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The linker script uses alphabetic sorting to group the different linker lists together. Each group has its own struct and potentially its own alignment. But when the linker packs the structs together it cannot ensure that a linker list starts on the expected alignment boundary. For example, if the first list has a struct size of 8 and we place 3 of them in the image, that means that the next struct will start at offset 0x18 from the start of the linker_list section. If the next struct has a size of 16 then it will start at an 8-byte aligned offset, but not a 16-byte aligned offset. With sandbox on x86_64, a reference to a linker list item using ll_entry_get() can force alignment of that particular linker_list item, if it is in the same file as the linker_list item is declared. Consider this example, where struct driver is 0x80 bytes: ll_entry_declare(struct driver, fred, driver) ... void *p = ll_entry_get(struct driver, fred, driver) If these two lines of code are in the same file, then the entry is forced to be aligned at the 'struct driver' alignment, which is 16 bytes. If the second line of code is in a different file, then no action is taken, since the compiler cannot update the alignment of the linker_list item. In the first case, an 8-byte 'fill' region is added: .u_boot_list_2_driver_2_testbus_drv 0x0000000000270018 0x80 test/built-in.o 0x0000000000270018 _u_boot_list_2_driver_2_testbus_drv .u_boot_list_2_driver_2_testfdt1_drv 0x0000000000270098 0x80 test/built-in.o 0x0000000000270098 _u_boot_list_2_driver_2_testfdt1_drv *fill* 0x0000000000270118 0x8 .u_boot_list_2_driver_2_testfdt_drv 0x0000000000270120 0x80 test/built-in.o 0x0000000000270120 _u_boot_list_2_driver_2_testfdt_drv .u_boot_list_2_driver_2_testprobe_drv 0x00000000002701a0 0x80 test/built-in.o 0x00000000002701a0 _u_boot_list_2_driver_2_testprobe_drv With this, the linker_list no-longer works since items after testfdt1_drv are not at the expected address. Ideally we would have a way to tell gcc not to align structs in this way. It is not clear how we could do this, and in any case it would require us to adjust every struct used by the linker_list feature. One possible fix is to force each separate linker_list to start on the largest possible boundary that can be required by the compiler. However that does not seem to work on x86_64, which uses 16-byte alignment in this case but needs 32-byte alignment. So add a Kconfig option to handle this. Set the default value to 4 so as to avoid changing platforms that don't need it. Update the ll_entry_start() accordingly. Signed-off-by: Simon Glass <sjg@chromium.org>
159 lines
5.6 KiB
ReStructuredText
159 lines
5.6 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0+
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Linker-Generated Arrays
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=======================
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A linker list is constructed by grouping together linker input
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sections, each containing one entry of the list. Each input section
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contains a constant initialized variable which holds the entry's
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content. Linker list input sections are constructed from the list
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and entry names, plus a prefix which allows grouping all lists
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together. Assuming _list and _entry are the list and entry names,
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then the corresponding input section name is
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::
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.u_boot_list_ + 2_ + @_list + _2_ + @_entry
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and the C variable name is
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::
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_u_boot_list + _2_ + @_list + _2_ + @_entry
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This ensures uniqueness for both input section and C variable name.
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Note that the names differ only in the first character, "." for the
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section and "_" for the variable, so that the linker cannot confuse
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section and symbol names. From now on, both names will be referred
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to as
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::
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%u_boot_list_ + 2_ + @_list + _2_ + @_entry
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Entry variables need never be referred to directly.
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The naming scheme for input sections allows grouping all linker lists
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into a single linker output section and grouping all entries for a
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single list.
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Note the two '_2_' constant components in the names: their presence
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allows putting a start and end symbols around a list, by mapping
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these symbols to sections names with components "1" (before) and
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"3" (after) instead of "2" (within).
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Start and end symbols for a list can generally be defined as
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::
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%u_boot_list_2_ + @_list + _1_...
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%u_boot_list_2_ + @_list + _3_...
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Start and end symbols for the whole of the linker lists area can be
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defined as
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::
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%u_boot_list_1_...
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%u_boot_list_3_...
