symtaboff, symtabsize, strtaboff); if(process != NULL) { PRINTF("elfloader: autostart found\n"); elfloader_autostart_processes = process; return ELFLOADER_OK; } else { PRINTF("elfloader: no autostart\n"); process = (struct process **)find_program_processes(fd, symtaboff, symtabsize, strtaboff); if(process != NULL) { PRINTF("elfloader: FOUND PRG\n"); } return ELFLOADER_NO_STARTPOINT; } } /*---------------------------------------------------------------------------*/ void * elfloader_arch_allocate_ram(int size) { return datamemory; } /*---------------------------------------------------------------------------*/ void * elfloader_arch_allocate_rom(int size) { #if ELFLOADER_CONF_TEXT_IN_ROM /* Return an 512-byte aligned pointer. */ return (char *) ((unsigned long)&textmemory[0] & 0xfffffe00) + (((unsigned long)&textmemory[0] & 0x1ff) == 0 ? 0 : 0x200); #else /* ELFLOADER_CONF_TEXT_IN_ROM */ return textmemory; #endif /* ELFLOADER_CONF_TEXT_IN_ROM */ } /*---------------------------------------------------------------------------*/ #define READSIZE 32 void elfloader_arch_write_rom(int fd, unsigned short textoff, unsigned int size, char *mem) { #if ELFLOADER_CONF_TEXT_IN_ROM int i; unsigned int ptr; unsigned short *flashptr; flash_setup(); flashptr = (unsigned short *)mem; cfs_seek(fd, textoff, CFS_SEEK_SET); for(ptr = 0; ptr < size; ptr += READSIZE) { /* Read data from file into RAM. */ cfs_read(fd, (unsigned char *)datamemory, READSIZE); /* Clear flash page on 512 byte boundary. */ if((((unsigned short)flashptr) & 0x01ff) == 0) { flash_clear(flashptr); } /* * Burn data from RAM into flash ROM. Flash is burned one 16-bit * word at a time, so we need to be careful when incrementing * pointers. The flashptr is already a short pointer, so * incrementing it by one will actually increment the address by * two. */ for(i = 0; i < READSIZE / 2; ++i) { flash_write(flashptr, ((unsigned short *)datamemory)[i]); ++flashptr; } } flash_done(); #else /* ELFLOADER_CONF_TEXT_IN_ROM */ cfs_seek(fd, textoff, CFS_SEEK_SET); cfs_read(fd, (unsigned char *)mem, size); #endif /* ELFLOADER_CONF_TEXT_IN_ROM */ } /*---------------------------------------------------------------------------*/ /* Relocate an MSP430X ELF section. */ void elfloader_arch_relocate(int fd, unsigned int sectionoffset, char *sectionaddr, struct elf32_rela *rela, char *addr) { unsigned int type; unsigned char instr[2]; type = ELF32_R_TYPE(rela->r_info); addr += rela->r_addend; switch(type) { case R_MSP430_16: case R_MSP430_16_PCREL: case R_MSP430_16_BYTE: case R_MSP430_16_PCREL_BYTE: cfs_seek(fd, sectionoffset + rela->r_offset, CFS_SEEK_SET); cfs_write(fd, (char *)&addr, 2); break; case R_MSP430_32: cfs_seek(fd, sectionoffset + rela->r_offset, CFS_SEEK_SET); cfs_write(fd, (char *)&addr, 2); break; case R_MSP430X_S: case R_MSP430X_S_BYTE: /* src(19:16) located at positions 11:8 of opcode */ /* src(15:0) located just after opcode */ cfs_seek(fd, sectionoffset + rela->r_offset, CFS_SEEK_SET); cfs_read(fd, instr, 2); instr[1] = (int)(instr[1]) & 0xf0 | (((long int)addr >> 8) & 0x0f00); instr[0] = (int)(instr[0]) & 0xff; cfs_seek(fd, sectionoffset + rela->r_offset, CFS_SEEK_SET); cfs_write(fd, instr, 2); cfs_write(fd, (char *)&addr, 2); break; case R_MSP430X_D: case R_MSP430X_PCREL_D: case R_MSP430X_D_BYTE: /* dst(19:16) located at positions 3:0 of opcode */ /* dst(15:0) located just after opcode */ cfs_seek(fd, sectionoffset + rela->r_offset, CFS_SEEK_SET); cfs_read(fd, instr, 2); instr[1] = (int)(instr[1]) & 0xff; instr[0] = (int)(instr[0]) & 0xf0 | (((long int)addr >> 16) & 0x000f); cfs_seek(fd, sectionoffset + rela->r_offset, CFS_SEEK_SET); cfs_write(fd, instr, 2); cfs_write(fd, (char *)&addr, 2); break; case R_MSP430X_PCREL_SRC_BYTE: case R_MSP430X_SRC_BYTE: case R_MSP430X_PCREL_SRC: case R_MSP430X_SRC: /* src(19:16) located at positions 10:7 of extension word */ /* src(15:0) located just after opcode */ cfs_seek(fd, sectionoffset + rela->r_offset, CFS_SEEK_SET); cfs_read(fd, instr, 2); /* 4 most-significant bits */ instr[1] = (int)(instr[1]) & 0xf8 | (((long int)addr >> 9) & 0x0780); instr[0] = (int)(instr[0]) & 0x7f | (((long int)addr >> 9) & 0x0780); cfs_seek(fd, sectionoffset + rela->r_offset, CFS_SEEK_SET); cfs_write(fd, instr, 2); /* 16 least-significant bits */ cfs_seek(fd, sectionoffset + rela->r_offset + 0x04, CFS_SEEK_SET); cfs_write(fd, (char *)&addr, 2); break; case R_MSP430X_DST_BYTE: case R_MSP430X_PCREL_DST_BYTE: case R_MSP430X_DST: case R_MSP430X_PCREL_DST: /* dst(19:16) located at positions 3:0 of extension word */ /* dst(15:0) located just after opcode */ cfs_seek(fd, sectionoffset + rela->r_offset, CFS_SEEK_SET); cfs_read(fd, instr, 2); instr[1] = (int)(instr[1]) & 0xff; instr[0] = (int)(instr[0]) & 0xf0 | (((long int)addr >> 16) & 0x000f); cfs_seek(fd, sectionoffset + rela->r_offset, CFS_SEEK_SET); cfs_write(fd, instr, 2); cfs_seek(fd, sectionoffset + rela->r_offset + 0x04, CFS_SEEK_SET); cfs_write(fd, (char *)&addr, 2); break; case R_MSP430X_DST_2ND: case R_MSP430X_PCREL_DST_2ND: case R_MSP430X_DST_2ND_BYTE: case R_MSP430X_PCREL_DST_2ND_BYTE: /* dst(19:16) located at positions 3:0 of extension word */ /* dst(15:0) located after src(15:0) */ cfs_seek(fd, sectionoffset + rela->r_offset, CFS_SEEK_SET); cfs_read(fd, instr, 2); instr[1] = (int)(instr[1]) & 0xff; instr[0] = (int)(instr[0]) & 0xf0 | (((long int)addr >> 16) & 0x000f); cfs_seek(fd, sectionoffset + rela->r_offset, CFS_SEEK_SET); cfs_write(fd, instr, 2); cfs_seek(fd, sectionoffset + rela->r_offset + 0x06, CFS_SEEK_SET); cfs_write(fd, (char *)&addr, 2); break; case R_MSP430X_INDXD: case R_MSP430X_PCREL_INDXD: cfs_seek(fd, sectionoffset + rela->r_offset + 0x02, CFS_SEEK_SET); cfs_write(fd, (char *)&addr, 2); break; default: PRINTF("Unknown relocation type!\n"); break; } } /*---------------------------------------------------------------------------*/