Add documentation about standard passage and update the maintainers.
Signed-off-by: Simon Glass <s...@chromium.org>
---
Changes in v2:
- Add comments about how to pass standard passage to EFI
- Add comments about passing a bloblist to Linux
- Add detailed arch-specific information
MAINTAINERS | 10 +
board/sandbox/stdpass_check.c | 10 +-
doc/develop/bloblist.rst | 4 +-
doc/develop/index.rst | 1 +
doc/develop/std_passage.rst | 396 ++++++++++++++++++++++++++++++++++
5 files changed, 411 insertions(+), 10 deletions(-)
create mode 100644 doc/develop/std_passage.rst
diff --git a/MAINTAINERS b/MAINTAINERS
index 38c68ee87d4..63723d43b63 100644
--- a/MAINTAINERS
+++ b/MAINTAINERS
@@ -1177,6 +1177,16 @@ F: common/stackprot.c
F: cmd/stackprot_test.c
F: test/py/tests/test_stackprotector.py
+STANDARD PASSAGE
+M: Simon Glass <s...@chromium.org>
+F: board/sandbox/stdpass_check.c
+F: cmd/bloblist.c
+F: common/bloblist.c
+F: doc/develop/std_passage.rst
+F: include/bloblist.h
+F: include/stdpass/
+F: test/bloblist.c
+
TARGET_BCMNS3
M: Bharat Gooty <bharat.go...@broadcom.com>
M: Rayagonda Kokatanur <rayagonda.kokata...@broadcom.com>
diff --git a/board/sandbox/stdpass_check.c b/board/sandbox/stdpass_check.c
index 565124e1564..8391c7a4aed 100644
--- a/board/sandbox/stdpass_check.c
+++ b/board/sandbox/stdpass_check.c
@@ -8,13 +8,6 @@
#include <common.h>
-/* BLOBLISTT_U_BOOT_SPL_HANDOFF */
-#include <handoff.h>
-void check_spl_handoff(void)
-{
- __maybe_unused struct spl_handoff check;
-};
-
/*
* See also doc/develop/std_passage.rst
*
@@ -23,7 +16,8 @@ void check_spl_handoff(void)
* 1. Add your header file to U-Boot, or to include/stdpass if it is not used
in
* U-Boot
*
- * 2. Add a function below to include the header and use the struct
+ * 2. Add a function below to include the header and use the struct. Please put
+ * your function in order of tag ID (see bloblist.h)
*
* Template follows, see above for example
*/
diff --git a/doc/develop/bloblist.rst b/doc/develop/bloblist.rst
index 572aa65d764..e819c6dc76b 100644
--- a/doc/develop/bloblist.rst
+++ b/doc/develop/bloblist.rst
@@ -1,7 +1,7 @@
.. SPDX-License-Identifier: GPL-2.0+
-Blob Lists - bloblist
-=====================
+Bloblist
+========
Introduction
------------
diff --git a/doc/develop/index.rst b/doc/develop/index.rst
index 9592d193fca..d0aecc30059 100644
--- a/doc/develop/index.rst
+++ b/doc/develop/index.rst
@@ -21,6 +21,7 @@ Implementation
logging
makefiles
menus
+ std_passage
uefi/index
version
diff --git a/doc/develop/std_passage.rst b/doc/develop/std_passage.rst
new file mode 100644
index 00000000000..461098e01e7
--- /dev/null
+++ b/doc/develop/std_passage.rst
@@ -0,0 +1,396 @@
+.. SPDX-License-Identifier: GPL-2.0+
+
+Standard Passage
+================
+
+Introduction
+------------
+
+It is sometimes necessary for SPL to communicate information to U-Boot proper,
+such as the RAM size. This can sometimes be handled by adding the value to a
+Kconfig which both SPL and U-Boot proper can use. But this does not work for
+values which are detected at runtime.
+
+In some cases other firmware binaries are used alongside U-Boot and these may
+need to pass information to U-Boot or receive information from it. In this case
+there is no shared build system and it is clumsy so have to specify matching
+build options across projects.
+
+U-Boot provides a standard way of passing information between different phases
+(TPL, SPL, U-Boot). This is called `standard passage` since it creates a
+standard passage through which any sort of information can flow.
+
+
+How it works
+------------
+
+The standard passage is very simple. It is really just a way of sending a
+bloblist between programs, either at a fixed address, or using registers to
+indicate the location.
+
+A :doc:`bloblist` is a simple, contiguous data structure containing a number of
+blobs. Each blob has a tag to indicate what it contains. It is designed for
+simple information, like a small C struct. For more complex data, a devicetree
+is preferred since it has bindings and is extensible.
