futility/updater_utils.c - mirrors/cros/chromiumos/platform/vboot_reference - Git at Google

 /* Copyright 2019 The Chromium OS Authors. All rights reserved.
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  *
  * The utility functions for firmware updater.
  */

 #include <assert.h>
 #include <limits.h>
 #include <sys/stat.h>
 #include <sys/types.h>
 #include <unistd.h>
 #if defined (__FreeBSD__)
 #include <sys/wait.h>
 #endif

 #include "2common.h"
 #include "crossystem.h"
 #include "host_misc.h"
 #include "util_misc.h"
 #include "updater.h"

 #define COMMAND_BUFFER_SIZE 256
 #define FLASHROM_OUTPUT_WP_PATTERN "write protect is "

 enum flashrom_ops {
 	FLASHROM_READ,
 	FLASHROM_WRITE,
 	FLASHROM_WP_STATUS,
 };

 /* System environment values. */
 static const char * const STR_REV = "rev",
 		  * const FLASHROM_OUTPUT_WP_ENABLED =
 			  FLASHROM_OUTPUT_WP_PATTERN "enabled",
 		  * const FLASHROM_OUTPUT_WP_DISABLED =
 			  FLASHROM_OUTPUT_WP_PATTERN "disabled";

 /*
  * Strips a string (usually from shell execution output) by removing all the
  * trailing characters in pattern. If pattern is NULL, match by space type
  * characters (space, new line, tab, ... etc).
  */
 void strip_string(char *s, const char *pattern)
 {
 	int len;
 	assert(s);

 	len = strlen(s);
 	while (len-- > 0) {
 		if (pattern) {
 			if (!strchr(pattern, s[len]))
 				break;
 		} else {
 			if (!isascii(s[len]) || !isspace(s[len]))
 				break;
 		}
 		s[len] = '\0';
 	}
 }

 /*
  * Saves everything from stdin to given output file.
  * Returns 0 on success, otherwise failure.
  */
 int save_file_from_stdin(const char *output)
 {
 	FILE *in = stdin, *out = fopen(output, "wb");
 	char buffer[4096];
 	size_t sz;

 	assert(in);
 	if (!out)
 		return -1;

 	while (!feof(in)) {
 		sz = fread(buffer, 1, sizeof(buffer), in);
 		if (fwrite(buffer, 1, sz, out) != sz) {
 			fclose(out);
 			return -1;
 		}
 	}
 	fclose(out);
 	return 0;
 }

 /*
  * Returns 1 if a given file (cbfs_entry_name) exists inside a particular CBFS
  * section of an image file, otherwise 0.
  */
 int cbfs_file_exists(const char *image_file,
 		     const char *section_name,
 		     const char *cbfs_entry_name)
 {
 	char *cmd;
 	int r;

 	ASPRINTF(&cmd,
 		 "cbfstool '%s' print -r %s 2>/dev/null | grep -q '^%s '",
 		 image_file, section_name, cbfs_entry_name);
 	r = system(cmd);
 	free(cmd);
 	return !r;
 }

 /*
  * Extracts files from a CBFS on given region (section) of image_file.
  * Returns the path to a temporary file on success, otherwise NULL.
  */
 const char *cbfs_extract_file(const char *image_file,
 			      const char *cbfs_region,
 			      const char *cbfs_name,
 			      struct tempfile *tempfiles)
 {
 	const char *output = create_temp_file(tempfiles);
 	char *command, *result;

 	if (!output)
 		return NULL;

 	ASPRINTF(&command, "cbfstool \"%s\" extract -r %s -n \"%s\" "
 		 "-f \"%s\" 2>&1", image_file, cbfs_region,
 		 cbfs_name, output);

 	result = host_shell(command);
 	free(command);

 	if (!*result)
 		output = NULL;

 	free(result);
 	return output;
 }

 /*
  * Loads the firmware information from an FMAP section in loaded firmware image.
  * The section should only contain ASCIIZ string as firmware version.
  * Returns 0 if a non-empty version string is stored in *version, otherwise -1.
  */
 static int load_firmware_version(struct firmware_image *image,
 				 const char *section_name,
 				 char **version)
 {
 	struct firmware_section fwid;
 	int len = 0;

 	/*
 	 * section_name is NULL when parsing the RW versions on a non-vboot
 	 * image (and already warned in load_firmware_image). We still need to
 	 * initialize *version with empty string.
 	 */
 	if (section_name) {
 		find_firmware_section(&fwid, image, section_name);
 		if (fwid.size)
 			len = fwid.size;
 		else
 			WARN("No valid section '%s', missing version info.\n",
 			     section_name);
 	}

 	if (!len) {
 		*version = strdup("");
 		return -1;
 	}

 	/*
 	 * For 'system current' images, the version string may contain
 	 * invalid characters that we do want to strip.
 	 */
 	*version = strndup((const char *)fwid.data, len);
 	strip_string(*version, "\xff");
 	return 0;
 }

 /*
  * Loads a firmware image from file.
  * If archive is provided and file_name is a relative path, read the file from
  * archive.
  * Returns IMAGE_LOAD_SUCCESS on success, IMAGE_READ_FAILURE on file I/O
  * failure, or IMAGE_PARSE_FAILURE for non-vboot images.
  */
 int load_firmware_image(struct firmware_image *image, const char *file_name,
 			struct archive *archive)
 {
 	int ret = IMAGE_LOAD_SUCCESS;
 	const char *section_a = NULL, *section_b = NULL;

 	if (!file_name) {
 		ERROR("No file name given\n");
 		return IMAGE_READ_FAILURE;
 	}

 	VB2_DEBUG("Load image file from %s...\n", file_name);

 	if (!archive_has_entry(archive, file_name)) {
 		ERROR("Does not exist: %s\n", file_name);
 		return IMAGE_READ_FAILURE;
 	}
 	if (archive_read_file(archive, file_name, &image->data, &image->size,
 			      NULL) != VB2_SUCCESS) {
 		ERROR("Failed to load %s\n", file_name);
 		return IMAGE_READ_FAILURE;
 	}

