mirror of
https://github.com/AsahiLinux/u-boot
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a8f5be178d
Add support for bootflows, including maintaining a list of them and iterating to find them. Signed-off-by: Simon Glass <sjg@chromium.org>
310 lines
9.9 KiB
C
310 lines
9.9 KiB
C
/* SPDX-License-Identifier: GPL-2.0+ */
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/*
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* Copyright 2021 Google LLC
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* Written by Simon Glass <sjg@chromium.org>
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*/
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#ifndef __bootflow_h
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#define __bootflow_h
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#include <linux/list.h>
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/**
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* enum bootflow_state_t - states that a particular bootflow can be in
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*
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* Only bootflows in state BOOTFLOWST_READY can be used to boot.
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*
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* See bootflow_state[] for the names for each of these
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*/
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enum bootflow_state_t {
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BOOTFLOWST_BASE, /**< Nothing known yet */
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BOOTFLOWST_MEDIA, /**< Media exists */
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BOOTFLOWST_PART, /**< Partition exists */
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BOOTFLOWST_FS, /**< Filesystem exists */
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BOOTFLOWST_FILE, /**< Bootflow file exists */
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BOOTFLOWST_READY, /**< Bootflow file loaded */
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BOOTFLOWST_COUNT
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};
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/**
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* struct bootflow - information about a bootflow
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*
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* This is connected into two separate linked lists:
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*
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* bm_sibling - links all bootflows in the same bootdev
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* glob_sibling - links all bootflows in all bootdevs
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*
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* @bm_node: Points to siblings in the same bootdev
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* @glob_node: Points to siblings in the global list (all bootdev)
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* @dev: Bootdevice device which produced this bootflow
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* @blk: Block device which contains this bootflow, NULL if this is a network
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* device
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* @part: Partition number (0 for whole device)
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* @fs_type: Filesystem type (FS_TYPE...) if this is fixed by the media, else 0.
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* For example, the sandbox host-filesystem bootdev sets this to
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* FS_TYPE_SANDBOX
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* @method: Bootmethod device used to perform the boot and read files
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* @name: Name of bootflow (allocated)
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* @state: Current state (enum bootflow_state_t)
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* @subdir: Subdirectory to fetch files from (with trailing /), or NULL if none
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* @fname: Filename of bootflow file (allocated)
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* @buf: Bootflow file contents (allocated)
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* @size: Size of bootflow file in bytes
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* @err: Error number received (0 if OK)
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*/
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struct bootflow {
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struct list_head bm_node;
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struct list_head glob_node;
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struct udevice *dev;
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struct udevice *blk;
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int part;
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int fs_type;
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struct udevice *method;
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char *name;
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enum bootflow_state_t state;
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char *subdir;
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char *fname;
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char *buf;
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int size;
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int err;
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};
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/**
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* enum bootflow_flags_t - flags for the bootflow iterator
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*
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* @BOOTFLOWF_FIXED: Only used fixed/internal media
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* @BOOTFLOWF_SHOW: Show each bootdev before scanning it
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* @BOOTFLOWF_ALL: Return bootflows with errors as well
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* @BOOTFLOWF_SINGLE_DEV: Just scan one bootmeth
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*/
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enum bootflow_flags_t {
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BOOTFLOWF_FIXED = 1 << 0,
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BOOTFLOWF_SHOW = 1 << 1,
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BOOTFLOWF_ALL = 1 << 2,
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BOOTFLOWF_SINGLE_DEV = 1 << 3,
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};
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/**
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* struct bootflow_iter - state for iterating through bootflows
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*
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* This starts at with the first bootdev/partition/bootmeth and can be used to
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* iterate through all of them.
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*
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* Iteration starts with the bootdev. The first partition (0, i.e. whole device)
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* is scanned first. For partition 0, it iterates through all the available
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* bootmeths to see which one(s) can provide a bootflow. Then it moves to
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* parition 1 (if there is one) and the process continues. Once all partitions
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* are examined, it moves to the next bootdev.
