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4f58f73d38
This currently excludes the temporary memory used to start up the APs. Add it. Signed-off-by: Simon Glass <sjg@chromium.org> Reviewed-by: Bin Meng <bmeng.cn@gmail.com> Reviewed-by: Wolfgang Wallner <wolfgang.wallner@br-automation.com>
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9.3 KiB
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242 lines
9.3 KiB
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.. SPDX-License-Identifier: GPL-2.0+
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.. sectionauthor:: Simon Glass <sjg@chromium.org>
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Chromebook Coral
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================
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Coral is a Chromebook (or really about 20 different Chromebooks) which use the
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Intel Apollo Lake platform (APL). The 'reef' Chromebooks use the same APL SoC so
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should also work. Some later ones based on Glacier Lake (GLK) need various
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changes in GPIOs, etc. but are very similar.
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It is hoped that this port can enable ports to embedded APL boards which are
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starting to appear.
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Note that booting U-Boot on APL is already supported by coreboot and
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Slim Bootloader. This documentation refers to a 'bare metal' port.
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Boot flow - TPL
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---------------
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Apollo Lake boots via an IFWI (Integrated Firmware Image). TPL is placed in
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this, in the IBBL entry.
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On boot, an on-chip microcontroller called the CSE (Converged Security Engine)
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sets up some SDRAM at ffff8000 and loads the TPL image to that address. The
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SRAM extends up to the top of 32-bit address space, but the last 2KB is the
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start16 region, so the TPL image must be 30KB at most, and CONFIG_TPL_TEXT_BASE
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must be ffff8000. Actually the start16 region is small and it could probably
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move from f800 to fe00, providing another 1.5KB, but TPL is only about 19KB so
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there is no need to change it at present. The size limit is enforced by
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CONFIG_TPL_SIZE_LIMIT to avoid producing images that won't boot.
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TPL (running from start.S) first sets up CAR (Cache-as-RAM) which provides
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larger area of RAM for use while booting. CAR is mapped at CONFIG_SYS_CAR_ADDR
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(fef00000) and is 768KB in size. It then sets up the stack in the botttom 64KB
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of this space (i.e. below fef10000). This means that the stack and early
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malloc() region in TPL can be 64KB at most.
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TPL operates without CONFIG_TPL_PCI enabled so PCI config access must use the
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x86-specific functions pci_x86_write_config(), etc. SPL creates a simple-bus
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device so that PCI devices are bound by driver model. Then arch_cpu_init_tpl()
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is called to early init on various devices. This includes placing PCI devices
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at hard-coded addresses in the memory map. PCI auto-config is not used.
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Most of the 16KB ROM is mapped into the very top of memory, except for the
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Intel descriptor (first 4KB) and the space for SRAM as above.
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TPL does not set up a bloblist since at present it does not have anything to
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pass to SPL.
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Once TPL is done it loads SPL from ROM using either the memory-mapped SPI or by
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using the Intel fast SPI driver. SPL is loaded into CAR, at the address given
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by CONFIG_SPL_TEXT_BASE, which is normally fef10000.
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Note that booting using the SPI driver results in an TPL image that is about
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26KB in size instead of 19KB. Also boot speed is worse by about 340ms. If you
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really want to use the driver, enable CONFIG_APL_SPI_FLASH_BOOT and set
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BOOT_FROM_FAST_SPI_FLASH to true[2].
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Boot flow - SPL
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---------------
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SPL (running from start_from_tpl.S) continues to use the same stack as TPL.
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It calls arch_cpu_init_spl() to set up a few devices, then init_dram() loads
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the FSP-M binary into CAR and runs to, to set up SDRAM. The address of the
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output 'HOB' list (Hand-off-block) is stored into gd->arch.hob_list for parsing.
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There is a 2GB chunk of SDRAM starting at 0 and the rest is at 4GB.
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PCI auto-config is not used in SPL either, but CONFIG_SPL_PCI is defined, so
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proper PCI access is available and normal dm_pci_read_config() calls can be
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used. However PCI auto-config is not used so the same static memory mapping set
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up by TPL is still active.
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SPL on x86 always runs with CONFIG_SPL_SEPARATE_BSS=y and BSS is at 120000
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(see u-boot-spl.lds). This works because SPL doesn't access BSS until after
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board_init_r(), as per the rules, and DRAM is available then.
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SPL sets up a bloblist and passes the SPL hand-off information to U-Boot proper.
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This includes a pointer to the HOB list as well as DRAM information. See
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struct arch_spl_handoff. The bloblist address is set by CONFIG_BLOBLIST_ADDR,
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normally 100000.
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SPL uses SPI flash to update the MRC caches in ROM. This speeds up subsequent
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boots. Be warned that SPL can take 30 seconds without this cache! This is a
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known issue with Intel SoCs with modern DRAM and apparently cannot be improved.
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The MRC caches are used to work around this.
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Once SPL is finished it loads U-Boot into SDRAM at CONFIG_SYS_TEXT_BASE, which
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is normally 1110000. Note that CAR is still active.
