X-Git-Url: https://review.openocd.org/gitweb?p=openocd.git;a=blobdiff_plain;f=src%2Ftarget%2Fimage.c;h=173fca564dd9cec06d7e16095004b6558eb57df8;hp=1f65e3ffb2599105ac117a04ce0705c449fae272;hb=6c9b804d6187edda4f46f8458deec0b17ec76bb9;hpb=7087b66f19a7d60025f7315baa26d682804f3640 diff --git a/src/target/image.c b/src/target/image.c index 1f65e3ffb2..173fca564d 100644 --- a/src/target/image.c +++ b/src/target/image.c @@ -23,7 +23,9 @@ #include #include +#ifdef HAVE_ELF_H #include +#endif #include "image.h" @@ -35,63 +37,159 @@ #include "target.h" /* convert ELF header field to host endianness */ -#define field16(elf,field)\ - ((elf->endianness==ELFDATA2LSB)? \ - le_to_h_u16((u8*)&field):be_to_h_u16((u8*)&field)) +#define field16(elf, field)\ + ((elf->endianness == ELFDATA2LSB)? \ + le_to_h_u16((u8*)&field) : be_to_h_u16((u8*)&field)) + +#define field32(elf, field)\ + ((elf->endianness == ELFDATA2LSB)? \ + le_to_h_u32((u8*)&field) : be_to_h_u32((u8*)&field)) + +static int autodetect_image_type(image_t *image, char *url) +{ + int retval; + fileio_t fileio; + u32 read_bytes; + u8 buffer[9]; + + /* read the first 4 bytes of image */ + if ((retval = fileio_open(&fileio, url, FILEIO_READ, FILEIO_BINARY)) != ERROR_OK) + { + snprintf(image->error_str, IMAGE_MAX_ERROR_STRING, "cannot open image: %s", fileio.error_str); + ERROR(image->error_str); + return retval; + } + if ((retval = fileio_read(&fileio, 9, buffer, &read_bytes)) != ERROR_OK) + { + snprintf(image->error_str, IMAGE_MAX_ERROR_STRING, "cannot read image header: %s", fileio.error_str); + ERROR(image->error_str); + return ERROR_FILEIO_OPERATION_FAILED; + } + if (read_bytes != 9) + { + snprintf(image->error_str, IMAGE_MAX_ERROR_STRING, "cannot read image, only partially read"); + ERROR(image->error_str); + return ERROR_FILEIO_OPERATION_FAILED; + } + fileio_close(&fileio); + + /* check header against known signatures */ + if (strncmp((char*)buffer,ELFMAG,SELFMAG)==0) + { + DEBUG("ELF image detected."); + image->type = IMAGE_ELF; + } + else if ((buffer[0] == ':') /* record start byte */ + &&(isxdigit(buffer[1])) + &&(isxdigit(buffer[2])) + &&(isxdigit(buffer[3])) + &&(isxdigit(buffer[4])) + &&(isxdigit(buffer[5])) + &&(isxdigit(buffer[6])) + &&(buffer[7] == '0') /* record type : 00 -> 05 */ + &&(buffer[8] >= '0') && (buffer[8] < '6')) + { + DEBUG("IHEX image detected."); + image->type = IMAGE_IHEX; + } + else if ((buffer[0] == 'S') /* record start byte */ + &&(isxdigit(buffer[1])) + &&(isxdigit(buffer[2])) + &&(isxdigit(buffer[3])) + &&(buffer[1] >= '0') && (buffer[1] < '9')) + { + DEBUG("S19 image detected."); + image->type = IMAGE_SRECORD; + } + else + { + image->type = IMAGE_BINARY; + } -#define field32(elf,field)\ - ((elf->endianness==ELFDATA2LSB)? \ - le_to_h_u32((u8*)&field):be_to_h_u32((u8*)&field)) + return ERROR_OK; +} + +int identify_image_type(image_t *image, char *type_string, char *url) +{ + if (type_string) + { + if (!strcmp(type_string, "bin")) + { + image->type = IMAGE_BINARY; + } + else if (!strcmp(type_string, "ihex")) + { + image->type = IMAGE_IHEX; + } + else if (!strcmp(type_string, "elf")) + { + image->type = IMAGE_ELF; + } + else if (!strcmp(type_string, "mem")) + { + image->type = IMAGE_MEMORY; + } + else if (!strcmp(type_string, "s19")) + { + image->type = IMAGE_SRECORD; + } + else if (!strcmp(type_string, "build")) + { + image->type = IMAGE_BUILDER; + } + else + { + return ERROR_IMAGE_TYPE_UNKNOWN; + } + } + else + { + return