Add new binman etype which allows signing both the SPL and fitImage sections of i.MX8M flash.bin using CST. There are multiple DT properties which govern the signing process, nxp,loader-address is the only mandatory one which sets the SPL signature start address without the imx8mimage header, this should be SPL text base. The key material can be configured using optional DT properties nxp,srk-table, nxp,csf-crt, nxp,img-crt, all of which default the key material names generated by CST tool scripts. The nxp,unlock property can be used to unlock CAAM access in SPL section.
Signed-off-by: Marek Vasut marex@denx.de --- Cc: "NXP i.MX U-Boot Team" uboot-imx@nxp.com Cc: Adam Ford aford173@gmail.com Cc: Alper Nebi Yasak alpernebiyasak@gmail.com Cc: Andrejs Cainikovs andrejs.cainikovs@toradex.com Cc: Angus Ainslie angus@akkea.ca Cc: Emanuele Ghidoli emanuele.ghidoli@toradex.com Cc: Fabio Estevam festevam@gmail.com Cc: Francesco Dolcini francesco.dolcini@toradex.com Cc: Marcel Ziswiler marcel.ziswiler@toradex.com Cc: Rasmus Villemoes rasmus.villemoes@prevas.dk Cc: Simon Glass sjg@chromium.org Cc: Stefan Eichenberger stefan.eichenberger@toradex.com Cc: Stefano Babic sbabic@denx.de Cc: Tim Harvey tharvey@gateworks.com Cc: Tom Rini trini@konsulko.com Cc: kernel@puri.sm Cc: u-boot@dh-electronics.com Cc: u-boot@lists.denx.de --- V2: - Use configparser module for generating the configuration INI file - Use config template as an input, parse it, modify only keys of interest - Pull magic values into top level variables - Rename nxp,csf-key and nxp,img-key to nxp,csf-crt and nxp,img-crt - Return unmodified data if signing unrecognized (non-SPL/non-FIT) section --- tools/binman/btool/cst.py | 48 +++++++++ tools/binman/etype/nxp_imx8mcst.py | 163 +++++++++++++++++++++++++++++ 2 files changed, 211 insertions(+) create mode 100644 tools/binman/btool/cst.py create mode 100644 tools/binman/etype/nxp_imx8mcst.py
diff --git a/tools/binman/btool/cst.py b/tools/binman/btool/cst.py new file mode 100644 index 00000000000..30e78bdbbd9 --- /dev/null +++ b/tools/binman/btool/cst.py @@ -0,0 +1,48 @@ +# SPDX-License-Identifier: GPL-2.0+ +# Copyright 2024 Marek Vasut marex@denx.de +# +"""Bintool implementation for cst""" + +import re + +from binman import bintool + +class Bintoolcst(bintool.Bintool): + """Image generation for U-Boot + + This bintool supports running `cst` with some basic parameters as + needed by binman. + """ + def __init__(self, name): + super().__init__(name, 'Sign NXP i.MX image') + + # pylint: disable=R0913 + def run(self, output_fname=None): + """Run cst + + Args: + output_fname: Output filename to write to + """ + args = [] + if output_fname: + args += ['-o', output_fname] + return self.run_cmd(*args) + + def fetch(self, method): + """Fetch handler for cst + + This installs cst using the apt utility. + + Args: + method (FETCH_...): Method to use + + Returns: + True if the file was fetched and now installed, None if a method + other than FETCH_BIN was requested + + Raises: + Valuerror: Fetching could not be completed + """ + if method != bintool.FETCH_BIN: + return None + return self.apt_install('imx-code-signing-tool') diff --git a/tools/binman/etype/nxp_imx8mcst.py b/tools/binman/etype/nxp_imx8mcst.py new file mode 100644 index 00000000000..132127ad482 --- /dev/null +++ b/tools/binman/etype/nxp_imx8mcst.py @@ -0,0 +1,163 @@ +# SPDX-License-Identifier: GPL-2.0+ +# Copyright 2023-2024 Marek Vasut marex@denx.de +# Written with much help from Simon Glass sjg@chromium.org +# +# Entry-type module for generating the i.MX8M code signing tool +# input configuration file and invocation of cst on generated +# input configuration file and input data to be signed. +# + +import configparser +import struct + +from collections import OrderedDict + +from binman.entry import Entry +from binman.etype.mkimage import Entry_mkimage +from binman.etype.section import Entry_section +from binman import elf +from dtoc import fdt_util +from u_boot_pylib import tools + +MAGIC_NXP_IMX_IVT = 0x412000d1 +MAGIC_FITIMAGE = 0xedfe0dd0 + +csf_config_template = """ +[Header] + Version = 4.3 + Hash Algorithm = sha256 + Engine = CAAM + Engine Configuration = 0 + Certificate Format = X509 + Signature Format = CMS + +[Install SRK] + File = "SRK_1_2_3_4_table.bin" + Source index = 0 + +[Install CSFK] + File = "CSF1_1_sha256_4096_65537_v3_usr_crt.pem" + +[Authenticate CSF] + +[Unlock] + Engine = CAAM + Features = MID + +[Install Key] + Verification index = 0 + Target Index = 2 + File = "IMG1_1_sha256_4096_65537_v3_usr_crt.pem" + +[Authenticate Data] + Verification index = 2 + Blocks = 0x1234 0x78 0xabcd "data.bin" +""" + +class Entry_nxp_imx8mcst(Entry_mkimage): + """NXP i.MX8M CST .cfg file generator and cst invoker + + Properties / Entry arguments: + - nxp,loader-address - loader address (SPL text base) + """ + + def __init__(self, section, etype, node): + super().