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*
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* Initially @max_part is 0, meaning that only the whole device (@part=0) can be
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* used. During scanning, if a partition table is found, then @max_part is
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* updated to a larger value, no less than the number of available partitions.
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* This ensures that iteration works through all partitions on the bootdev.
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*
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* @flags: Flags to use (see enum bootflow_flags_t)
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* @dev: Current bootdev
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* @part: Current partition number (0 for whole device)
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* @method: Current bootmeth
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* @max_part: Maximum hardware partition number in @dev, 0 if there is no
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* partition table
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* @err: Error obtained from checking the last iteration. This is used to skip
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* forward (e.g. to skip the current partition because it is not valid)
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* -ESHUTDOWN: try next bootdev
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* @num_devs: Number of bootdevs in @dev_order
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* @cur_dev: Current bootdev number, an index into @dev_order[]
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* @dev_order: List of bootdevs to scan, in order of priority. The scan starts
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* with the first one on the list
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* @num_methods: Number of bootmeth devices in @method_order
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* @cur_method: Current method number, an index into @method_order
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* @method_order: List of bootmeth devices to use, in order
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*/
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struct bootflow_iter {
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int flags;
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struct udevice *dev;
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int part;
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struct udevice *method;
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int max_part;
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int err;
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int num_devs;
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int cur_dev;
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struct udevice **dev_order;
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int num_methods;
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int cur_method;
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struct udevice **method_order;
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};
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/**
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* bootflow_iter_init() - Reset a bootflow iterator
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*
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* This sets everything to the starting point, ready for use.
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*
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* @iter: Place to store private info (inited by this call)
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* @flags: Flags to use (see enum bootflow_flags_t)
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*/
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void bootflow_iter_init(struct bootflow_iter *iter, int flags);
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/**
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* bootflow_iter_uninit() - Free memory used by an interator
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*
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* @iter: Iterator to free
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*/
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void bootflow_iter_uninit(struct bootflow_iter *iter);
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/**
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* bootflow_iter_drop_bootmeth() - Remove a bootmeth from an iterator
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*
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* Update the iterator so that the bootmeth will not be used again while this
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* iterator is in use
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*
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* @iter: Iterator to update
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* @bmeth: Boot method to remove
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*/
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int bootflow_iter_drop_bootmeth(struct bootflow_iter *iter,
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const struct udevice *bmeth);
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/**
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* bootflow_scan_bootdev() - find the first bootflow in a bootdev
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*
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* If @flags includes BOOTFLOWF_ALL then bootflows with errors are returned too
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*
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* @dev: Boot device to scan, NULL to work through all of them until it
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* finds one that * can supply a bootflow
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* @iter: Place to store private info (inited by this call)
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* @flags: Flags for bootdev (enum bootflow_flags_t)
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* @bflow: Place to put the bootflow if found
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* Return: 0 if found, -ENODEV if no device, other -ve on other error
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* (iteration can continue)
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*/
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int bootflow_scan_bootdev(struct udevice *dev, struct bootflow_iter *iter,
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int flags, struct bootflow *bflow);
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/**
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* bootflow_scan_first() - find the first bootflow
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*
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* This works through the available bootdev devices until it finds one that
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* can supply a bootflow. It then returns that
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*
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* If @flags includes BOOTFLOWF_ALL then bootflows with errors are returned too
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*
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* @iter: Place to store private info (inited by this call), with
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* @flags: Flags for bootdev (enum bootflow_flags_t)
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* @bflow: Place to put the bootflow if found
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* Return: 0 if found, -ENODEV if no device, other -ve on other error (iteration
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* can continue)
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*/
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int bootflow_scan_first(struct bootflow_iter *iter, int flags,
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struct bootflow *bflow);
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/**
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* bootflow_scan_next() - find the next bootflow
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*
