From: Pali Rohár Date: Wed, 12 Jan 2022 17:20:41 +0000 (+0100) Subject: tools: kwbimage: Add support for specifying LOAD_ADDRESS for BINARY command X-Git-Url: http://git.dujemihanovic.xyz/?a=commitdiff_plain;h=0aca27ea185188a50292dd5bcec07fef020d10e6;p=u-boot.git tools: kwbimage: Add support for specifying LOAD_ADDRESS for BINARY command ARM executable code included in kwbimage binary header, which is not position independent, needs to be loaded and executed by BootROM at the correct fixed address. Armada BootROMs load kwbimage header (in which the executable code is also stored) at fixed address 0x40004000 or 0x40000000 which is mapped to L2-SRAM (L2 Cache as SRAM). Address 0x40004000 is used on Armada platforms with Sheeva CPU core (A370 and AXP) where BootROM uses MMU with 0x4000 bytes for MMU translation table. Address 0x40000000 is used on all other platforms. Thus the only way to specify load and execute address of this executable code in binary kwbimage header is by filling dummy arguments into the binary header, using the same mechanism we already have for achieving 128-bit boundary alignment on A370 and AXP SoCs. Extend kwbimage config file parser to allow to specify load address as part of BINARY command with syntax: BINARY path_to_binary arg1 arg2 ... argN LOAD_ADDRESS address If the specified load address is invalid or cannot be used, mkimage will throw fatal error and exit. This will prevent generating kwbimage with invalid load address for non-position independent binary code. If no load address is specified, kwbimage will not fill any the dummy arguments, thus it will behave the same as before this change. Signed-off-by: Pali Rohár Reviewed-by: Marek Behún Reviewed-by: Stefan Roese --- diff --git a/tools/kwbimage.c b/tools/kwbimage.c index 44843be2c1..c0f1bdac02 100644 --- a/tools/kwbimage.c +++ b/tools/kwbimage.c @@ -158,6 +158,7 @@ struct image_cfg_element { unsigned int bootfrom; struct { const char *file; + unsigned int loadaddr; unsigned int args[BINARY_MAX_ARGS]; unsigned int nargs; } binary; @@ -1007,10 +1008,13 @@ static void *image_create_v0(size_t *imagesz, struct image_tool_params *params, static size_t image_headersz_v1(int *hasext) { - struct image_cfg_element *binarye, *e; + struct image_cfg_element *e; unsigned int count; size_t headersz; + int cpu_sheeva; + struct stat s; int cfgi; + int ret; /* * Calculate the size of the header and the size of the @@ -1024,6 +1028,8 @@ static size_t image_headersz_v1(int *hasext) *hasext = 1; } + cpu_sheeva = image_is_cpu_sheeva(); + count = 0; for (cfgi = 0; cfgi < cfgn; cfgi++) { e = &image_cfg[cfgi]; @@ -1036,19 +1042,11 @@ static size_t image_headersz_v1(int *hasext) headersz += sizeof(struct register_set_hdr_v1) + 8 * count + 4; count = 0; } - } - if (count > 0) - headersz += sizeof(struct register_set_hdr_v1) + 8 * count + 4; - for (cfgi = 0; cfgi < cfgn; cfgi++) { - int ret; - struct stat s; - - binarye = &image_cfg[cfgi]; - if (binarye->type != IMAGE_CFG_BINARY) + if (e->type != IMAGE_CFG_BINARY) continue; - ret = stat(binarye->binary.file, &s); + ret = stat(e->binary.file, &s); if (ret < 0) { char cwd[PATH_MAX]; char *dir = cwd; @@ -1063,18 +1061,58 @@ static size_t image_headersz_v1(int *hasext) "Didn't find the file '%s' in '%s' which is mandatory to generate the image\n" "This file generally contains the DDR3 training code, and should be extracted from an existing bootable\n" "image for your board. Use 'dumpimage -T kwbimage -p 0' to extract it from an existing image.