__init__(section, etype, node) + self.required_props = ['nxp,loader-address'] + + def ReadNode(self): + super().ReadNode() + self.loader_address = fdt_util.GetInt(self._node, 'nxp,loader-address') + self.srk_table = fdt_util.GetString(self._node, 'nxp,srk-table', 'SRK_1_2_3_4_table.bin') + self.csf_crt = fdt_util.GetString(self._node, 'nxp,csf-crt', 'CSF1_1_sha256_4096_65537_v3_usr_crt.pem') + self.img_crt = fdt_util.GetString(self._node, 'nxp,img-crt', 'IMG1_1_sha256_4096_65537_v3_usr_crt.pem') + self.unlock = fdt_util.GetBool(self._node, 'nxp,unlock') + self.ReadEntries() + + def BuildSectionData(self, required): + data, input_fname, uniq = self.collect_contents_to_file( + self._entries.values(), 'input') + + # Parse the input data and figure out what it is that is being signed. + # - If it is mkimage'd imx8mimage, then extract to be signed data size + # from imx8mimage header, and calculate CSF blob offset right past + # the SPL from this information. + # - If it is fitImage, then pad the image to 4k, add generated IVT and + # sign the whole payload, then append CSF blob at the end right past + # the IVT. + signtype = struct.unpack('<I', data[:4])[0] + signbase = self.loader_address + signsize = 0 + if signtype == MAGIC_NXP_IMX_IVT: # SPL/imx8mimage + # Sign the payload including imx8mimage header + # (extra 0x40 bytes before the payload) + signbase -= 0x40 + signsize = struct.unpack('<I', data[24:28])[0] - signbase + # Remove mkimage generated padding from the end of data + data = data[:signsize] + elif signtype == MAGIC_FITIMAGE: # fitImage + # Align fitImage to 4k + signsize = tools.align(len(data), 0x1000) + data += tools.get_bytes(0, signsize - len(data)) + # Add generated IVT + data += struct.pack('<I', MAGIC_NXP_IMX_IVT) + data += struct.pack('<I', signbase + signsize) # IVT base + data += struct.pack('<I', 0) + data += struct.pack('<I', 0) + data += struct.pack('<I', 0) + data += struct.pack('<I', signbase + signsize) # IVT base + data += struct.pack('<I', signbase + signsize + 0x20) # CSF base + data += struct.pack('<I', 0) + else: + # Unknown section type, pass input data through. + return data + + # Write out customized data to be signed + output_dname = tools.get_output_filename(f'nxp.cst-input-data.{uniq}') + tools.write_file(output_dname, data) + + # Generate CST configuration file used to sign payload + cfg_fname = tools.get_output_filename('nxp.csf-config-txt.%s' % uniq) + config = configparser.ConfigParser() + # Do not make key names lowercase + config.optionxform = str + # Load configuration template and modify keys of interest + config.read_string(csf_config_template) + config['Install SRK']['File'] = '"' + self.srk_table + '"' + config['Install CSFK']['File'] = '"' + self.csf_crt + '"' + config['Install Key']['File'] = '"' + self.img_crt + '"' + config['Authenticate Data']['Blocks'] = hex(signbase) + ' 0 ' + hex(len(data)) + ' "' + str(output_dname) + '"' + if not self.unlock: + config.remove_section('Unlock') + with open(cfg_fname, 'w') as cfgf: + config.write(cfgf) + + output_fname = tools.get_output_filename(f'nxp.csf-output-blob.{uniq}') + args = ['-i', cfg_fname, '-o', output_fname] + if self.cst.run_cmd(*args) is not None: + outdata = tools.read_file(output_fname) + return data + outdata + else: + # Bintool is missing; just use the input data as the output + self.record_missing_bintool(self.cst) + return data + + def SetImagePos(self, image_pos): + # Customized SoC specific SetImagePos which skips the mkimage etype + # implementation and removes the 0x48 offset introduced there. That + # offset is only used for uImage/fitImage, which is not the case in + # here. + upto = 0x00 + for entry in super().GetEntries().values(): + entry.SetOffsetSize(upto, None) + + # Give up if any entries lack a size + if entry.size is None: + return + upto += entry.size + + Entry_section.SetImagePos(self, image_pos) + + def AddBintools(self, btools): + super().AddBintools(btools) + self.cst = self.AddBintool(btools, 'cst')