As with most Allwinner SoCs, out of reset the first ARM core starts executing code from the SoC internal mask ROM, mapped at address 0. This code checks for the FEL condition, which is a missing SD card on the Pine64. In this case it waits for requests via the USB-OTG port (the upper USB socket). If the FEL condition is not met, the ROM code will load 32KB from sector 16 of the SD card into a location in SRAM (TODO: where?) and will execute that code.
The Allwinner provided version of that SPL (called boot0) will further initialise the SoC, most interestingly it will setup the DRAM controller. Then it will load more data from the SD card:
-
From sector 38192 (19096 KByte) it will load the U-Boot binary into DRAM (most probably to address 0x4a000000). The size of that blob is located in a header right at this address, also it contains a checksum. The existing boot0 will present the expected and the calculated checksum, so this can be hacked as needed.
-
An ARM Trusted Firmware (ATF) based image called BL3-1 is loaded from sector 39664 (19832 KByte) to address 0x40000000 (beginning of DRAM). This most importantly contains the runtime part of the PSCI firmware and will later run in AArch64 EL3 mode. Beside providing the kernel with SMP support (
CPU_ONandCPU_OFF) it also contains functions for resetting and shutting down the board. -
The SCP firmware for the on-SoC management controller (arisc, an OpenRISC based CPU core) is loaded from sector 39752 (19876 KByte) into SRAM at address 0x40000 (not mentioned in the memory map?). This firmware is meant to run independently from the ARM core and apparently controls the power management IC (PMIC). Most likely it monitors the system (battery, charging) while the ARM cores are in deep sleep states. Also it can be used from the OS (or U-Boot) by sending commands to it to be executed. Apparently this is just wrapping access to the RSB bus on which the PMIC is connected and at the moment does not provide further abstractions.
-
At exactly 20MB (sector 40960) there is a partition table for the named partitions U-Boot (and possibly Android) uses. This follows Allwinners NAND partitioning scheme and is documented in the sunxi-tools code. This partition table occupies exactly 64KByte and contains four checksummed copies of the actual table. Offsets in this table are relative to the beginning of the table, so add 20MB (or 40960 sectors) to get the actual start address of a partition.
The header before the U-Boot binary covers the ATF and SCP blobs as well, so although the bootlog claims to load them separately, most likely those two are loaded together with U-Boot.
Once all the firmware parts are loaded, it transfers control to the BL3-1 image, which will initialise the CPU (again) and will drop control to U-Boot. All this is still happening in 32-bit mode, as the A64 SoC is hardwired to start in AArch32 mode, so both BROM and boot0 are actually 32-bit ARM code. U-Boot (which is fully 32-bit still) will then take over and will continue with executing the commands in the default "bootcmd" environment variable, if not interrupted before the timeout.