 	VB2_DEBUG("Image size: %d\n", image->size);
 	assert(image->data);
 	image->file_name = strdup(file_name);
 	image->fmap_header = fmap_find(image->data, image->size);

 	if (!image->fmap_header) {
 		ERROR("Invalid image file (missing FMAP): %s\n", file_name);
 		ret = IMAGE_PARSE_FAILURE;
 	}

 	if (load_firmware_version(image, FMAP_RO_FRID, &image->ro_version))
 		ret = IMAGE_PARSE_FAILURE;

 	if (firmware_section_exists(image, FMAP_RW_FWID_A)) {
 		section_a = FMAP_RW_FWID_A;
 		section_b = FMAP_RW_FWID_B;
 	} else if (firmware_section_exists(image, FMAP_RW_FWID)) {
 		section_a = FMAP_RW_FWID;
 		section_b = FMAP_RW_FWID;
 	} else if (!ret) {
 		ERROR("Unsupported VBoot firmware (no RW ID): %s\n", file_name);
 		ret = IMAGE_PARSE_FAILURE;
 	}

 	/*
 	 * Load and initialize both RW A and B sections.
 	 * Note some unit tests will create only RW A.
 	 */
 	load_firmware_version(image, section_a, &image->rw_version_a);
 	load_firmware_version(image, section_b, &image->rw_version_b);

 	return ret;
 }

 /*
  * Generates a temporary file for snapshot of firmware image contents.
  *
  * Returns a file path if success, otherwise NULL.
  */
 const char *get_firmware_image_temp_file(const struct firmware_image *image,
 					 struct tempfile *tempfiles)
 {
 	const char *tmp_path = create_temp_file(tempfiles);
 	if (!tmp_path)
 		return NULL;

 	if (vb2_write_file(tmp_path, image->data, image->size) != VB2_SUCCESS) {
 		ERROR("Failed writing %s firmware image (%u bytes) to %s.\n",
 		      image->programmer ? image->programmer : "temp",
 		      image->size, tmp_path);
 		return NULL;
 	}
 	return tmp_path;
 }

 /*
  * Frees the allocated resource from a firmware image object.
  */
 void free_firmware_image(struct firmware_image *image)
 {
 	/*
 	 * The programmer is not allocated by load_firmware_image and must be
 	 * preserved explicitly.
 	 */
 	const char *programmer = image->programmer;

 	free(image->data);
 	free(image->file_name);
 	free(image->ro_version);
 	free(image->rw_version_a);
 	free(image->rw_version_b);
 	memset(image, 0, sizeof(*image));
 	image->programmer = programmer;
 }

 /*
  * Finds a firmware section by given name in the firmware image.
  * If successful, return zero and *section argument contains the address and
  * size of the section; otherwise failure.
  */
 int find_firmware_section(struct firmware_section *section,
 			  const struct firmware_image *image,
 			  const char *section_name)
 {
 	FmapAreaHeader *fah = NULL;
 	uint8_t *ptr;

 	section->data = NULL;
 	section->size = 0;
 	ptr = fmap_find_by_name(
 			image->data, image->size, image->fmap_header,
 			section_name, &fah);
 	if (!ptr)
 		return -1;
 	section->data = (uint8_t *)ptr;
 	section->size = fah->area_size;
 	return 0;
 }

 /*
  * Returns true if the given FMAP section exists in the firmware image.
  */
 int firmware_section_exists(const struct firmware_image *image,
 			    const char *section_name)
 {
 	struct firmware_section section;
 	find_firmware_section(&section, image, section_name);
 	return section.data != NULL;
 }

 /*
  * Preserves (copies) the given section (by name) from image_from to image_to.
  * The offset may be different, and the section data will be directly copied.
  * If the section does not exist on either images, return as failure.
  * If the source section is larger, contents on destination be truncated.
  * If the source section is smaller, the remaining area is not modified.
  * Returns 0 if success, non-zero if error.
  */
 int preserve_firmware_section(const struct firmware_image *image_from,
 			      struct firmware_image *image_to,
 			      const char *section_name)
 {
 	struct firmware_section from, to;

 	find_firmware_section(&from, image_from, section_name);
 	find_firmware_section(&to, image_to, section_name);
 	if (!from.data || !to.data) {
 		VB2_DEBUG("Cannot find section %.*s: from=%p, to=%p\n",
 			  FMAP_NAMELEN, section_name, from.data, to.data);
 		return -1;
 	}
 	if (from.size > to.size) {
 		WARN("Section %.*s is truncated after updated.\n",
 		     FMAP_NAMELEN, section_name);
 	}
 	/* Use memmove in case if we need to deal with sections that overlap. */
 	memmove(to.data, from.data, VB2_MIN(from.size, to.size));
 	return 0;
 }

 /*
  * Finds the GBB (Google Binary Block) header on a given firmware image.
  * Returns a pointer to valid GBB header, or NULL on not found.
  */
 const struct vb2_gbb_header *find_gbb(const struct firmware_image *image)
 {
 	struct firmware_section section;
 	struct vb2_gbb_header *gbb_header;

 	find_firmware_section(&section, image, FMAP_RO_GBB);
 	gbb_header = (struct vb2_gbb_header *)section.data;
 	if (!futil_valid_gbb_header(gbb_header, section.size, NULL)) {
 		ERROR("Cannot find GBB in image: %s.\n", image->file_name);
 		return NULL;
 	}
 	return gbb_header;
 }

 /*
  * Executes a command on current host and returns stripped command output.
  * If the command has failed (exit code is not zero), returns an empty string.
  * The caller is responsible for releasing the returned string.
  */
 char *host_shell(const char *command)
 {
 	/* Currently all commands we use do not have large output. */
 	char buf[COMMAND_BUFFER_SIZE];

 	int result;
 	FILE *fp = popen(command, "r");

 	VB2_DEBUG("%s\n", command);
 	buf[0] = '\0';
 	if (!fp) {
 		VB2_DEBUG("Execution error for %s.\n", command);
 		return strdup(buf);
 	}

 	if (fgets(buf, sizeof(buf), fp))
 		strip_string(buf, NULL);
 	result = pclose(fp);
 	if (!WIFEXITED(result) || WEXITSTATUS(result) != 0) {
 		VB2_DEBUG("Execution failure with exit code %d: %s\n",
 			  WEXITSTATUS(result), command);
 		/*
 		 * Discard all output if command failed, for example command
 		 * syntax failure may lead to garbage in stdout.
 		 */
 		buf[0] = '\0';
 	}
 	return strdup(buf);
 }


