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In order to finish moving this symbol to Kconfig for all platforms, we need to do a few more things. First, for all platforms that define this to a function, introduce CONFIG_DYNAMIC_SYS_CLK_FREQ, similar to CONFIG_DYNAMIC_DDR_CLK_FREQ and populate clock_legacy.h. This entails also switching all users from CONFIG_SYS_CLK_FREQ to get_board_sys_clk() and updating a few preprocessor tests. With that done, all platforms that define a value here can be converted to Kconfig, and a fall-back of zero is sufficiently safe to use (and what is used today in cases where code may or may not have this available). Make sure that code which calls this function includes <clock_legacy.h> to get the prototype. Signed-off-by: Tom Rini <trini@konsulko.com> |
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ddr.c | ||
Kconfig | ||
law.c | ||
MAINTAINERS | ||
Makefile | ||
p1_p2_rdb_pc.c | ||
README | ||
spl.c | ||
spl_minimal.c | ||
tlb.c |
Overview -------- P1_P2_RDB_PC represents a set of boards including P1020MSBG-PC P1020RDB-PC P1020RDB-PD P1021RDB-PC P1024RDB P2020RDB-PC They have similar design of P1020RDB but have DDR3 instead of DDR2. P2020RDB-PC has 64-bit DDR. All others have 32-bit DDR. Key features on these boards include: * DDR3 * NOR flash * NAND flash (on RDB's only) * SPI flash (on RDB's only) * SDHC/MMC card slot * VSC7385 Ethernet switch (on P1020MBG, P1020RDB, & P1021RDB) * PCIE slot and mini-PCIE slots As these boards use soldered DDR chips not regular DIMMs, an on-board EEPROM is used to store SPD data. In case of absent or corrupted SPD, falling back to timing data embedded in the source code will be used. Raw timing data is extracted from DDR chip datasheet. Different speeds of DDR are supported with this approach. ODT option is forced to fit this set of boards, again because they don't have regular DIMMs. CONFIG_SYS_EEPROM_PAGE_WRITE_DELAY_MS is defined as 5ms to meet specification for writing timing. VSC firmware Address is defined by default in config file for eTSEC1. SD width is based off DIP switch. DIP switch is detected on the board by reading i2c bus and setting the appropriate mux values. Some boards have QE module in the silicon (P1021 and P1025). QE and eLBC have pins multiplexing. QE function needs to be disabled to access Nor Flash and CPLD. QE-UEC and QE-UART can be enabled for linux kernel by setting "qe" in hwconfig. In addition, QE-UEC and QE-TDM also have pins multiplexing, to enable QE-TDM for linux kernel, set "qe;tdm" in hwconfig. Syntax is as below 'setenv hwconfig qe' to enable QE UEC/UART and disable Nor-Flash/CPLD. 'setenv hwconfig 'qe;tdm'' to enalbe QE TDM and disable Nor-Flash/CPLD. Device tree support and how to enable it for different configs -------------------------------------------------------------- Device tree support is available for p1020rdb and p2020rdb for below mentioned boot, 1. NOR Boot 2. NAND Boot 3. SD Boot 4. SPIFLASH Boot To enable device tree support for other boot, below configs need to be enabled in relative defconfig file, 1. CONFIG_DEFAULT_DEVICE_TREE="p1020rdb" (Change default device tree name if required) 2. CONFIG_OF_CONTROL 3. CONFIG_MPC85XX_HAVE_RESET_VECTOR if reset vector is located at CONFIG_RESET_VECTOR_ADDRESS - 0xffc If device tree support is enabled in defconfig, 1. use 'u-boot-with-dtb.bin' for NOR boot. 2. use 'u-boot-with-spl.bin' for other boot.