blob: 080da964c2eb7bc201e0bc860566012456361470 [file] [log] [blame]
/* Copyright (c) 2013 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.
* APIs provided by firmware to vboot_reference.
* General notes:
* All verified boot functions now start with "Vb" for namespace clarity. This
* fixes the problem where uboot and vboot both defined assert().
* Verified boot APIs to be implemented by the calling firmware and exported to
* vboot_reference start with "VbEx".
* TODO: split this file into a vboot_entry_points.h file which contains the
* entry points for the firmware to call vboot_reference, and a
* vboot_firmware_exports.h which contains the APIs to be implemented by the
* calling firmware and exported to vboot_reference.
#include <stdint.h>
#include <stdlib.h>
#include "../2lib/include/2return_codes.h"
#include "gpt.h"
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
struct vb2_context;
typedef struct VbSharedDataHeader VbSharedDataHeader;
/* Main entry points from firmware into vboot_reference */
* Minimum and recommended size of shared_data_blob in bytes. Shared data blob
* is used to communicate data between calls to VbInit(), VbSelectFirmware(),
* the OS. Minimum size is enough to hold all required data for verified boot
* but may not be able to hold debug output.
/* Flags for VbExGetSwitches() */
/* Report if user is currently present (typically via power button) */
* We use disk handles rather than indices. Using indices causes problems if
* a disk is removed/inserted in the middle of processing.
typedef void *VbExDiskHandle_t;
/* Data used only by VbSelectAndLoadKernel() */
typedef struct VbSelectAndLoadKernelParams {
/* Inputs to VbSelectAndLoadKernel() */
/* Destination buffer for kernel (normally at 0x100000 on x86) */
void *kernel_buffer;
/* Size of kernel buffer in bytes */
uint32_t kernel_buffer_size;
* Outputs from VbSelectAndLoadKernel(); valid only if it returns
* success.
/* Handle of disk containing loaded kernel */
VbExDiskHandle_t disk_handle;
/* Partition number on disk to boot (1...M) */
uint32_t partition_number;
/* Address of bootloader image in RAM */
uint64_t bootloader_address;
/* Size of bootloader image in bytes */
uint32_t bootloader_size;
/* UniquePartitionGuid for boot partition */
uint8_t partition_guid[16];
/* Flags set by signer */
uint32_t flags;
* TODO: in H2C, all that pretty much just gets passed to the
* bootloader as KernelBootloaderOptions, though the disk handle is
* passed as an index instead of a handle. Is that used anymore now
* that we're passing partition_guid?
} VbSelectAndLoadKernelParams;
* Select and loads the kernel.
* Returns VB2_SUCCESS if success, non-zero if error; on error, caller
* should reboot. */
vb2_error_t VbSelectAndLoadKernel(struct vb2_context *ctx,
VbSharedDataHeader *shared,
VbSelectAndLoadKernelParams *kparams);
/* Timer and delay (first two from utility.h) */
#define VB_USEC_PER_MSEC 1000ULL
* Read a microsecond timer.
* This should have a sufficient number of bits to avoid wraparound for at
* least 10 minutes. A 32-bit value would be plenty, but for historical
* reasons this returns uint64_t.
uint64_t VbExGetTimer(void);
* Delay for at least the specified number of milliseconds. Should be accurate
* to within 10% (a requested delay of 1000 ms should result in an actual delay
* of between 1000 - 1100 ms).
void VbExSleepMs(uint32_t msec);
* Play a beep tone of the specified frequency in Hz and duration in msec.
* This is effectively a VbSleep() variant that makes noise.