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* This works through the available bootdev devices until it finds one that
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* can supply a bootflow. It then returns that bootflow
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*
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* @iter: Private info (as set up by bootflow_scan_first())
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* @bflow: Place to put the bootflow if found
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* Return: 0 if found, -ENODEV if no device, -ESHUTDOWN if no more bootflows,
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* other -ve on other error (iteration can continue)
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*/
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int bootflow_scan_next(struct bootflow_iter *iter, struct bootflow *bflow);
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/**
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* bootflow_first_glob() - Get the first bootflow from the global list
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*
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* Returns the first bootflow in the global list, no matter what bootflow it is
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* attached to
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*
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* @bflowp: Returns a pointer to the bootflow
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* Return: 0 if found, -ENOENT if there are no bootflows
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*/
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int bootflow_first_glob(struct bootflow **bflowp);
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/**
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* bootflow_next_glob() - Get the next bootflow from the global list
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*
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* Returns the next bootflow in the global list, no matter what bootflow it is
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* attached to
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*
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* @bflowp: On entry, the last bootflow returned , e.g. from
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* bootflow_first_glob()
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* Return: 0 if found, -ENOENT if there are no more bootflows
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*/
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int bootflow_next_glob(struct bootflow **bflowp);
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/**
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* bootflow_free() - Free memory used by a bootflow
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*
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* This frees fields within @bflow, but not the @bflow pointer itself
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*/
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void bootflow_free(struct bootflow *bflow);
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/**
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* bootflow_boot() - boot a bootflow
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*
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* @bflow: Bootflow to boot
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* Return: -EPROTO if bootflow has not been loaded, -ENOSYS if the bootflow
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* type is not supported, -EFAULT if the boot returned without an error
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* when we are expecting it to boot, -ENOTSUPP if trying method resulted in
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* finding out that is not actually supported for this boot and should not
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* be tried again unless something changes
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*/
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int bootflow_boot(struct bootflow *bflow);
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/**
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* bootflow_run_boot() - Try to boot a bootflow
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*
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* @iter: Current iteration (or NULL if none). Used to disable a bootmeth if the
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* boot returns -ENOTSUPP
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* @bflow: Bootflow to boot
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* Return: result of trying to boot
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*/
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int bootflow_run_boot(struct bootflow_iter *iter, struct bootflow *bflow);
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/**
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* bootflow_state_get_name() - Get the name of a bootflow state
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*
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* @state: State to check
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* Return: name, or "?" if invalid
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*/
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const char *bootflow_state_get_name(enum bootflow_state_t state);
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/**
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* bootflow_remove() - Remove a bootflow and free its memory
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*
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* This updates the linked lists containing the bootflow then frees it.
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*
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* @bflow: Bootflow to remove
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*/
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void bootflow_remove(struct bootflow *bflow);
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/**
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* bootflow_iter_uses_blk_dev() - Check that a bootflow uses a block device
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*
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* This checks the bootdev in the bootflow to make sure it uses a block device
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*
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* Return: 0 if OK, -ENOTSUPP if some other device is used (e.g. ethernet)
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*/
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int bootflow_iter_uses_blk_dev(const struct bootflow_iter *iter);
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/**
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* bootflow_iter_uses_network() - Check that a bootflow uses a network device
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*
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* This checks the bootdev in the bootflow to make sure it uses a network
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* device
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*
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* Return: 0 if OK, -ENOTSUPP if some other device is used (e.g. MMC)
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*/
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int bootflow_iter_uses_network(const struct bootflow_iter *iter);
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/**
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* bootflow_iter_uses_system() - Check that a bootflow uses the bootstd device
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*
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* This checks the bootdev in the bootflow to make sure it uses the bootstd
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* device
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*
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* Return: 0 if OK, -ENOTSUPP if some other device is used (e.g. MMC)
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*/
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int bootflow_iter_uses_system(const struct bootflow_iter *iter);
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#endif
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