\n", - binarye->binary.file, dir); + e->binary.file, dir); return 0; } headersz += sizeof(struct opt_hdr_v1) + sizeof(uint32_t) + - (binarye->binary.nargs) * sizeof(uint32_t); - headersz = ALIGN(headersz, 16); + (e->binary.nargs) * sizeof(uint32_t); + + if (e->binary.loadaddr) { + /* + * BootROM loads kwbimage header (in which the + * executable code is also stored) to address + * 0x40004000 or 0x40000000. Thus there is + * restriction for the load address of the N-th + * BINARY image. + */ + unsigned int base_addr, low_addr, high_addr; + + base_addr = cpu_sheeva ? 0x40004000 : 0x40000000; + low_addr = base_addr + headersz; + high_addr = low_addr + + (BINARY_MAX_ARGS - e->binary.nargs) * sizeof(uint32_t); + + if (cpu_sheeva && e->binary.loadaddr % 16) { + fprintf(stderr, + "Invalid LOAD_ADDRESS 0x%08x for BINARY %s with %d args.\n" + "Address for CPU SHEEVA must be 16-byte aligned.\n", + e->binary.loadaddr, e->binary.file, e->binary.nargs); + return 0; + } + + if (e->binary.loadaddr % 4 || e->binary.loadaddr < low_addr || + e->binary.loadaddr > high_addr) { + fprintf(stderr, + "Invalid LOAD_ADDRESS 0x%08x for BINARY %s with %d args.\n" + "Address must be 4-byte aligned and in range 0x%08x-0x%08x.\n", + e->binary.loadaddr, e->binary.file, + e->binary.nargs, low_addr, high_addr); + return 0; + } + headersz = e->binary.loadaddr - base_addr; + } else { + headersz = ALIGN(headersz, 16); + } + headersz += ALIGN(s.st_size, 4) + sizeof(uint32_t); if (hasext) *hasext = 1; } + if (count > 0) + headersz += sizeof(struct register_set_hdr_v1) + 8 * count + 4; + return image_headersz_align(headersz, image_get_bootfrom()); } @@ -1083,10 +1121,12 @@ static int add_binary_header_v1(uint8_t **cur, uint8_t **next_ext, struct main_hdr_v1 *main_hdr) { struct opt_hdr_v1 *hdr = (struct opt_hdr_v1 *)*cur; + uint32_t base_addr; uint32_t add_args; uint32_t offset; uint32_t *args; size_t binhdrsz; + int cpu_sheeva; struct stat s; int argi; FILE *bin; @@ -1120,11 +1160,18 @@ static int add_binary_header_v1(uint8_t **cur, uint8_t **next_ext, /* * ARM executable code inside the BIN header on some mvebu platforms * (e.g. A370, AXP) must always be aligned with the 128-bit boundary. + * In the case when this code is not position independent (e.g. ARM + * SPL), it must be placed at fixed load and execute address. * This requirement can be met by inserting dummy arguments into * BIN header, if needed. */ + cpu_sheeva = image_is_cpu_sheeva(); + base_addr = cpu_sheeva ? 0x40004000 : 0x40000000; offset = *cur - (uint8_t *)main_hdr; - add_args = ((16 - offset % 16) % 16) / sizeof(uint32_t); + if (binarye->binary.loadaddr) + add_args = (binarye->binary.loadaddr - base_addr - offset) / sizeof(uint32_t); + else + add_args = ((16 - offset % 16) % 16) / sizeof(uint32_t); if (add_args) { *(args - 1) = cpu_to_le32(binarye->binary.nargs + add_args); *cur += add_args * sizeof(uint32_t); @@ -1548,10 +1595,40 @@ static int image_create_config_parse_oneline(char *line, el->binary.file = strdup(value1); while (1) { char *value = strtok_r(NULL, delimiters, &saveptr); + char *endptr; if (!value) break; - el->binary.args[argi] = strtoul(value, NULL, 16); + + if (!strcmp(value, "LOAD_ADDRESS")) { + value = strtok_r(NULL, delimiters, &saveptr); + if (!value) { + fprintf(stderr, + "Missing address argument for BINARY LOAD_ADDRESS\n"); + return -1; + } + el->binary.loadaddr = strtoul(value, &endptr, 16); + if (*endptr) { + fprintf(stderr, + "Invalid argument '%s' for BINARY LOAD_ADDRESS\n", + value); + return -1; + } + value = strtok_r(NULL, delimiters, &saveptr); + if (value) { + fprintf(stderr, + "Unexpected argument '%s' after BINARY LOAD_ADDRESS\n", + value); + return -1; + } + break; + } + + el->binary.args[argi] = strtoul(value, &endptr, 16); + if (*endptr) { + fprintf(stderr, "Invalid argument '%s' for BINARY\n", value); + return -1; + } argi++; if (argi >= BINARY_MAX_ARGS) { fprintf(stderr,