 /* An helper function to return "mainfw_act" system property.  */
 static int host_get_mainfw_act(void)
 {
 	char buf[VB_MAX_STRING_PROPERTY];

 	if (!VbGetSystemPropertyString("mainfw_act", buf, sizeof(buf)))
 		return SLOT_UNKNOWN;

 	if (strcmp(buf, FWACT_A) == 0)
 		return SLOT_A;
 	else if (strcmp(buf, FWACT_B) == 0)
 		return SLOT_B;

 	return SLOT_UNKNOWN;
 }

 /* A helper function to return the "tpm_fwver" system property. */
 static int host_get_tpm_fwver(void)
 {
 	return VbGetSystemPropertyInt("tpm_fwver");
 }

 /* A helper function to return the "hardware write protection" status. */
 static int host_get_wp_hw(void)
 {
 	/* wpsw refers to write protection 'switch', not 'software'. */
 	return VbGetSystemPropertyInt("wpsw_cur");
 }

 /* A helper function to return "fw_vboot2" system property. */
 static int host_get_fw_vboot2(void)
 {
 	return VbGetSystemPropertyInt("fw_vboot2");
 }

 /* A help function to get $(mosys platform version). */
 static int host_get_platform_version(void)
 {
 	char *result = host_shell("mosys platform version");
 	long rev = -1;

 	/* Result should be 'revN' */
 	if (strncmp(result, STR_REV, strlen(STR_REV)) == 0)
 		rev = strtol(result + strlen(STR_REV), NULL, 0);

 	/* we should never have negative or extremely large versions,
 	 * but clamp just to be sure
 	 */
 	if (rev < 0)
 		rev = 0;
 	if (rev > INT_MAX)
 		rev = INT_MAX;

 	VB2_DEBUG("Raw data = [%s], parsed version is %ld\n", result, rev);

 	free(result);
 	return rev;
 }

 /*
  * Helper function to detect type of Servo board attached to host.
  * Returns a string as programmer parameter on success, otherwise NULL.
  */
 char *host_detect_servo(int *need_prepare_ptr)
 {
 	const char *servo_port = getenv(ENV_SERVOD_PORT);
 	char *servo_type = host_shell("dut-control -o servo_type 2>/dev/null");
 	const char *programmer = NULL;
 	char *ret = NULL;
 	int need_prepare = 0;  /* To prepare by dut-control cpu_fw_spi:on */
 	char *servo_serial = NULL;

 	/* Get serial name if servo port is provided. */
 	if (servo_port && *servo_port) {
 		const char *cmd = "dut-control -o serialname 2>/dev/null";

 		VB2_DEBUG("Select servod using port: %s\n", servo_port);
 		if (strstr(servo_type, "with_servo_micro"))
 			cmd = ("dut-control -o servo_micro_serialname"
 			       " 2>/dev/null");
 		else if (strstr(servo_type, "with_ccd"))
 			cmd = "dut-control -o ccd_serialname 2>/dev/null";

 		servo_serial = host_shell(cmd);
 		VB2_DEBUG("Servo SN=%s (serial cmd: %s)\n", servo_serial, cmd);
 	}

 	if (!*servo_type) {
 		ERROR("Failed to get servo type. Check servod.\n");
 	} else if (servo_serial && !*servo_serial) {
 		ERROR("Failed to get serial at servo port %s.\n", servo_port);
 	} else if (strstr(servo_type, "servo_micro")) {
 		VB2_DEBUG("Selected Servo Micro.\n");
 		programmer = "raiden_debug_spi";
 		need_prepare = 1;
 	} else if (strstr(servo_type, "ccd_cr50")) {
 		VB2_DEBUG("Selected CCD CR50.\n");
 		programmer = "raiden_debug_spi:target=AP";
 	} else {
 		VB2_DEBUG("Selected Servo V2.\n");
 		programmer = "ft2232_spi:type=google-servo-v2";
 		need_prepare = 1;
 	}

 	if (programmer) {
 		if (!servo_serial) {
 			ret = strdup(programmer);
 		} else {
 			const char prefix = strchr(programmer, ':') ? ',' : ':';
 			ASPRINTF(&ret, "%s%cserial=%s", programmer, prefix,
 				 servo_serial);
 		}
 		VB2_DEBUG("Servo programmer: %s\n", ret);
 	}

 	free(servo_type);
 	free(servo_serial);
 	*need_prepare_ptr = need_prepare;

 	return ret;
 }

 /*
  * A helper function to invoke flashrom(8) command.
  * Returns 0 if success, non-zero if error.
  */
 static int host_flashrom(enum flashrom_ops op, const char *image_path,
 			 const char *programmer, int verbose,
 			 const char *section_name, const char *extra)
 {
 	char *command, *result;
 	const char *op_cmd, *dash_i = "-i", *postfix = "";
 	int r;

 	switch (verbose) {
 	case 0:
 		postfix = " >/dev/null 2>&1";
 		break;
 	case 1:
 		break;
 	case 2:
 		postfix = "-V";
 		break;
 	case 3:
 		postfix = "-V -V";
 		break;
 	default:
 		postfix = "-V -V -V";
 		break;
 	}

 	if (!section_name || !*section_name) {
 		dash_i = "";
 		section_name = "";
 	}

 	switch (op) {
 	case FLASHROM_READ:
 		op_cmd = "-r";
 		assert(image_path);
 		break;

 	case FLASHROM_WRITE:
 		op_cmd = "-w";
 		assert(image_path);
 		break;

 	case FLASHROM_WP_STATUS:
 		op_cmd = "--wp-status";
 		assert(image_path == NULL);
 		image_path = "";
 		/* grep is needed because host_shell only returns 1 line. */
 		postfix = " 2>/dev/null | grep \"" \
 			   FLASHROM_OUTPUT_WP_PATTERN "\"";
 		break;

 	default:
 		assert(0);
 		return -1;
 	}

 	if (!extra)
 		extra = "";