+
+The bloblist is typically set up initially by one of the early phases of
U-Boot,
+such as TPL. It starts either at a fixed address or is allocated in memory
using
+malloc(). After that, TPL passes the location of the bloblist to SPL (using
+machine register in an architecture-specific way) and SPL passes it to U-Boot
+proper. It is possible to add new blobs to the bloblist at each phase. U-Boot
+proper relocates the bloblist so can expand it if desired.
+
+
+Use by other projects
+---------------------
+
+The standard passage is also intended to be used by other firmware projects,
+particularly if they interface with U-Boot. It allows that project's firmware
+binaries to pass information to U-Boot (if they run before U-Boot) or receive
+information from U-Boot (if they run afterwards).
+
+These projects can copy and modify the bloblist code provided they have a
+compatible license.
+
+
+Allocating tags
+---------------
+
+Tags are defined in the `bloblist.h` header file. For the moment, the U-Boot
+tree is the upstream repository for tags.
+
+Tags may be allocated in the following areas:
+
+BLOBLISTT_AREA_FIRMWARE_TOP
+ A small area for tags of considerable relevance to multiple projects
+
+BLOBLISTT_AREA_FIRMWARE
+ A larger area for tags likely to be relevant to multiple projects either
now
+ or in the future
+
+BLOBLISTT_PROJECT_AREA
+ Used for specific projects that want to make sure their tags are correctly
+ ignored by other binaries in the firmware flow. This area should not be
+ used for tags that are used by multiple projects. Instead, use
+ `BLOBLISTT_AREA_FIRMWARE`.
+
+BLOBLISTT_VENDOR_AREA
+ Used for specific vendors that want to make sure their tags are correctly
+ ignored by other binaries in the firmware flow. This area should not be
+ used for tags that are used by multiple vendors. Instead, use
+ `BLOBLISTT_AREA_FIRMWARE`.
+
+BLOBLISTT_PRIVATE_AREA
+ Used for private flags. Do not send patches with these. They are for local
+ or temporary use. Standard firmware binaries which see these tags in the
+ bloblist typically refuse to boot.
+
+To add a new tag for your project, send a patch to the U-Boot project with:
+
+ - your new tag, using the next available number in the area your choose
+ - a header file in include/stdpass/ containing your struct definition if your
+ struct is not actually used in U-Boot
+ - a line of code in `board/sandbox/stdpass_check.c` to use the struct (see
+ that file for instructions)
+
+The struct definition does not need to match the code style or types names used
+in the other project. For example, your project might use a type like
+__UNSIGNED_INT32 which in U-Boot would be written as u32. Types should be sized
+so that the struct is the same on 32- and 64-bit machines. Avoid using __packed
+if possible. Instead try to order members so that it is not necessary.
+
+Conflicts are resolved before applying patches to mainline, so your actual tag
+value may change when the patch is applied. Once your patch is accepted your
tag
+is allocated for all time.
+
+Devicetree
+----------
+
+Devicetree has a special place in the standard passage. One of the bloblist
tags
+is BLOBLISTT_CONTROL_DTB which indicates that that blob contains a devicetree
+intended to control U-Boot (or other binaries). This devicetree provides
+hardware information and configuration in a generic way using standard
bindings,
+so that it is available for any project to use. The bindings are compatible
with
+operating systems (including Linux) so there is no need to remove them before
+calling the OS.
+
+In cases where a binary wants to access the devicetree but does not want to
+implement the bloblist feature, the offset of the devicetree within the
+bloblist is provided. This avoids the need to implement bloblists just to
+access the devicetree. This is a convenience feature intended for use in
+degenerate cases.
+
+However U-Boot itself does not permit accepting a devicetree through standard
+passage unless it is part of a valid bloblist. It is easy to turn on the
+bloblist feature in U-Boot, so such a variation would only serve to confuse
+things and encourage degeneration in other projects.
+
+
+Standard passage API
+--------------------
+
+The protocol for passing a bloblist through the standard passage from one
+binary to another is architecture-specific, meaning it works differently on
+32-/64-bit ARM and x86, for example, if only because of the different register
+naming.
+
+The bloblist is mandatory. If there is no information to pass, the bloblist
must
+still be provided. Following firmware stages may add blobs to the bloblist,
+making use of the existing space.
+
+The minimum bloblist size is 256 bytes, but 4KB is recommended.
+
+Two registers are used to pass the bloblist and devicetree pointers. Others may
+be used depending on the architecture. The protocol chosen for each
architecture
+should be compatible with the Linux protocol, with a way of determining whether
+standard passage is used. This is done not because Linux might start using
+standard passage, but to avoid reinventing the wheel.