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Boot flow - U-Boot pre-relocation
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---------------------------------
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U-Boot (running from start_from_spl.S) starts running in RAM and uses the same
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stack as SPL. It does various init activities before relocation. Notably
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arch_cpu_init_dm() sets up the pin muxing for the chip using a very large table
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in the device tree.
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PCI auto-config is not used before relocation, but CONFIG_PCI of course is
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defined, so proper PCI access is available. The same static memory mapping set
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up by TPL is still active until relocation.
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As per usual, U-Boot allocates memory at the top of available RAM (a bit below
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2GB in this case) and copies things there ready to relocate itself. Notably
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reserve_arch() does not reserve space for the HOB list returned by FSP-M since
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this is already located in RAM.
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U-Boot then shuts down CAR and jumps to its relocated version.
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Boot flow - U-Boot post-relocation
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----------------------------------
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U-Boot starts up normally, running near the top of RAM. After driver model is
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running, arch_fsp_init_r() is called which loads and runs the FSP-S binary.
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This updates the HOB list to include graphics information, used by the fsp_video
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driver.
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PCI autoconfig is done and a few devices are probed to complete init. Most
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others are started only when they are used.
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Note that FSP-S is supposed to run after CAR has been shut down, which happens
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immediately before U-Boot starts up in its relocated position. Therefore we
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cannot run FSP-S before relocation. On the other hand we must run it before
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PCI auto-config is done, since FSP-S may show or hide devices. The first device
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that probes PCI after relocation is the serial port, in initr_serial(), so FSP-S
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must run before that. A corollary is that loading FSP-S must be done without
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using the SPI driver, to avoid probing PCI and causing an autoconfig, so
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memory-mapped reading is always used for FSP-S.
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It would be possible to tear down CAR in SPL instead of U-Boot. The SPL handoff
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information could make sure it does not include any pointers into CAR (in fact
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it doesn't). But tearing down CAR in U-Boot allows the initial state used by TPL
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and SPL to be read by U-Boot, which seems useful. It also matches how older
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platforms start up (those that don't use SPL).
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Performance
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-----------
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Bootstage is used through all phases of U-Boot to keep accurate timimgs for
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boot. Use 'bootstage report' in U-Boot to see the report, e.g.::
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Timer summary in microseconds (16 records):
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Mark Elapsed Stage
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0 0 reset
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155,325 155,325 TPL
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204,014 48,689 end TPL
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204,385 371 SPL
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738,633 534,248 end SPL
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739,161 528 board_init_f
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842,764 103,603 board_init_r
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1,166,233 323,469 main_loop
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1,166,283 50 id=175
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Accumulated time:
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62 fast_spi
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202 dm_r
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7,779 dm_spl
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15,555 dm_f
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208,357 fsp-m
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239,847 fsp-s
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292,143 mmap_spi
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CPU performance is about 3500 DMIPS::
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=> dhry
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1000000 iterations in 161 ms: 6211180/s, 3535 DMIPS
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Partial memory map
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------------------
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::
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ffffffff Top of ROM (and last byte of 32-bit address space)
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ffff8000 TPL loaded here (from IFWI)
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ff000000 Bottom of ROM
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fefc0000 Top of CAR region
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fef96000 Stack for FSP-M
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fef40000 59000 FSP-M
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fef11000 SPL loaded here
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fef10000 CONFIG_BLOBLIST_ADDR
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fef10000 Stack top in TPL, SPL and U-Boot before relocation
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fef00000 1000 CONFIG_BOOTSTAGE_STASH_ADDR
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fef00000 Base of CAR region
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30000 AP_DEFAULT_BASE (used to start up additional CPUs)
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f0000 CONFIG_ROM_TABLE_ADDR
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120000 BSS (defined in u-boot-spl.lds)
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200000 FSP-S (which is run after U-Boot is relocated)
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1110000 CONFIG_SYS_TEXT_BASE
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Supported peripherals
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---------------------
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- UART
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- SPI flash
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- Video
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- MMC (dev 0) and micro-SD (dev 1)
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- Chrome OS EC
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- Keyboard
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- USB
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To do
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-----
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- Finish peripherals
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- left-side USB
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- USB-C
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- Cr50 (security chip: a basic driver is running but not included here)
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- Sound (Intel I2S support exists, but need da7219 driver)
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- Various minor features supported by LPC, etc.
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- Booting Chrome OS, e.g. with verified boot
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- Integrate with Chrome OS vboot
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- Improvements to booting from coreboot (i.e. as a coreboot target)
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- Use FSP-T binary instead of our own CAR implementation
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- Use the official FSP package instead of the coreboot one
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- Enable all CPU cores
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- Suspend / resume
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- ACPI
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Credits
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-------
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This is a spare-time project conducted slowly over a long period of time.
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Much of the code for this port came from Coreboot, an open-source firmware
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project similar to U-Boot's SPL in terms of features.
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Also see [2] for information about the boot flow used by coreboot. It is
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similar, but has an extra postcar stage. U-Boot doesn't need this since it
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supports relocating itself in memory.
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[2] Intel PDF https://www.coreboot.org/images/2/23/Apollolake_SoC.pdf
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