 	/* TODO(hungte) In future we should link with flashrom directly. */
 	ASPRINTF(&command, "flashrom %s %s -p %s %s %s %s %s", op_cmd,
 		 image_path, programmer, dash_i, section_name, extra,
 		 postfix);

 	if (verbose)
 		INFO("Executing: %s\n", command);

 	if (op != FLASHROM_WP_STATUS) {
 		r = system(command);
 		free(command);
 		if (r)
 			ERROR("Error code: %d\n", r);
 		return r;
 	}

 	result = host_shell(command);
 	strip_string(result, NULL);
 	free(command);
 	VB2_DEBUG("wp-status: %s\n", result);

 	if (strstr(result, FLASHROM_OUTPUT_WP_ENABLED))
 		r = WP_ENABLED;
 	else if (strstr(result, FLASHROM_OUTPUT_WP_DISABLED))
 		r = WP_DISABLED;
 	else
 		r = WP_ERROR;
 	free(result);
 	return r;
 }

 /* Helper function to return write protection status via given programmer. */
 enum wp_state host_get_wp(const char *programmer)
 {
 	return host_flashrom(FLASHROM_WP_STATUS, NULL, programmer, 0, NULL,
 			     NULL);
 }

 /* Helper function to return host software write protection status. */
 static int host_get_wp_sw(void)
 {
 	return host_get_wp(PROG_HOST);
 }

 /*
  * Loads the active system firmware image (usually from SPI flash chip).
  * Returns 0 if success, non-zero if error.
  */
 int load_system_firmware(struct firmware_image *image,
 			 struct tempfile *tempfiles, int verbosity)
 {
 	int r;
 	const char *tmp_path = create_temp_file(tempfiles);

 	if (!tmp_path)
 		return -1;

 	r = host_flashrom(FLASHROM_READ, tmp_path, image->programmer,
 			  verbosity, NULL, NULL);
 	/*
 	 * The verbosity for host_flashrom will be translated to
 	 * (verbosity-1)*'-V', and usually 3*'-V' is enough for debugging.
 	 */
 	const int debug_verbosity = 4;
 	if (r && verbosity < debug_verbosity) {
 		/* Read again, with verbose messages for debugging. */
 		WARN("Failed reading system firmware (%d), try again...\n", r);
 		r = host_flashrom(FLASHROM_READ, tmp_path, image->programmer,
 				  debug_verbosity, NULL, NULL);
 	}
 	if (!r)
 		r = load_firmware_image(image, tmp_path, NULL);
 	return r;
 }

 /*
  * Writes a section from given firmware image to system firmware.
  * If section_name is NULL, write whole image.
  * Returns 0 if success, non-zero if error.
  */
 int write_system_firmware(const struct firmware_image *image,
 			  const struct firmware_image *diff_image,
 			  const char *section_name,
 			  struct tempfile *tempfiles,
 			  int verbosity)
 {
 	const char *tmp_path = get_firmware_image_temp_file(image, tempfiles);
 	const char *tmp_diff = NULL;

 	const char *programmer = image->programmer;
 	char *extra = NULL;
 	int r;

 	if (!tmp_path)
 		return -1;

 	if (diff_image) {
 		tmp_diff = get_firmware_image_temp_file(
 				diff_image, tempfiles);
 		if (!tmp_diff)
 			return -1;
 		ASPRINTF(&extra, "--noverify --diff=%s", tmp_diff);
 	}

 	r = host_flashrom(FLASHROM_WRITE, tmp_path, programmer, verbosity,
 			  section_name, extra);
 	free(extra);
 	return r;
 }

 /* Helper function to configure all properties. */
 void init_system_properties(struct system_property *props, int num)
 {
 	memset(props, 0, num * sizeof(*props));
 	assert(num >= SYS_PROP_MAX);
 	props[SYS_PROP_MAINFW_ACT].getter = host_get_mainfw_act;
 	props[SYS_PROP_TPM_FWVER].getter = host_get_tpm_fwver;
 	props[SYS_PROP_FW_VBOOT2].getter = host_get_fw_vboot2;
 	props[SYS_PROP_PLATFORM_VER].getter = host_get_platform_version;
 	props[SYS_PROP_WP_HW].getter = host_get_wp_hw;
 	props[SYS_PROP_WP_SW].getter = host_get_wp_sw;
 }

 /*
  * Helper function to create a new temporary file.
  * All files created will be removed remove_all_temp_files().
  * Returns the path of new file, or NULL on failure.
  */
 const char *create_temp_file(struct tempfile *head)
 {
 	struct tempfile *new_temp;
 	char new_path[] = P_tmpdir "/fwupdater.XXXXXX";
 	int fd;
 	mode_t umask_save;

 	/* Set the umask before mkstemp for security considerations. */
 	umask_save = umask(077);
 	fd = mkstemp(new_path);
 	umask(umask_save);
 	if (fd < 0) {
 		ERROR("Failed to create new temp file in %s\n", new_path);
 		return NULL;
 	}
 	close(fd);
 	new_temp = (struct tempfile *)malloc(sizeof(*new_temp));
 	if (new_temp)
 		new_temp->filepath = strdup(new_path);
 	if (!new_temp || !new_temp->filepath) {
 		remove(new_path);
 		free(new_temp);
 		ERROR("Failed to allocate buffer for new temp file.\n");
 		return NULL;
 	}
 	VB2_DEBUG("Created new temporary file: %s.\n", new_path);
 	new_temp->next = NULL;
 	while (head->next)
 		head = head->next;
 	head->next = new_temp;
 	return new_temp->filepath;
 }

 /*
  * Helper function to remove all files created by create_temp_file().
  * This is intended to be called only once at end of program execution.
  */
 void remove_all_temp_files(struct tempfile *head)
 {
 	/* head itself is dummy and should not be removed. */
 	assert(!head->filepath);
 	struct tempfile *next = head->next;
 	head->next = NULL;
 	while (next) {
 		head = next;
 		next = head->next;
 		assert(head->filepath);
 		VB2_DEBUG("Remove temporary file: %s.\n", head->filepath);
 		remove(head->filepath);
 		free(head->filepath);
 		free(head);
 	}
 }