+
+For 32-bit ARM:
+
+ ========= ==============================================
+ Register Contents
+ ========= ==============================================
+ r0 0
+ r1 0xb0075701 (indicates standard passage v1)
+ r2 Address of devicetree
+ r3 Address of bloblist
+ r4 0
+ lr Return address
+ ========= ==============================================
+
+For 64-bit ARM:
+
+ ========= ===================================================
+ Register Contents
+ ========= ===================================================
+ x0 Address of devicetree
+ x1 0xb00757a300000001 (indicates standard passage v1)
+ x2 0
+ x3 Address of bloblist
+ x4 0
+ x30 Return address
+ ========= ===================================================
+
+The devicetree is provided as an address but it normally included within the
+bloblist, meaning that searching for the BLOBLISTT_CONTROL_DTB blob with the
+bloblist produces the same result as the devicetree address passed here. Having
+everything in a bloblist makes it easier to manage memory, since it is all in
+one contiguous block.
+
+
+Usage guidelines
+----------------
+
+As mentioned above, blobs should contain small, simple blocks of information,
+typically represented by a C structure. Using it for large or complex
structures
+is only permitted if these are defined by a standard byte-accurate form.
+Examples include devicetree, ACPI tables, SMBIOS tables and the like.
+There are also a lot of pre-existing firmware binaries which are quite complex
+but qualify because it is not possible to convert them to devicetree now. Apart
+from those exceptions, keep it simple!
+
+For complex data structures, devicetree can be used. The libfdt library has an
+overhead of around 5-10KB which is small enough that most firmware binaries can
+easily incorporate it. For those that must run in very constrained
environments,
+like U-Boot TPL, a simple blob can be used instead, as explained in the
+preceding paragraph.
+
+Devicetree bindings must be defined so that the format of the data is well
+understood. This is done through the `dt-schema`_ project, although this
process
+is still in its infancy.
+
+
+EFI
+---
+
+When using EFI a different calling convention is used. For example, with 64-bit
+ARM we have:
+
+ ========= ===================================================
+ Register Contents
+ ========= ===================================================
+ x0 handle
+ x1 system table
+ x30 Return address
+ ========= ===================================================
+
+It is not possible to pass the bloblist in a register in this case. Instead, a
+config table can be used. The GUID for a bloblist is
+4effe9da-7728-11ec-8df6-136969a780ff
+
+
+Linux and bloblists
+-------------------
+
+It is possible to effectively pass a bloblist to Linux, or other Operating
+Systems. However it is not expected that Linux would actually implement the
+bloblist data structure. How does this work?
+
+The bloblist sits in memory with some things in it, including a devicetree,
+perhaps an SMBIOS table and a TPM log. But when U-Boot calls Linux it puts the
+address/size of those individual things in the devicetree. They don't move and
+are still contiguous in memory, but the bloblist around them is forgotten.
Linux
+doesn't know that the three separate things it is picking up are actually part
+of a bloblist structure, since it doesn't care about that. Even a console log
+can work the same way. There is no need to teach Linux about bloblist when it
+already has a perfectly good means to accept these items (via devicetree).
+
+ACPI can operate in a similar way. The ACPI tables can point to things that
+happen to be in a bloblist, but without any knowledge of that needed in Linux,
+grub, etc. In fact the ACPI tables themselves may well be in a bloblist, as
they
+are in U-Boot.
+
+
+Private firmware
+----------------
+
+Standard passage is intended to operate with open-source firmware. It may be
+that closed-source firmware may use standard passage, or happen to work with
it.
+If so, that is a happy coincidence, but the focus here is on open-source
+firmware.
+
+
+Updates
+-------
+
+Updates and patches to this documentation are welcome. Please submit them to
+the U-Boot project in the normal way.
+
+
+Design notes
+------------
+
+This section describes some of the reasons behind the design decisions implied
+by this feature.
+
+Why devicetree?
+~~~~~~~~~~~~~~~
+
+Firmware is getting large and complicated, with a concomitant need for more
+complex communication between binaries. We don't want to use C structs to pass
+around complex data, nor invent new binary formats for everything that comes
up.
+The devicetree provides a useful format and is already widely used in firmware.
+It supports bindings and provides validation to check for compliance, by virtue
+of the Linux project and `dt-schema`_. It is easily extensible, being basically
+an efficient, hierarchical, ordered dictionary.
+
+Some examples of how complex and annoying binary formats can become are SMBIOS
+tables and Intel's Video BIOS tables. The world does not need another binary
+format.
+
+
+Why not *just* devicetree?
+~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Some early firmware binaries run in very little memory and only need to pass a
+few values on to later phases. Devicetree is too heavy-weight for these cases.