* If the audio codec can run in the background, then:
* zero frequency means OFF, non-zero frequency means ON
* zero msec means return immediately, non-zero msec means delay (and
* then OFF if needed)
* otherwise,
* non-zero msec and non-zero frequency means ON, delay, OFF, return
* zero msec or zero frequency means do nothing and return immediately
* The return value is used by the caller to determine the capabilities. The
* implementation should always do the best it can if it cannot fully support
* all features - for example, beeping at a fixed frequency if frequency
* support is not available. At a minimum, it must delay for the specified
* non-zero duration.
vb2_error_t VbExBeep(uint32_t msec, uint32_t frequency);
/* TPM (from tlcl_stub.h) */
* Initialize the stub library. */
vb2_error_t VbExTpmInit(void);
* Close and open the device. This is needed for running more complex commands
* at user level, such as TPM_TakeOwnership, since the TPM device can be opened
* only by one process at a time.
vb2_error_t VbExTpmClose(void);
vb2_error_t VbExTpmOpen(void);
* Send request to TPM and receive response
* Send a request_length-byte request to the TPM and receive a response. On
* input, response_length is the size of the response buffer in bytes. On
* exit, response_length is set to the actual received response length in
* bytes.
* @param request Pointer to request buffer
* @param request_length Number of bytes to send
* @param response Pointer to response buffer
* @param response_length Size of response buffer; on return,
* set to number of received bytes
* @return TPM_SUCCESS, or non-zero if error.
uint32_t VbExTpmSendReceive(const uint8_t *request, uint32_t request_length,
uint8_t *response, uint32_t *response_length);
* Obtain cryptographically secure random bytes. This function is used to
* generate random nonces for TPM auth sessions for example. As an implication,
* the generated random bytes should not be predictable for a TPM communication
* interception attack. This implies a local source of randomness should be
* used, i.e. this should not be wired to the TPM RNG directly. Otherwise, an
* attacker with communication interception abilities could launch replay
* attacks by reusing previous nonces.
vb2_error_t VbExTpmGetRandom(uint8_t *buf, uint32_t length);
/* Disk access (previously in boot_device.h) */
/* Flags for VbDisk APIs */
/* Disk is removable. Example removable disks: SD cards, USB keys. */
#define VB_DISK_FLAG_REMOVABLE 0x00000001
* Disk is fixed. If this flag is present, disk is internal to the system and
* not removable. Example fixed disks: internal SATA SSD, eMMC.
#define VB_DISK_FLAG_FIXED 0x00000002
* mutually-exclusive for a single disk. VbExDiskGetInfo() may specify both
* flags to request disks of both types in a single call.
* At some point we could specify additional flags, but we don't currently
* have a way to make use of these:
* USB Device is known to be attached to USB. Note that the SD
* card reader inside x86 systems is attached to USB so this
* isn't super useful.
* SD Device is known to be a SD card. Note that external card
* readers might not return this information, so also of
* questionable use.
* READ_ONLY Device is known to be read-only. Could be used by recovery
* when processing read-only recovery image.
* Disks are used in two ways:
* - As a random-access device to read and write the GPT
* - As a streaming device to read the kernel
* These are implemented differently on raw NAND vs eMMC/SATA/USB
* - On eMMC/SATA/USB, both of these refer to the same underlying
* storage, so they have the same size and LBA size. In this case,
* the GPT should not point to the same address as itself.
* - On raw NAND, the GPT is held on a portion of the SPI flash.
* Random access GPT operations refer to the SPI and streaming
* operations refer to NAND. The GPT may therefore point into
* the same offsets as itself.
* These types are distinguished by the following flag and VbDiskInfo
* has separate fields to describe the random-access ("GPT") and
* streaming aspects of the disk. If a disk is random-access (i.e.
* not raw NAND) then these fields are equal.
#define VB_DISK_FLAG_EXTERNAL_GPT 0x00000004
/* Information on a single disk */
typedef struct VbDiskInfo {
/* Disk handle */
VbExDiskHandle_t handle;
/* Size of a random-access LBA sector in bytes */
uint64_t bytes_per_lba;
/* Number of random-access LBA sectors on the device.
* If streaming_lba_count is 0, this stands in for the size of the
* randomly accessed portion as well as the streaming portion.
* Otherwise, this is only the randomly-accessed portion. */
uint64_t lba_count;
/* Number of streaming sectors on the device */
uint64_t streaming_lba_count;
/* Flags (see VB_DISK_FLAG_* constants) */
uint32_t flags;
* Optional name string, for use in debugging. May be empty or null if
* not available.
const char *name;
} VbDiskInfo;
* Store information into [info] for all disks (storage devices) attached to
* the system which match all of the disk_flags.