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Here is an example of the sorted sections which result from a list
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"array" made up of three entries : "first", "second" and "third",
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iterated at least once.
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::
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.u_boot_list_2_array_1
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.u_boot_list_2_array_2_first
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.u_boot_list_2_array_2_second
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.u_boot_list_2_array_2_third
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.u_boot_list_2_array_3
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If lists must be divided into sublists (e.g. for iterating only on
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part of a list), one can simply give the list a name of the form
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'outer_2_inner', where 'outer' is the global list name and 'inner'
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is the sub-list name. Iterators for the whole list should use the
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global list name ("outer"); iterators for only a sub-list should use
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the full sub-list name ("outer_2_inner").
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Here is an example of the sections generated from a global list
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named "drivers", two sub-lists named "i2c" and "pci", and iterators
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defined for the whole list and each sub-list:
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::
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%u_boot_list_2_drivers_1
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%u_boot_list_2_drivers_2_i2c_1
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%u_boot_list_2_drivers_2_i2c_2_first
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%u_boot_list_2_drivers_2_i2c_2_first
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%u_boot_list_2_drivers_2_i2c_2_second
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%u_boot_list_2_drivers_2_i2c_2_third
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%u_boot_list_2_drivers_2_i2c_3
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%u_boot_list_2_drivers_2_pci_1
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%u_boot_list_2_drivers_2_pci_2_first
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%u_boot_list_2_drivers_2_pci_2_second
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%u_boot_list_2_drivers_2_pci_2_third
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%u_boot_list_2_drivers_2_pci_3
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%u_boot_list_2_drivers_3
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Alignment issues
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----------------
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The linker script uses alphabetic sorting to group the different linker
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lists together. Each group has its own struct and potentially its own
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alignment. But when the linker packs the structs together it cannot ensure
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that a linker list starts on the expected alignment boundary.
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For example, if the first list has a struct size of 8 and we place 3 of
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them in the image, that means that the next struct will start at offset
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0x18 from the start of the linker_list section. If the next struct has
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a size of 16 then it will start at an 8-byte aligned offset, but not a
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16-byte aligned offset.
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With sandbox on x86_64, a reference to a linker list item using
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ll_entry_get() can force alignment of that particular linker_list item,
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if it is in the same file as the linker_list item is declared.
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Consider this example, where struct driver is 0x80 bytes::
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ll_entry_declare(struct driver, fred, driver)
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...
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void *p = ll_entry_get(struct driver, fred, driver)
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If these two lines of code are in the same file, then the entry is forced
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to be aligned at the 'struct driver' alignment, which is 16 bytes. If the
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second line of code is in a different file, then no action is taken, since
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the compiler cannot update the alignment of the linker_list item.
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In the first case, an 8-byte 'fill' region is added::
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.u_boot_list_2_driver_2_testbus_drv
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0x0000000000270018 0x80 test/built-in.o
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0x0000000000270018 _u_boot_list_2_driver_2_testbus_drv
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.u_boot_list_2_driver_2_testfdt1_drv
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0x0000000000270098 0x80 test/built-in.o
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0x0000000000270098 _u_boot_list_2_driver_2_testfdt1_drv
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*fill* 0x0000000000270118 0x8
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.u_boot_list_2_driver_2_testfdt_drv
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0x0000000000270120 0x80 test/built-in.o
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0x0000000000270120 _u_boot_list_2_driver_2_testfdt_drv
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.u_boot_list_2_driver_2_testprobe_drv
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0x00000000002701a0 0x80 test/built-in.o
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0x00000000002701a0 _u_boot_list_2_driver_2_testprobe_drv
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With this, the linker_list no-longer works since items after testfdt1_drv
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are not at the expected address.
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Ideally we would have a way to tell gcc not to align structs in this way.
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It is not clear how we could do this, and in any case it would require us
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to adjust every struct used by the linker_list feature.
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The simplest fix seems to be to force each separate linker_list to start
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on the largest possible boundary that can be required by the compiler. This
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is the purpose of CONFIG_LINKER_LIST_ALIGN
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.. kernel-doc:: include/linker_lists.h
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:internal:
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