autodetect_image_type(image, url); + } + + return ERROR_OK; +} int image_ihex_buffer_complete(image_t *image) { image_ihex_t *ihex = image->type_private; fileio_t *fileio = &ihex->fileio; - u32 raw_bytes_read, raw_bytes; - int retval; u32 full_address = 0x0; - char *buffer = malloc(fileio->size); u32 cooked_bytes; int i; + char lpszLine[1023]; /* we can't determine the number of sections that we'll have to create ahead of time, * so we locally hold them until parsing is finished */ image_section_t section[IMAGE_MAX_SECTIONS]; - - if ((retval = fileio_read(fileio, fileio->size, (u8*)buffer, &raw_bytes_read)) != ERROR_OK) - { - free(buffer); - ERROR("failed buffering IHEX file, read failed"); - return ERROR_FILEIO_OPERATION_FAILED; - } - - if (raw_bytes_read != fileio->size) - { - free(buffer); - ERROR("failed buffering complete IHEX file, only partially read"); - return ERROR_FILEIO_OPERATION_FAILED; - } ihex->buffer = malloc(fileio->size >> 1); - raw_bytes = 0x0; cooked_bytes = 0x0; image->num_sections = 0; section[image->num_sections].private = &ihex->buffer[cooked_bytes]; section[image->num_sections].base_address = 0x0; section[image->num_sections].size = 0x0; section[image->num_sections].flags = 0; - while (raw_bytes < raw_bytes_read) + + while (fileio_fgets(fileio, 1023, lpszLine) == ERROR_OK) { u32 count; u32 address; u32 record_type; u32 checksum; + u8 cal_checksum = 0; + u32 bytes_read = 0; - if (sscanf(&buffer[raw_bytes], ":%2x%4x%2x", &count, &address, &record_type) != 3) + if (sscanf(&lpszLine[bytes_read], ":%2x%4x%2x", &count, &address, &record_type) != 3) { return ERROR_IMAGE_FORMAT_ERROR; } - raw_bytes += 9; + bytes_read += 9; + + cal_checksum += (u8)count; + cal_checksum += (u8)(address >> 8); + cal_checksum += (u8)address; + cal_checksum += (u8)record_type; if (record_type == 0) /* Data Record */ { @@ -115,8 +213,9 @@ int image_ihex_buffer_complete(image_t *image) while (count-- > 0) { - sscanf(&buffer[raw_bytes], "%2hhx", &ihex->buffer[cooked_bytes]); - raw_bytes += 2; + sscanf(&lpszLine[bytes_read], "%2x", (u32*)&ihex->buffer[cooked_bytes]); + cal_checksum += (u8)ihex->buffer[cooked_bytes]; + bytes_read += 2; cooked_bytes += 1; section[image->num_sections].size += 1; full_address++; @@ -132,21 +231,61 @@ int image_ihex_buffer_complete(image_t *image) for (i = 0; i < image->num_sections; i++) { image->sections[i].private = section[i].private; - image->sections[i].base_address = section[i].base_address + - ((image->base_address_set) ? image->base_address : 0); + image->sections[i].base_address = section[i].base_address; image->sections[i].size = section[i].size; image->sections[i].flags = section[i].flags; } - free(buffer); return ERROR_OK; } + else if (record_type == 2) /* Linear Address Record */ + { + u16 upper_address; + + sscanf(&lpszLine[bytes_read], "%4hx", &upper_address); + cal_checksum += (u8)(upper_address >> 8); + cal_checksum += (u8)upper_address; + bytes_read += 4; + + if ((full_address >> 4) != upper_address) + { + /* we encountered a nonconsecutive location, create a new section, + * unless the current section has zero size, in which case this specifies + * the current section's base address + */ + if (section[image->num_sections].size != 0) + { + image->num_sections++; + section[image->num_sections].size = 0x0; + section[image->num_sections].flags = 0; + section[image->num_sections].private = &ihex->buffer[cooked_bytes]; + } + section[image->num_sections].base_address = + (full_address & 0xffff) | (upper_address << 4); + full_address = (full_address & 0xffff) | (upper_address << 4); + } + } + else if (record_type == 3) /* Start Segment Address Record */ + { + u32 dummy; + + /* "Start Segment Address Record" will not be supported */ + /* but we must consume it, and do not create an error. */ + while (count-- > 0) + { + sscanf(&lpszLine[bytes_read], "%2x", &dummy); + cal_checksum += (u8)dummy; + bytes_read += 2; + } + } else if (record_type == 4) /* Extended Linear Address Record */ { u16 upper_address; - sscanf(&buffer[raw_bytes], "%4hx", &upper_address); - raw_bytes += 4; + sscanf(&lpszLine[bytes_read], "%4hx", &upper_address); + cal_checksum += (u8)(upper_address >> 8); + cal_checksum += (u8)upper_address; + bytes_read += 4; if ((full_address >> 16) != upper_address) { @@ -170,31 +309,33 @@ int image_ihex_buffer_complete(image_t *image) { u32 start_address; - sscanf(&buffer[raw_bytes], "%8x", &start_address); - raw_bytes += 8; + sscanf(&lpszLine[bytes_read], "%8x", &start_address); + cal_checksum += (u8)(start_address >> 24); + cal_checksum += (u8)(start_address >> 16); + cal_checksum += (u8)(start_address >> 8); + cal_checksum += (u8)start_address; + bytes_read += 8; image->start_address_set = 1; image->start_address = be_to_h_u32((u8*)&start_address); } else { - free(buffer); ERROR("unhandled IHEX record type: %i", record_type); return ERROR_IMAGE_FORMAT_ERROR; } - sscanf(&buffer[raw_bytes], "%2x", &checksum); - raw_bytes += 2; + sscanf(&lpszLine[bytes_read], "%2x", &checksum); + bytes_read += 2; - /* consume new-line character(s) */ - if ((buffer[raw_bytes] == '\n') || (buffer[raw_bytes] == '\r')) - raw_bytes++; - - if ((buffer[raw_bytes] == '\n') || (buffer[raw_bytes] == '\r')) - raw_bytes++; + if ((u8)checksum != (u8)(~cal_checksum + 1)) + { + /* checksum failed */ + ERROR("incorrect record checksum found in IHEX file"); + return ERROR_IMAGE_CHECKSUM; + } } - - free(buffer); + ERROR("premature end of IHEX file, no end-of-file record found"); return ERROR_IMAGE_FORMAT_ERROR; } @@ -219,12 +360,12 @@ int image_elf_read_headers(image_t *image) return ERROR_FILEIO_OPERATION_FAILED; } - if (strncmp((char*)elf->header->e_ident,ELFMAG,SELFMAG)!=0) + if (strncmp((char*)elf->header->e_ident,ELFMAG,SELFMAG) != 0) { ERROR("invalid ELF file, bad magic number"); return ERROR_IMAGE_FORMAT_ERROR; } - if (elf->header->e_ident[EI_CLASS]!=ELFCLASS32) + if (elf->header->e_ident[EI_CLASS] != ELFCLASS32) { ERROR("invalid ELF file, only 32bits files are supported"); return ERROR_IMAGE_FORMAT_ERROR; @@ -232,54 +373,54 @@ int image_elf_read_headers(image_t *image) elf->endianness = elf->header->e_ident[EI_DATA]; - if ((elf->endianness==ELFDATANONE) - ||(elf->endianness>=ELFDATANUM)) + if ((elf->endianness != ELFDATA2LSB) + &&(elf->endianness != ELFDATA2MSB)) { ERROR("invalid ELF file, unknown endianess setting"); return ERROR_IMAGE_FORMAT_ERROR; } - elf->segment_count = field16(elf,elf->header->e_phnum); - if (elf->segment_count==0) + elf->segment_count = field16(elf, elf->header->e_phnum); + if (elf->segment_count == 0) { ERROR("invalid ELF file, no program headers"); return ERROR_IMAGE_FORMAT_ERROR; } - elf->segments = malloc(elf->segment_count*sizeof(Elf32_Phdr)); + elf->segments = malloc(elf->segment_count * sizeof(Elf32_Phdr)); - if ((retval = fileio_read(&elf->fileio, elf->segment_count*sizeof(Elf32_Phdr), (u8*)elf->segments, &read_bytes)) != ERROR_OK) + if ((retval = fileio_read(&elf->fileio, elf->segment_count * sizeof(Elf32_Phdr), (u8*)elf->segments, &read_bytes)) != ERROR_OK) { ERROR("cannot read ELF segment headers, read failed"); return retval; } - if (read_bytes != elf->segment_count*sizeof(Elf32_Phdr)) + if (read_bytes != elf->segment_count * sizeof(Elf32_Phdr)) { ERROR("cannot read ELF segment headers, only partially read"); return ERROR_FILEIO_OPERATION_FAILED; } - /* count useful segments (loadable) */ + /* count useful segments (loadable), ignore BSS section */ image->num_sections = 0; - for (i=0;isegment_count;i++) - if (field32(elf,elf->segments[i].p_type) == PT_LOAD) + for (i = 0; i < elf->segment_count; i++) + if ((field32(elf, elf->segments[i].p_type) == PT_LOAD) && (field32(elf, elf->segments[i].p_filesz) != 0)) image->num_sections++; /* alloc and fill sections array with loadable segments */ image->sections = malloc(image->num_sections * sizeof(image_section_t)); - for (i=0,j=0;isegment_count;i++) + for (i = 0, j = 0; i < elf->segment_count; i++) { - if (field32(elf,elf->segments[i].p_type) == PT_LOAD) + if ((field32(elf, elf->segments[i].p_type) == PT_LOAD) && (field32(elf, elf->segments[i].p_filesz) != 0)) { - image->sections[j].size = field32(elf,elf->segments[i].p_memsz); - image->sections[j].base_address = field32(elf,elf->segments[i].p_vaddr); + image->sections[j].size = field32(elf, elf->segments[i].p_memsz); + image->sections[j].base_address = field32(elf, elf->segments[i].p_paddr); image->sections[j].private = &elf->segments[i]; - image->sections[j].flags = field32(elf,elf->segments[i].p_flags); + image->sections[j].flags = field32(elf, elf->segments[i].p_flags); j++; } } image->start_address_set = 1; - image->start_address = field32(elf,elf->header->e_entry); + image->start_address = field32(elf, elf->header->e_entry); return ERROR_OK; } @@ -288,22 +429,22 @@ int image_elf_read_section(image_t *image, int section, u32 offset, u32 size, u8 { image_elf_t *elf = image->type_private; Elf32_Phdr *segment = (Elf32_Phdr *)image->sections[section].private; - u32 read_size,really_read; + u32 read_size, really_read; int retval; *size_read = 0; - DEBUG("load segment %d at 0x%x (sz=0x%x)",section,offset,size); + DEBUG("load segment %d at 0x%x (sz = 0x%x)", section, offset, size); /* read initialized data in current segment if any */ - if (offsetp_filesz)) + if (offset < field32(elf, segment->p_filesz)) { /* maximal size present in file for the current segment */ - read_size = MIN(size, field32(elf,segment->p_filesz)-offset); - DEBUG("read elf: size = 0x%x at 0x%x",read_size, - field32(elf,segment->p_offset)+offset); + read_size = MIN(size, field32(elf, segment->p_filesz) - offset); + DEBUG("read elf: size = 0x%x at 0x%x", read_size, + field32(elf, segment->p_offset) + offset); /* read initialized area of the segment */ - if ((retval = fileio_seek(&elf->fileio, field32(elf,segment->p_offset)+offset)) != ERROR_OK) + if ((retval = fileio_seek(&elf->fileio, field32(elf, segment->p_offset) + offset)) != ERROR_OK) { ERROR("cannot find ELF segment content, seek failed"); return retval; @@ -321,31 +462,193 @@ int image_elf_read_section(image_t *image, int section, u32 offset, u32 size, u8 if (!size) return ERROR_OK; } - /* if there is remaining zeroed area in current segment */ - if (offsetp_memsz)) + + return ERROR_OK; +} + +int image_mot_buffer_complete(image_t *image) +{ + image_mot_t *mot = image->type_private; + fileio_t *fileio = &mot->fileio; + u32 full_address = 0x0; + u32 cooked_bytes; + int i; + char lpszLine[1023]; + + /* we