* On output, count indicates how many disks are present, and [infos_ptr]
* points to a [count]-sized array of VbDiskInfo structs with the information
* on those disks; this pointer must be freed by calling VbExDiskFreeInfo().
* If count=0, infos_ptr may point to NULL. If [infos_ptr] points to NULL
* because count=0 or error, it is not necessary to call VbExDiskFreeInfo().
* A multi-function device (such as a 4-in-1 card reader) should provide
* multiple disk handles.
* The firmware must not alter or free the list pointed to by [infos_ptr] until
* VbExDiskFreeInfo() is called.
vb2_error_t VbExDiskGetInfo(VbDiskInfo **infos_ptr, uint32_t *count,
uint32_t disk_flags);
* Free a disk information list [infos] previously returned by
* VbExDiskGetInfo(). If [preserve_handle] != NULL, the firmware must ensure
* that handle remains valid after this call; all other handles from the info
* list need not remain valid after this call.
vb2_error_t VbExDiskFreeInfo(VbDiskInfo *infos,
VbExDiskHandle_t preserve_handle);
* Read lba_count LBA sectors, starting at sector lba_start, from the disk,
* into the buffer.
* This is used for random access to the GPT. It is not for the partition
* contents. The upper limit is lba_count.
* If the disk handle is invalid (for example, the handle refers to a disk
* which as been removed), the function must return error but must not
* crash.
vb2_error_t VbExDiskRead(VbExDiskHandle_t handle, uint64_t lba_start,
uint64_t lba_count, void *buffer);
* Write lba_count LBA sectors, starting at sector lba_start, to the disk, from
* the buffer.
* This is used for random access to the GPT. It does not (necessarily) access
* the streaming portion of the device.
* If the disk handle is invalid (for example, the handle refers to a disk
* which as been removed), the function must return error but must not
* crash.
vb2_error_t VbExDiskWrite(VbExDiskHandle_t handle, uint64_t lba_start,
uint64_t lba_count, const void *buffer);
/* Streaming read interface */
typedef void *VbExStream_t;
* Open a stream on a disk
* @param handle Disk to open the stream against
* @param lba_start Starting sector offset within the disk to stream from
* @param lba_count Maximum extent of the stream in sectors
* @param stream out-paramter for the generated stream
* @return Error code, or VB2_SUCCESS.
* This is used for access to the contents of the actual partitions on the
* device. It is not used to access the GPT. The size of the content addressed
* is within streaming_lba_count.
vb2_error_t VbExStreamOpen(VbExDiskHandle_t handle, uint64_t lba_start,
uint64_t lba_count, VbExStream_t *stream_ptr);
* Read from a stream on a disk
* @param stream Stream to read from
* @param bytes Number of bytes to read
* @param buffer Destination to read into
* @return Error code, or VB2_SUCCESS. Failure to read as much data as
* requested is an error.
* This is used for access to the contents of the actual partitions on the
* device. It is not used to access the GPT.