 /*
  * Returns rootkey hash of firmware image, or NULL on failure.
  */
 const char *get_firmware_rootkey_hash(const struct firmware_image *image)
 {
 	const struct vb2_gbb_header *gbb = NULL;
 	const struct vb2_packed_key *rootkey = NULL;

 	assert(image->data);

 	gbb = find_gbb(image);
 	if (!gbb) {
 		WARN("No GBB found in image.\n");
 		return NULL;
 	}

 	rootkey = get_rootkey(gbb);
 	if (!rootkey) {
 		WARN("No rootkey found in image.\n");
 		return NULL;
 	}

 	return packed_key_sha1_string(rootkey);
 }
	/* Copyright 2019 The Chromium OS Authors. All rights reserved.
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*
	* The utility functions for firmware updater.
	*/

	#include <assert.h>
	#include <limits.h>
	#include <sys/stat.h>
	#include <sys/types.h>
	#include <unistd.h>
	#if defined (__FreeBSD__)
	#include <sys/wait.h>
	#endif

	#include "2common.h"
	#include "crossystem.h"
	#include "host_misc.h"
	#include "util_misc.h"
	#include "updater.h"

	#define COMMAND_BUFFER_SIZE 256
	#define FLASHROM_OUTPUT_WP_PATTERN "write protect is "

	enum flashrom_ops {
	FLASHROM_READ,
	FLASHROM_WRITE,
	FLASHROM_WP_STATUS,
	};

	/* System environment values. */
	static const char * const STR_REV = "rev",
	* const FLASHROM_OUTPUT_WP_ENABLED =
	FLASHROM_OUTPUT_WP_PATTERN "enabled",
	* const FLASHROM_OUTPUT_WP_DISABLED =
	FLASHROM_OUTPUT_WP_PATTERN "disabled";

	/*
	* Strips a string (usually from shell execution output) by removing all the
	* trailing characters in pattern. If pattern is NULL, match by space type
	* characters (space, new line, tab, ... etc).
	*/
	void strip_string(char s, const char pattern)
	{
	int len;
	assert(s);

	len = strlen(s);
	while (len-- > 0) {
	if (pattern) {
	if (!strchr(pattern, s[len]))
	break;
	} else {
	if (!isascii(s[len]) \|\| !isspace(s[len]))
	break;
	}
	s[len] = '\0';
	}
	}

	/*
	* Saves everything from stdin to given output file.
	* Returns 0 on success, otherwise failure.
	*/
	int save_file_from_stdin(const char *output)
	{
	FILE in = stdin, out = fopen(output, "wb");
	char buffer[4096];
	size_t sz;

	assert(in);
	if (!out)
	return -1;

	while (!feof(in)) {
	sz = fread(buffer, 1, sizeof(buffer), in);
	if (fwrite(buffer, 1, sz, out) != sz) {
	fclose(out);
	return -1;
	}
	}
	fclose(out);
	return 0;
	}

	/*
	* Returns 1 if a given file (cbfs_entry_name) exists inside a particular CBFS
	* section of an image file, otherwise 0.
	*/
	int cbfs_file_exists(const char *image_file,
	const char *section_name,
	const char *cbfs_entry_name)
	{
	char *cmd;
	int r;

	ASPRINTF(&cmd,
	"cbfstool '%s' print -r %s 2>/dev/null \| grep -q '^%s '",
	image_file, section_name, cbfs_entry_name);
	r = system(cmd);
	free(cmd);
	return !r;
	}

	/*
	* Extracts files from a CBFS on given region (section) of image_file.
	* Returns the path to a temporary file on success, otherwise NULL.
	*/
	const char cbfs_extract_file(const char image_file,
	const char *cbfs_region,
	const char *cbfs_name,
	struct tempfile *tempfiles)
	{
	const char *output = create_temp_file(tempfiles);
	char command, result;

	if (!output)
	return NULL;

	ASPRINTF(&command, "cbfstool \"%s\" extract -r %s -n \"%s\" "
	"-f \"%s\" 2>&1", image_file, cbfs_region,
	cbfs_name, output);

	result = host_shell(command);
	free(command);

	if (!*result)
	output = NULL;

	free(result);
	return output;
	}

	/*
	* Loads the firmware information from an FMAP section in loaded firmware image.
	* The section should only contain ASCIIZ string as firmware version.
	* Returns 0 if a non-empty version string is stored in *version, otherwise -1.
	*/
	static int load_firmware_version(struct firmware_image *image,
	const char *section_name,
	char **version)
	{
	struct firmware_section fwid;
	int len = 0;

	/*
	* section_name is NULL when parsing the RW versions on a non-vboot
	* image (and already warned in load_firmware_image). We still need to
	* initialize *version with empty string.
	*/
	if (section_name) {
	find_firmware_section(&fwid, image, section_name);
	if (fwid.size)
	len = fwid.size;
	else
	WARN("No valid section '%s', missing version info.\n",
	section_name);
	}

	if (!len) {
	*version = strdup("");
	return -1;
	}

	/*
	* For 'system current' images, the version string may contain
	* invalid characters that we do want to strip.
	*/
	version = strndup((const char )fwid.data, len);
	strip_string(*version, "\xff");
	return 0;
	}

	/*
	* Loads a firmware image from file.
	* If archive is provided and file_name is a relative path, read the file from
	* archive.
	* Returns IMAGE_LOAD_SUCCESS on success, IMAGE_READ_FAILURE on file I/O
	* failure, or IMAGE_PARSE_FAILURE for non-vboot images.
	*/
	int load_firmware_image(struct firmware_image image, const char file_name,
	struct archive *archive)
	{
	int ret = IMAGE_LOAD_SUCCESS;
	const char section_a = NULL, section_b = NULL;

	if (!file_name) {
	ERROR("No file name given\n");
	return IMAGE_READ_FAILURE;
	}

	VB2_DEBUG("Load image file from %s...\n", file_name);

	if (!archive_has_entry(archive, file_name)) {
	ERROR("Does not exist: %s\n", file_name);
	return IMAGE_READ_FAILURE;
	}
	if (archive_read_file(archive, file_name, &image->data, &image->size,
	NULL) != VB2_SUCCESS) {
	ERROR("Failed to load %s\n", file_name);
	return IMAGE_READ_FAILURE;
	}