can't determine the number of sections that we'll have to create ahead of time, + * so we locally hold them until parsing is finished */ + image_section_t section[IMAGE_MAX_SECTIONS]; + + mot->buffer = malloc(fileio->size >> 1); + cooked_bytes = 0x0; + image->num_sections = 0; + section[image->num_sections].private = &mot->buffer[cooked_bytes]; + section[image->num_sections].base_address = 0x0; + section[image->num_sections].size = 0x0; + section[image->num_sections].flags = 0; + + while (fileio_fgets(fileio, 1023, lpszLine) == ERROR_OK) { - /* fill zeroed part (BSS) of the segment */ - read_size = MIN(size, field32(elf,segment->p_memsz)-offset); - DEBUG("zero fill: size = 0x%x",read_size); - memset(buffer,0,read_size); - *size_read += read_size; + u32 count; + u32 address; + u32 record_type; + u32 checksum; + u8 cal_checksum = 0; + u32 bytes_read = 0; + + /* get record type and record length */ + if (sscanf(&lpszLine[bytes_read], "S%1x%2x", &record_type, &count) != 2) + { + return ERROR_IMAGE_FORMAT_ERROR; + } + + bytes_read += 4; + cal_checksum += (u8)count; + + /* skip checksum byte */ + count -=1; + + if (record_type == 0) + { + /* S0 - starting record (optional) */ + int iValue; + + while (count-- > 0) { + sscanf(&lpszLine[bytes_read], "%2x", &iValue); + cal_checksum += (u8)iValue; + bytes_read += 2; + } + } + else if (record_type >= 1 && record_type <= 3) + { + switch( record_type ) + { + case 1: + /* S1 - 16 bit address data record */ + sscanf(&lpszLine[bytes_read], "%4x", &address); + cal_checksum += (u8)(address >> 8); + cal_checksum += (u8)address; + bytes_read += 4; + count -=2; + break; + + case 2: + /* S2 - 24 bit address data record */ + sscanf(&lpszLine[bytes_read], "%6x", &address); + cal_checksum += (u8)(address >> 16); + cal_checksum += (u8)(address >> 8); + cal_checksum += (u8)address; + bytes_read += 6; + count -=3; + break; + + case 3: + /* S3 - 32 bit address data record */ + sscanf(&lpszLine[bytes_read], "%8x", &address); + cal_checksum += (u8)(address >> 24); + cal_checksum += (u8)(address >> 16); + cal_checksum += (u8)(address >> 8); + cal_checksum += (u8)address; + bytes_read += 8; + count -=4; + break; + } + + if (full_address != address) + { + /* we encountered a nonconsecutive location, create a new section, + * unless the current section has zero size, in which case this specifies + * the current section's base address + */ + if (section[image->num_sections].size != 0) + { + image->num_sections++; + section[image->num_sections].size = 0x0; + section[image->num_sections].flags = 0; + section[image->num_sections].private = &mot->buffer[cooked_bytes]; + } + section[image->num_sections].base_address = address; + full_address = address; + } + + while (count-- > 0) + { + sscanf(&lpszLine[bytes_read], "%2x", (u32*)&mot->buffer[cooked_bytes]); + cal_checksum += (u8)mot->buffer[cooked_bytes]; + bytes_read += 2; + cooked_bytes += 1; + section[image->num_sections].size += 1; + full_address++; + } + } + else if (record_type == 5) + { + /* S5 is the data count record, we ignore it */ + u32 dummy; + + while (count-- > 0) + { + sscanf(&lpszLine[bytes_read], "%2x", &dummy); + cal_checksum += (u8)dummy; + bytes_read += 2; + } + } + else if (record_type >= 7 && record_type <= 9) + { + /* S7, S8, S9 - ending records for 32, 24 and 16bit */ + image->num_sections++; + + /* copy section information */ + image->sections = malloc(sizeof(image_section_t) * image->num_sections); + for (i = 0; i < image->num_sections; i++) + { + image->sections[i].private = section[i].private; + image->sections[i].base_address = section[i].base_address; + image->sections[i].size = section[i].size; + image->sections[i].flags = section[i].flags; + } + + return ERROR_OK; + } + else + { + ERROR("unhandled S19 record type: %i", record_type); + return ERROR_IMAGE_FORMAT_ERROR; + } + + /* account for checksum, will always be 0xFF */ + sscanf(&lpszLine[bytes_read], "%2x", &checksum); + cal_checksum += (u8)checksum; + bytes_read += 2; + + if( cal_checksum != 0xFF ) + { + /* checksum failed */ + ERROR("incorrect record checksum found in S19 file"); + return ERROR_IMAGE_CHECKSUM; + } } - return ERROR_OK; + ERROR("premature end of S19 file, no end-of-file record found"); + return ERROR_IMAGE_FORMAT_ERROR; } -int image_open(image_t *image, void *source, enum fileio_access access) +int image_open(image_t *image, char *url, char *type_string) { int retval = ERROR_OK; + if ((retval = identify_image_type(image, type_string, url)) != ERROR_OK) + { + return retval; + } + if (image->type == IMAGE_BINARY) { image_binary_t *image_binary; - char *url = source; image_binary = image->type_private = malloc(sizeof(image_binary_t)); - if ((retval = fileio_open(&image_binary->fileio, url, access, FILEIO_BINARY)) != ERROR_OK) + if ((retval = fileio_open(&image_binary->fileio, url, FILEIO_READ, FILEIO_BINARY)) != ERROR_OK) { strncpy(image->error_str, image_binary->fileio.error_str, IMAGE_MAX_ERROR_STRING); ERROR(image->error_str); @@ -357,24 +660,10 @@ int image_open(image_t *image, void *source, enum fileio_access access) image->sections[0].base_address = 0x0; image->sections[0].size = image_binary->fileio.size; image->sections[0].flags = 0; - - if (image->base_address_set == 1) - image->sections[0].base_address = image->base_address; - - return ERROR_OK; } else if (image->type == IMAGE_IHEX) { image_ihex_t *image_ihex; - char *url = source; - - if (access != FILEIO_READ) - { - snprintf(image->error_str, IMAGE_MAX_ERROR_STRING, - "can't open IHEX file for writing"); - ERROR(image->error_str); - return ERROR_FILEIO_ACCESS_NOT_SUPPORTED; - } image_ihex = image->type_private = malloc(sizeof(image_ihex_t)); @@ -397,7 +686,6 @@ int image_open(image_t *image, void *source, enum fileio_access access) else if (image->type == IMAGE_ELF) { image_elf_t *image_elf; - char *url = source; image_elf = image->type_private = malloc(sizeof(image_elf_t)); @@ -420,11 +708,61 @@ int image_open(image_t *image, void *source, enum fileio_access access) else if (image->type == IMAGE_MEMORY) { image_memory_t *image_memory; - target_t *target = source; + + image->num_sections = 1; + image->sections = malloc(sizeof(image_section_t)); + image->sections[0].base_address = 0x0; + image->sections[0].size = 0xffffffff; + image->sections[0].flags = 0; image_memory = image->type_private = malloc(sizeof(image_memory_t)); - image_memory->target = target; + image_memory->target = get_target_by_num(strtoul(url, NULL, 0));; + image_memory->cache = NULL; + image_memory->cache_address = 0x0; + } + else if (image->type == IMAGE_SRECORD) + { + image_mot_t *image_mot; + + image_mot = image->type_private = malloc(sizeof(image_mot_t)); + + if ((retval = fileio_open(&image_mot->fileio, url, FILEIO_READ, FILEIO_TEXT)) != ERROR_OK) + { + strncpy(image->error_str, image_mot->fileio.error_str, IMAGE_MAX_ERROR_STRING); + ERROR(image->error_str); + return retval; + } + + if ((retval = image_mot_buffer_complete(image)) != ERROR_OK) + { + snprintf(image->error_str, IMAGE_MAX_ERROR_STRING, + "failed buffering S19 image, check daemon output for additional information"); + ERROR(image->error_str); + fileio_close(&image_mot->fileio); + return retval; + } + } + else if (image->type == IMAGE_BUILDER) + { + image->num_sections = 0; + image->sections = NULL; + image->type_private = NULL; + } + + if (image->base_address_set) + { + /* relocate */ + int section; + for (section = 0; section < image->num_sections; section++) + { + image->sections[section].base_address += image->base_address; + } + /* we're done relocating. The two statements below are mainly + * for documenation purposes: stop anyone from empirically + * thinking they should use these values henceforth. */ + image->base_address = 0; + image->base_address_set = 0; } return retval; @@ -433,7 +771,15 @@ int image_open(image_t *image, void *source, enum fileio_access access) int image_read_section(image_t *image, int section, u32 offset, u32 size, u8 *buffer, u32 *size_read) { int retval; - + + /* don't read past the end of a section */ + if (offset + size > image->sections[section].size) + { + DEBUG("read past end of section: 0x%8.8x + 0x%8.8x > 0x%8.8x", + offset, size, image->sections[section].size); + return ERROR_INVALID_ARGUMENTS; + } + if (image->type == IMAGE_BINARY) { image_binary_t *image_binary = image->type_private; @@ -442,9 +788,6 @@ int image_read_section(image_t *image, int section, u32 offset, u32 size, u8 *bu if (section != 0) return ERROR_INVALID_ARGUMENTS; - if ((offset > image->sections[0].size) || (offset + size > image->sections[0].size)) - return ERROR_INVALID_ARGUMENTS; - /* seek to offset */ if ((retval = fileio_seek(&image_binary->fileio, offset)) != ERROR_OK) { @@ -473,8 +816,96 @@ int image_read_section(image_t *image, int section, u32 offset, u32 size, u8 *bu } else if (image->type == IMAGE_MEMORY) { - /* TODO: handle target memory pseudo image */ + image_memory_t *image_memory = image->type_private; + u32 address = image->sections[section].base_address + offset; + + *size_read = 0; + + while ((size - *size_read) > 0) + { + u32 size_in_cache; + + if (!image_memory->cache + || (address < image_memory->cache_address) + || (address >= (image_memory->cache_address + IMAGE_MEMORY_CACHE_SIZE))) + { + if (!image_memory->cache) + image_memory->cache = malloc(IMAGE_MEMORY_CACHE_SIZE); + + if (target_read_buffer(image_memory->target, address & ~(IMAGE_MEMORY_CACHE_SIZE - 1), + IMAGE_MEMORY_CACHE_SIZE, image_memory->cache) != ERROR_OK) + { + free(image_memory->cache); + image_memory->cache = NULL; + return ERROR_IMAGE_TEMPORARILY_UNAVAILABLE; + } + image_memory->cache_address = address & ~(IMAGE_MEMORY_CACHE_SIZE - 1); + } + + size_in_cache = (image_memory->cache_address + IMAGE_MEMORY_CACHE_SIZE) - address; + + memcpy(buffer + *size_read, + image_memory->cache + (address - image_memory->cache_address), + (size_in_cache > size) ? size : size_in_cache + ); + + *size_read += (size_in_cache > size) ? size : size_in_cache; + address += (size_in_cache > size) ? size : size_in_cache; + } + } + else if (image->type == IMAGE_SRECORD) + { + memcpy(buffer, (u8*)image->sections[section].private + offset, size); + *size_read = size; + image->error_str[0] = '\0'; + + return ERROR_OK; + } + else if (image->type == IMAGE_BUILDER) + { + memcpy(buffer, (u8*)image->sections[section].private + offset, size); + *size_read = size; + image->error_str[0] = '\0'; + + return ERROR_OK; + } + + return