+For example, it is generally not possible for TPL to access a devicetree, which
+is one of the motivations for the of-platdata feature.
+
+
+Why not protobuf, YAML, JSON?
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+They are not as efficient and either use a lot more code or require parsing
+before use. Devicetree happens to be a nice compromise.
+
+
+Why not something else?
+~~~~~~~~~~~~~~~~~~~~~~~
+
+Possibly. Please propose it.
+
+
+Why not UUIDs?
+~~~~~~~~~~~~~~
+
+Why use a simple integer tag instead of an 'industry-standard' UUID? Many
+reasons:
+
+- Code should be as readable as possible. GUIDs require something like::
+
+ EFI_GUID(0x6dadf1d1, 0xd4cc, 0x4910, \
+ 0xbb, 0x6e, 0x82, 0xb1, 0xfd, 0x80, 0xff, 0x3d)
+
+ which is much harder to read than::
+
+ enum {
+ BLOBLISTT_SPL_HANDOFF = 123,
+ };
+
+- UUIDs are more like a hash than a sequence number. Git uses them, although a
+ short form of the hash is commonly shown. Why use a hash to identify
+ something when we only have a small number of items?
+
+- We don't need to worry about collisions in open source software. We can have
+ a shared repo and allocate sequence numbers from there. UUIDs come from the
+ idea that everyone is working independently so people need to be able to
+ allocate their own numbers and be sure that they will not conflict. This is
+ needed in the PC BIOS industry where there is little shared source /
+ cooperation. It is not helpful with open source.
+
+- UUIDs come across as just obfuscation. Does anyone know what these values
+ mean? How would we look them up? Who owns which one? Is there a central
+ registry?::
+
+ EFI_GUID(0x721acf02, 0x4d77, 0x4c2a, 0xb3, 0xdc, 0x27, 0x0b, 0x7b, 0xa9,
0xe4, 0xb0)
+ EFI_GUID(0xa034147d, 0x690c, 0x4154, 0x8d, 0xe6, 0xc0, 0x44, 0x64, 0x1d,
0xe9, 0x42)
+ EFI_GUID(0xbbcff46c, 0xc8d3, 0x4113, 0x89, 0x85, 0xb9, 0xd4, 0xf3, 0xb3,
0xf6, 0x4e)
+ EFI_GUID(0x69a79759, 0x1373, 0x4367, 0xa6, 0xc4, 0xc7, 0xf5, 0x9e, 0xfd,
0x98, 0x6e)
+ EFI_GUID(0xd038747c, 0xd00c, 0x4980, 0xb3, 0x19, 0x49, 0x01, 0x99, 0xa4,
0x7d, 0x55)
+ EFI_GUID(0x9c7c3aa7, 0x5332, 0x4917, 0x82, 0xb9, 0x56, 0xa5, 0xf3, 0xe6,
0x2a, 0x07)
+
+- It is overkill to use 16 bytes for a unique identifier in a shared project.
+ It is about 10^38. Modern SoCs cannot keep that in a register and there is no
+ C int type to represent it on most common hardware today! Having to check
that
+ adds time and code to no benefit. In early boot, space and time are
+ particularly precious.
+
+
+Why contiguous?
+~~~~~~~~~~~~~~~
+
+It is easier to allocate a single block of data than to allocate lots of little
+blocks. It is easy to relocate if needed (a simple copy of a block of memory).
+It can be expanded by relocating it. If we absolutely need to create a linked
+list then pointers to external data can be added to a blob.
+
+
+Why bloblist?
+~~~~~~~~~~~~~
+
+Bloblist is a simple format with an integer tag. It avoids UUIDs and meets the
+requirements above. Some tweaks may be desirable to the format, but that can be
+worked out in code review.
+
+
+Why pass the devicetree offset?
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+In cases where a binary wants to access the devicetree but does not want to
+implement the bloblist feature, the offset of the devicetree within the
+bloblist is provided. This avoids the need to implement bloblists just to
+access the devicetree. This is a convenience feature intended for use in
+degenerate cases.
+
+
+Why use registers to pass values between binaries?
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+It seems like the obvious solution. We could use a shared memory region with
+shared configuration between projects, but that is error prone and difficult to
+keep in sync.
+
+
+Why not add magic values to indicate that standard passage is used?
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+We could put a magic value in a register to tell the next phase that the
+standard-passage information is available (in other registers). But making it
+a build-time option saves at least one register and makes things a little more
+deterministic at built time. If we know we can rely on it, it is easier to
+use.
+
+
+.. _`dt-schema`: https://github.com/devicetree-org/dt-schema
--
2.34.1.703.g22d0c6ccf7-goog