	VB2_DEBUG("Image size: %d\n", image->size);
	assert(image->data);
	image->file_name = strdup(file_name);
	image->fmap_header = fmap_find(image->data, image->size);

	if (!image->fmap_header) {
	ERROR("Invalid image file (missing FMAP): %s\n", file_name);
	ret = IMAGE_PARSE_FAILURE;
	}

	if (load_firmware_version(image, FMAP_RO_FRID, &image->ro_version))
	ret = IMAGE_PARSE_FAILURE;

	if (firmware_section_exists(image, FMAP_RW_FWID_A)) {
	section_a = FMAP_RW_FWID_A;
	section_b = FMAP_RW_FWID_B;
	} else if (firmware_section_exists(image, FMAP_RW_FWID)) {
	section_a = FMAP_RW_FWID;
	section_b = FMAP_RW_FWID;
	} else if (!ret) {
	ERROR("Unsupported VBoot firmware (no RW ID): %s\n", file_name);
	ret = IMAGE_PARSE_FAILURE;
	}

	/*
	* Load and initialize both RW A and B sections.
	* Note some unit tests will create only RW A.
	*/
	load_firmware_version(image, section_a, &image->rw_version_a);
	load_firmware_version(image, section_b, &image->rw_version_b);

	return ret;
	}

	/*
	* Generates a temporary file for snapshot of firmware image contents.
	*
	* Returns a file path if success, otherwise NULL.
	*/
	const char get_firmware_image_temp_file(const struct firmware_image image,
	struct tempfile *tempfiles)
	{
	const char *tmp_path = create_temp_file(tempfiles);
	if (!tmp_path)
	return NULL;

	if (vb2_write_file(tmp_path, image->data, image->size) != VB2_SUCCESS) {
	ERROR("Failed writing %s firmware image (%u bytes) to %s.\n",
	image->programmer ? image->programmer : "temp",
	image->size, tmp_path);
	return NULL;
	}
	return tmp_path;
	}

	/*
	* Frees the allocated resource from a firmware image object.
	*/
	void free_firmware_image(struct firmware_image *image)
	{
	/*
	* The programmer is not allocated by load_firmware_image and must be
	* preserved explicitly.
	*/
	const char *programmer = image->programmer;

	free(image->data);
	free(image->file_name);
	free(image->ro_version);
	free(image->rw_version_a);
	free(image->rw_version_b);
	memset(image, 0, sizeof(*image));
	image->programmer = programmer;
	}

	/*
	* Finds a firmware section by given name in the firmware image.
	* If successful, return zero and *section argument contains the address and
	* size of the section; otherwise failure.
	*/
	int find_firmware_section(struct firmware_section *section,
	const struct firmware_image *image,
	const char *section_name)
	{
	FmapAreaHeader *fah = NULL;
	uint8_t *ptr;

	section->data = NULL;
	section->size = 0;
	ptr = fmap_find_by_name(
	image->data, image->size, image->fmap_header,
	section_name, &fah);
	if (!ptr)
	return -1;
	section->data = (uint8_t *)ptr;
	section->size = fah->area_size;
	return 0;
	}

	/*
	* Returns true if the given FMAP section exists in the firmware image.
	*/
	int firmware_section_exists(const struct firmware_image *image,
	const char *section_name)
	{
	struct firmware_section section;
	find_firmware_section(&section, image, section_name);
	return section.data != NULL;
	}

	/*
	* Preserves (copies) the given section (by name) from image_from to image_to.
	* The offset may be different, and the section data will be directly copied.
	* If the section does not exist on either images, return as failure.
	* If the source section is larger, contents on destination be truncated.
	* If the source section is smaller, the remaining area is not modified.
	* Returns 0 if success, non-zero if error.
	*/
	int preserve_firmware_section(const struct firmware_image *image_from,
	struct firmware_image *image_to,
	const char *section_name)
	{
	struct firmware_section from, to;

	find_firmware_section(&from, image_from, section_name);
	find_firmware_section(&to, image_to, section_name);
	if (!from.data \|\| !to.data) {
	VB2_DEBUG("Cannot find section %.*s: from=%p, to=%p\n",
	FMAP_NAMELEN, section_name, from.data, to.data);
	return -1;
	}
	if (from.size > to.size) {
	WARN("Section %.*s is truncated after updated.\n",
	FMAP_NAMELEN, section_name);
	}
	/* Use memmove in case if we need to deal with sections that overlap. */
	memmove(to.data, from.data, VB2_MIN(from.size, to.size));
	return 0;
	}

	/*
	* Finds the GBB (Google Binary Block) header on a given firmware image.
	* Returns a pointer to valid GBB header, or NULL on not found.
	*/
	const struct vb2_gbb_header find_gbb(const struct firmware_image image)
	{
	struct firmware_section section;
	struct vb2_gbb_header *gbb_header;

	find_firmware_section(&section, image, FMAP_RO_GBB);
	gbb_header = (struct vb2_gbb_header *)section.data;
	if (!futil_valid_gbb_header(gbb_header, section.size, NULL)) {
	ERROR("Cannot find GBB in image: %s.\n", image->file_name);
	return NULL;
	}
	return gbb_header;
	}

	/*
	* Executes a command on current host and returns stripped command output.
	* If the command has failed (exit code is not zero), returns an empty string.
	* The caller is responsible for releasing the returned string.
	*/
	char host_shell(const char command)
	{
	/* Currently all commands we use do not have large output. */
	char buf[COMMAND_BUFFER_SIZE];

	int result;
	FILE *fp = popen(command, "r");

	VB2_DEBUG("%s\n", command);
	buf[0] = '\0';
	if (!fp) {
	VB2_DEBUG("Execution error for %s.\n", command);
	return strdup(buf);
	}

	if (fgets(buf, sizeof(buf), fp))
	strip_string(buf, NULL);
	result = pclose(fp);
	if (!WIFEXITED(result) \|\| WEXITSTATUS(result) != 0) {
	VB2_DEBUG("Execution failure with exit code %d: %s\n",
	WEXITSTATUS(result), command);
	/*
	* Discard all output if command failed, for example command
	* syntax failure may lead to garbage in stdout.
	*/
	buf[0] = '\0';
	}
	return strdup(buf);
	}