ERROR_OK; +} + +int image_add_section(image_t *image, u32 base, u32 size, int flags, u8 *data) +{ + image_section_t *section; + + /* only image builder supports adding sections */ + if (image->type != IMAGE_BUILDER) + return ERROR_INVALID_ARGUMENTS; + + /* see if there's a previous section */ + if (image->num_sections) + { + section = &image->sections[image->num_sections - 1]; + + /* see if it's enough to extend the last section, + * adding data to previous sections or merging is not supported */ + if (((section->base_address + section->size) == base) && (section->flags == flags)) + { + section->private = realloc(section->private, section->size + size); + memcpy((u8*)section->private + section->size, data, size); + section->size += size; + return ERROR_OK; + } } + + /* allocate new section */ + image->num_sections++; + image->sections = realloc(image->sections, sizeof(image_section_t) * image->num_sections); + section = &image->sections[image->num_sections - 1]; + section->base_address = base; + section->size = size; + section->flags = flags; + section->private = malloc(sizeof(u8) * size); + memcpy((u8*)section->private, data, size); return ERROR_OK; } @@ -493,63 +924,106 @@ int image_close(image_t *image) fileio_close(&image_ihex->fileio); - if (image_ihex->section_pointer) - free(image_ihex->section_pointer); - if (image_ihex->buffer) + { free(image_ihex->buffer); + image_ihex->buffer = NULL; + } } else if (image->type == IMAGE_ELF) { image_elf_t *image_elf = image->type_private; fileio_close(&image_elf->fileio); - + if (image_elf->header) + { free(image_elf->header); + image_elf->header = NULL; + } if (image_elf->segments) + { free(image_elf->segments); + image_elf->segments = NULL; + } } else if (image->type == IMAGE_MEMORY) { - /* do nothing for now */ + image_memory_t *image_memory = image->type_private; + + if (image_memory->cache) + { + free(image_memory->cache); + image_memory->cache = NULL; + } + } + else if (image->type == IMAGE_SRECORD) + { + image_mot_t *image_mot = image->type_private; + + fileio_close(&image_mot->fileio); + + if (image_mot->buffer) + { + free(image_mot->buffer); + image_mot->buffer = NULL; + } + } + else if (image->type == IMAGE_BUILDER) + { + int i; + + for (i = 0; i < image->num_sections; i++) + { + free(image->sections[i].private); + image->sections[i].private = NULL; + } } if (image->type_private) + { free(image->type_private); + image->type_private = NULL; + } if (image->sections) + { free(image->sections); + image->sections = NULL; + } return ERROR_OK; } -int identify_image_type(image_type_t *type, char *type_string) +static u32 crc32_table[256] = {0, 0}; + +int image_calculate_checksum(u8* buffer, u32 nbytes, u32* checksum) { - if (type_string) + u32 crc = 0xffffffff; + + if (!crc32_table[1]) { - if (!strcmp(type_string, "bin")) + /* Initialize the CRC table and the decoding table. */ + int i, j; + unsigned int c; + for (i = 0; i < 256; i++) { - *type = IMAGE_BINARY; - } - else if (!strcmp(type_string, "ihex")) - { - *type = IMAGE_IHEX; - } - else if (!strcmp(type_string, "elf")) - { - *type = IMAGE_ELF; - } - else - { - return ERROR_IMAGE_TYPE_UNKNOWN; + /* as per gdb */ + for (c = i << 24, j = 8; j > 0; --j) + c = c & 0x80000000 ? (c << 1) ^ 0x04c11db7 : (c << 1); + crc32_table[i] = c; } } - else + + while (nbytes--) { - *type = IMAGE_BINARY; + /* as per gdb */ + crc = (crc << 8) ^ crc32_table[((crc >> 24) ^ *buffer++) & 255]; } + *checksum = crc; return ERROR_OK; } + +