vb2_error_t VbExStreamRead(VbExStream_t stream, uint32_t bytes, void *buffer);
* Close a stream
* @param stream Stream to close
void VbExStreamClose(VbExStream_t stream);
/* Display */
/* Predefined (default) screens for VbExDisplayScreen(). */
enum VbScreenType_t {
/* Blank (clear) screen */
/* Developer - warning */
/* REMOVED: Developer - easter egg (0x102) */
/* REMOVED: Recovery - remove inserted devices (0x201) */
/* Recovery - insert recovery image */
/* Recovery - inserted image invalid */
/* Recovery - confirm dev mode */
/* Developer - confirm normal mode */
/* Please wait - programming EC */
/* Confirm after DEVELOPER_TO_NORM */
/* Broken screen shown after verification failure */
/* REMOVED: Display base screen (no icons, no text) (0x209) */
/* Detachable Menu - Developer Warning */
/* Detachable Menu - Developer Boot */
/* REMOVED: Detachable Menu - Recovery (0x20c) */
/* Detachable Menu - Confirm Dev Mode */
/* Detachable Menu - Confirm Normal Mode */
/* Detachable Menu - Languages */
/* Detachable Menu - Options */
/* REMOVED: Alt OS picker screen (0x211) */
/* Alt firmware picker screen (for keyboard UI) */
/* Alt firmware menu screen (for detachable UI ) */
/* Hardware failure */
/* First recovery screen to select recovering from phone or disk */
/* Recovery using phone */
/* Recovery using external disk */
/* Boot from internal disk */
/* Boot from external disk */
/* Debug info screen */
/* BIOS log screen */
/* 0x300-0x350 reserved for device-specific screens */
/* Vendor data not set warning screen */
/* Set vendor data menu screen */
/* Confirm vendor data menu screen */
/* Confirm reboot for running diagnostics rom */
/* Flags to control behavior of device-specific screens. */
enum VbVendorDataFlags_t {
/* When set display a cursor after the prompt */
/* When set only redraw the cursor */
* Extra data needed when displaying vendor data screens
typedef struct VbVendorData
/* Current state of the the vendor data input */
const char *input_text;
/* Flags (See VbVendorDataFlags_t) */
uint32_t flags;
/* Current confirmation selection for new vendor data */
uint32_t selected_index;
} VbVendorData;
* Extra data that may be used when displaying a screen
typedef struct VbScreenData
union {
VbVendorData vendor_data;
} VbScreenData;
* Display a predefined screen; see VB_SCREEN_* for valid screens.
* This is a backup method of screen display, intended for use if the GBB does
* not contain a full set of bitmaps. It is acceptable for the backup screen
* to be simple ASCII text such as "NO GOOD" or "INSERT"; these screens should
* only be seen during development.
vb2_error_t VbExDisplayScreen(uint32_t screen_type, uint32_t locale,
const VbScreenData *data);
* Display a predefined menu screen; see VB_SCREEN_* for valid screens.
* @param screen_type ID of screen to draw
* @param locale language to display
* @param selected_index Index of menu item that is currently selected.
* @param disabled_idx_mask Bitmap for enabling/disabling certain menu items.
* each bit corresponds to the menu item's index.
* @param redraw_base Setting 1 will force a full redraw of the screen
* @return VB2_SUCCESS or error code on error.
vb2_error_t VbExDisplayMenu(uint32_t screen_type, uint32_t locale,
uint32_t selected_index, uint32_t disabled_idx_mask,
uint32_t redraw_base);
* Display a string containing debug information on the screen, rendered in a
* platform-dependent font. Should be able to handle newlines '\n' in the
* string. Firmware must support displaying at least 20 lines of text, where
* each line may be at least 80 characters long. If the firmware has its own
* debug state, it may display it to the screen below this information if the
* full_info parameter is set.
* @param info_str The debug string to display
* @param full_info 1 if firmware should append its own info, 0 if not
* @return VB2_SUCCESS or error code on error.
vb2_error_t VbExDisplayDebugInfo(const char *info_str, int full_info);
* Write vendor data to read-only VPD
* @param vendor_data_value The value of vendor data to write to VPD. The
* string length will be exactly VENDOR_DATA_LENGTH
* characters and null-terminated.
* @return VB2_SUCCESS or error code on error.
vb2_error_t VbExSetVendorData(const char *vendor_data_value);
/* Keyboard and switches */
/* Key code for CTRL + letter */
#define VB_KEY_CTRL(letter) (letter & 0x1f)
/* Key code for fn keys */
#define VB_KEY_F(num) (num + 0x108)
/* Key codes for required non-printable-ASCII characters. */
enum VbKeyCode_t {
VB_KEY_ENTER = '\r',
VB_KEY_ESC = 0x1b,
VB_KEY_UP = 0x100,
VB_KEY_DOWN = 0x101,
VB_KEY_LEFT = 0x102,
VB_KEY_RIGHT = 0x103,
* WARNING!!! Before updating the codes in enum VbButtonCode_t, ensure that the
* code does not overlap the values in VbKeyCode_t unless the button action is
* the same as key action.
enum VbButtonCode_t {
/* Volume up/down short press match the values in 8042 driver. */
/* Dummy values used below. */
/* Flags for additional information.