	/* An helper function to return "mainfw_act" system property. */
	static int host_get_mainfw_act(void)
	{
	char buf[VB_MAX_STRING_PROPERTY];

	if (!VbGetSystemPropertyString("mainfw_act", buf, sizeof(buf)))
	return SLOT_UNKNOWN;

	if (strcmp(buf, FWACT_A) == 0)
	return SLOT_A;
	else if (strcmp(buf, FWACT_B) == 0)
	return SLOT_B;

	return SLOT_UNKNOWN;
	}

	/* A helper function to return the "tpm_fwver" system property. */
	static int host_get_tpm_fwver(void)
	{
	return VbGetSystemPropertyInt("tpm_fwver");
	}

	/* A helper function to return the "hardware write protection" status. */
	static int host_get_wp_hw(void)
	{
	/* wpsw refers to write protection 'switch', not 'software'. */
	return VbGetSystemPropertyInt("wpsw_cur");
	}

	/* A helper function to return "fw_vboot2" system property. */
	static int host_get_fw_vboot2(void)
	{
	return VbGetSystemPropertyInt("fw_vboot2");
	}

	/* A help function to get $(mosys platform version). */
	static int host_get_platform_version(void)
	{
	char *result = host_shell("mosys platform version");
	long rev = -1;

	/* Result should be 'revN' */
	if (strncmp(result, STR_REV, strlen(STR_REV)) == 0)
	rev = strtol(result + strlen(STR_REV), NULL, 0);

	/* we should never have negative or extremely large versions,
	* but clamp just to be sure
	*/
	if (rev < 0)
	rev = 0;
	if (rev > INT_MAX)
	rev = INT_MAX;

	VB2_DEBUG("Raw data = [%s], parsed version is %ld\n", result, rev);

	free(result);
	return rev;
	}

	/*
	* Helper function to detect type of Servo board attached to host.
	* Returns a string as programmer parameter on success, otherwise NULL.
	*/
	char host_detect_servo(int need_prepare_ptr)
	{
	const char *servo_port = getenv(ENV_SERVOD_PORT);
	char *servo_type = host_shell("dut-control -o servo_type 2>/dev/null");
	const char *programmer = NULL;
	char *ret = NULL;
	int need_prepare = 0; /* To prepare by dut-control cpu_fw_spi:on */
	char *servo_serial = NULL;

	/* Get serial name if servo port is provided. */
	if (servo_port && *servo_port) {
	const char *cmd = "dut-control -o serialname 2>/dev/null";

	VB2_DEBUG("Select servod using port: %s\n", servo_port);
	if (strstr(servo_type, "with_servo_micro"))
	cmd = ("dut-control -o servo_micro_serialname"
	" 2>/dev/null");
	else if (strstr(servo_type, "with_ccd"))
	cmd = "dut-control -o ccd_serialname 2>/dev/null";

	servo_serial = host_shell(cmd);
	VB2_DEBUG("Servo SN=%s (serial cmd: %s)\n", servo_serial, cmd);
	}

	if (!*servo_type) {
	ERROR("Failed to get servo type. Check servod.\n");
	} else if (servo_serial && !*servo_serial) {
	ERROR("Failed to get serial at servo port %s.\n", servo_port);
	} else if (strstr(servo_type, "servo_micro")) {
	VB2_DEBUG("Selected Servo Micro.\n");
	programmer = "raiden_debug_spi";
	need_prepare = 1;
	} else if (strstr(servo_type, "ccd_cr50")) {
	VB2_DEBUG("Selected CCD CR50.\n");
	programmer = "raiden_debug_spi:target=AP";
	} else {
	VB2_DEBUG("Selected Servo V2.\n");
	programmer = "ft2232_spi:type=google-servo-v2";
	need_prepare = 1;
	}

	if (programmer) {
	if (!servo_serial) {
	ret = strdup(programmer);
	} else {
	const char prefix = strchr(programmer, ':') ? ',' : ':';
	ASPRINTF(&ret, "%s%cserial=%s", programmer, prefix,
	servo_serial);
	}
	VB2_DEBUG("Servo programmer: %s\n", ret);
	}

	free(servo_type);
	free(servo_serial);
	*need_prepare_ptr = need_prepare;

	return ret;
	}

	/*
	* A helper function to invoke flashrom(8) command.
	* Returns 0 if success, non-zero if error.
	*/
	static int host_flashrom(enum flashrom_ops op, const char *image_path,
	const char *programmer, int verbose,
	const char section_name, const char extra)
	{
	char command, result;
	const char op_cmd, dash_i = "-i", *postfix = "";
	int r;

	switch (verbose) {
	case 0:
	postfix = " >/dev/null 2>&1";
	break;
	case 1:
	break;
	case 2:
	postfix = "-V";
	break;
	case 3:
	postfix = "-V -V";
	break;
	default:
	postfix = "-V -V -V";
	break;
	}

	if (!section_name \|\| !*section_name) {
	dash_i = "";
	section_name = "";
	}

	switch (op) {
	case FLASHROM_READ:
	op_cmd = "-r";
	assert(image_path);
	break;

	case FLASHROM_WRITE:
	op_cmd = "-w";
	assert(image_path);
	break;

	case FLASHROM_WP_STATUS:
	op_cmd = "--wp-status";
	assert(image_path == NULL);
	image_path = "";
	/* grep is needed because host_shell only returns 1 line. */
	postfix = " 2>/dev/null \| grep \"" \
	FLASHROM_OUTPUT_WP_PATTERN "\"";
	break;

	default:
	assert(0);
	return -1;
	}

	if (!extra)
	extra = "";