* TODO(semenzato): consider adding flags for modifiers instead of
* making up some of the key codes above.
enum VbKeyFlags_t {
* Read the next keypress from the keyboard buffer.
* Returns the keypress, or zero if no keypress is pending or error.
* The following keys must be returned as ASCII character codes:
* 0x08 Backspace
* 0x09 Tab
* 0x0D Enter (carriage return)
* 0x01 - 0x1A Ctrl+A - Ctrl+Z (yes, those alias with backspace/tab/enter)
* 0x1B Esc (VB_KEY_ESC)
* 0x20 Space
* 0x30 - 0x39 '0' - '9'
* 0x60 - 0x7A 'a' - 'z'
* Some extended keys must also be supported; see the VB_KEY_* defines above.
* Keys ('/') or key-chords (Fn+Q) not defined above may be handled in any of
* the following ways:
* 1. Filter (don't report anything if one of these keys is pressed).
* 2. Report as ASCII (if a well-defined ASCII value exists for the key).
* 3. Report as any other value in the range 0x200 - 0x2FF.
* It is not permitted to report a key as a multi-byte code (for example,
* sending an arrow key as the sequence of keys '\x1b', '[', '1', 'A'). */
uint32_t VbExKeyboardRead(void);
* Same as VbExKeyboardRead(), but return extra information.
uint32_t VbExKeyboardReadWithFlags(uint32_t *flags_ptr);
* Return the current state of the switches specified in request_mask
uint32_t VbExGetSwitches(uint32_t request_mask);
/* Misc */
* Check if the firmware needs to shut down the system.
* Returns a non-zero VB_SHUTDOWN_REQUEST mask indicating the reason(s) for
* shutdown if a shutdown is being requested (see VB_SHUTDOWN_REQUEST_*), or 0
* if a shutdown is not being requested.
* NOTE: When we're displaying a screen, pressing the power button should shut
* down the computer. We need a way to break out of our control loop so this
* can occur cleanly.
uint32_t VbExIsShutdownRequested(void);
* Shutdown requested for a reason which is not defined among other
* VB_SHUTDOWN_REQUEST_* values. This must be defined as 1 for backward
* compatibility with old versions of the API.
#define VB_SHUTDOWN_REQUEST_OTHER 0x00000001
/* Shutdown requested due to a lid switch being closed. */
/* Shutdown requested due to a power button being pressed. */
/* Constants for compression_type */
enum {
COMPRESS_EFIv1, /* The x86 BIOS only supports this */
COMPRESS_LZMA1, /* The ARM BIOS supports LZMA1 */
enum VbAltFwIndex_t {
* Execute legacy boot option.
* @param altfw_num Bootloader sequence number to execute. Use
* 0 to boot the default payload, if any
* >0 (i.e., positive #) run a payload by # based in altfw/list file
* <0 (i.e., negative #) run a specific payload by name without using
* the altfw/list file. Typically payloads in this category will be
* verified before they are run. Currently these #s are defined:
* -1 diagnostic payload
vb2_error_t VbExLegacy(enum VbAltFwIndex_t altfw_num);
/* Regions for VbExRegionRead() */
enum vb_firmware_region {
VB_REGION_GBB, /* Google Binary Block - see gbbheader.h */
* Return number of locales supported
* @param count Pointer to the number of locales.
* @return VBERROR_... error, VB2_SUCCESS on success.
vb2_error_t VbExGetLocalizationCount(uint32_t *count);
enum vb_altfw {
VB_ALTFW_COUNT = 9, /* We allow 9 bootloaders, numbered 1-9 */
* Get a mask of available alternative firmware options
* There are up to 9 bootloaders, numbered 1 to 9, using bits 1 to 9 of this
* mask. Bit 0 is unused.
* @return Bit mask indicating which bootloaders are present (bit n indicates
* bootloader n is present)
uint32_t VbExGetAltFwIdxMask(void);
#ifdef __cplusplus
#endif /* __cplusplus */