	/* TODO(hungte) In future we should link with flashrom directly. */
	ASPRINTF(&command, "flashrom %s %s -p %s %s %s %s %s", op_cmd,
	image_path, programmer, dash_i, section_name, extra,
	postfix);

	if (verbose)
	INFO("Executing: %s\n", command);

	if (op != FLASHROM_WP_STATUS) {
	r = system(command);
	free(command);
	if (r)
	ERROR("Error code: %d\n", r);
	return r;
	}

	result = host_shell(command);
	strip_string(result, NULL);
	free(command);
	VB2_DEBUG("wp-status: %s\n", result);

	if (strstr(result, FLASHROM_OUTPUT_WP_ENABLED))
	r = WP_ENABLED;
	else if (strstr(result, FLASHROM_OUTPUT_WP_DISABLED))
	r = WP_DISABLED;
	else
	r = WP_ERROR;
	free(result);
	return r;
	}

	/* Helper function to return write protection status via given programmer. */
	enum wp_state host_get_wp(const char *programmer)
	{
	return host_flashrom(FLASHROM_WP_STATUS, NULL, programmer, 0, NULL,
	NULL);
	}

	/* Helper function to return host software write protection status. */
	static int host_get_wp_sw(void)
	{
	return host_get_wp(PROG_HOST);
	}

	/*
	* Loads the active system firmware image (usually from SPI flash chip).
	* Returns 0 if success, non-zero if error.
	*/
	int load_system_firmware(struct firmware_image *image,
	struct tempfile *tempfiles, int verbosity)
	{
	int r;
	const char *tmp_path = create_temp_file(tempfiles);

	if (!tmp_path)
	return -1;

	r = host_flashrom(FLASHROM_READ, tmp_path, image->programmer,
	verbosity, NULL, NULL);
	/*
	* The verbosity for host_flashrom will be translated to
	* (verbosity-1)'-V', and usually 3'-V' is enough for debugging.
	*/
	const int debug_verbosity = 4;
	if (r && verbosity < debug_verbosity) {
	/* Read again, with verbose messages for debugging. */
	WARN("Failed reading system firmware (%d), try again...\n", r);
	r = host_flashrom(FLASHROM_READ, tmp_path, image->programmer,
	debug_verbosity, NULL, NULL);
	}
	if (!r)
	r = load_firmware_image(image, tmp_path, NULL);
	return r;
	}

	/*
	* Writes a section from given firmware image to system firmware.
	* If section_name is NULL, write whole image.
	* Returns 0 if success, non-zero if error.
	*/
	int write_system_firmware(const struct firmware_image *image,
	const struct firmware_image *diff_image,
	const char *section_name,
	struct tempfile *tempfiles,
	int verbosity)
	{
	const char *tmp_path = get_firmware_image_temp_file(image, tempfiles);
	const char *tmp_diff = NULL;

	const char *programmer = image->programmer;
	char *extra = NULL;
	int r;

	if (!tmp_path)
	return -1;

	if (diff_image) {
	tmp_diff = get_firmware_image_temp_file(
	diff_image, tempfiles);
	if (!tmp_diff)
	return -1;
	ASPRINTF(&extra, "--noverify --diff=%s", tmp_diff);
	}

	r = host_flashrom(FLASHROM_WRITE, tmp_path, programmer, verbosity,
	section_name, extra);
	free(extra);
	return r;
	}

	/* Helper function to configure all properties. */
	void init_system_properties(struct system_property *props, int num)
	{
	memset(props, 0, num * sizeof(*props));
	assert(num >= SYS_PROP_MAX);
	props[SYS_PROP_MAINFW_ACT].getter = host_get_mainfw_act;
	props[SYS_PROP_TPM_FWVER].getter = host_get_tpm_fwver;
	props[SYS_PROP_FW_VBOOT2].getter = host_get_fw_vboot2;
	props[SYS_PROP_PLATFORM_VER].getter = host_get_platform_version;
	props[SYS_PROP_WP_HW].getter = host_get_wp_hw;
	props[SYS_PROP_WP_SW].getter = host_get_wp_sw;
	}

	/*
	* Helper function to create a new temporary file.
	* All files created will be removed remove_all_temp_files().
	* Returns the path of new file, or NULL on failure.
	*/
	const char create_temp_file(struct tempfile head)
	{
	struct tempfile *new_temp;
	char new_path[] = P_tmpdir "/fwupdater.XXXXXX";
	int fd;
	mode_t umask_save;

	/* Set the umask before mkstemp for security considerations. */
	umask_save = umask(077);
	fd = mkstemp(new_path);
	umask(umask_save);
	if (fd < 0) {
	ERROR("Failed to create new temp file in %s\n", new_path);
	return NULL;
	}
	close(fd);
	new_temp = (struct tempfile )malloc(sizeof(new_temp));
	if (new_temp)
	new_temp->filepath = strdup(new_path);
	if (!new_temp \|\| !new_temp->filepath) {
	remove(new_path);
	free(new_temp);
	ERROR("Failed to allocate buffer for new temp file.\n");
	return NULL;
	}
	VB2_DEBUG("Created new temporary file: %s.\n", new_path);
	new_temp->next = NULL;
	while (head->next)
	head = head->next;
	head->next = new_temp;
	return new_temp->filepath;
	}

	/*
	* Helper function to remove all files created by create_temp_file().
	* This is intended to be called only once at end of program execution.
	*/
	void remove_all_temp_files(struct tempfile *head)
	{
	/* head itself is dummy and should not be removed. */
	assert(!head->filepath);
	struct tempfile *next = head->next;
	head->next = NULL;
	while (next) {
	head = next;
	next = head->next;
	assert(head->filepath);
	VB2_DEBUG("Remove temporary file: %s.\n", head->filepath);
	remove(head->filepath);
	free(head->filepath);
	free(head);
	}
	}

	/*
	* Returns rootkey hash of firmware image, or NULL on failure.
	*/
	const char get_firmware_rootkey_hash(const struct firmware_image image)
	{
	const struct vb2_gbb_header *gbb = NULL;
	const struct vb2_packed_key *rootkey = NULL;

	assert(image->data);

	gbb = find_gbb(image);
	if (!gbb) {
	WARN("No GBB found in image.\n");
	return NULL;
	}

	rootkey = get_rootkey(gbb);
	if (!rootkey) {
	WARN("No rootkey found in image.\n");
	return NULL;
	}

	return packed_key_sha1_string(rootkey);
	}