From mboxrd@z Thu Jan 1 00:00:00 1970 From: Marek Vasut Date: Tue, 19 Feb 2019 14:42:54 +0100 Subject: [U-Boot] [PATCH] ARM: socfpga: Clear PL310 early in SPL In-Reply-To: References: <20190219125240.2833-1-marex@denx.de> Message-ID: <0ed007f6-c31b-1e58-d1f5-e2ef798e2ecb@denx.de> List-Id: MIME-Version: 1.0 Content-Type: text/plain; charset="us-ascii" Content-Transfer-Encoding: 7bit To: u-boot@lists.denx.de On 2/19/19 2:28 PM, Simon Goldschmidt wrote: > On Tue, Feb 19, 2019 at 1:53 PM Marek Vasut wrote: >> >> On SoCFPGA Gen5 systems, it can rarely happen that a reboot from Linux >> will result in stale data in PL310 L2 cache controller. Even if the L2 >> cache controller is disabled via the CTRL register CTRL_EN bit, those >> data can interfere with operation of devices using DMA, like e.g. the >> DWMMC controller. This can in turn cause e.g. SPL to fail reading data >> from SD/MMC. >> >> The obvious solution here would be to fully reset the L2 cache controller >> via the reset manager MPUMODRST L2 bit, however this causes bus hang even >> if executed entirely from L1 I-cache to avoid generating any bus traffic >> through the L2 cache controller. >> >> This patch thus configures and enables the L2 cache controller very early >> in the SPL boot process, clears the L2 cache and disables the L2 cache >> controller again. >> >> The reason for doing it in SPL is because we need to avoid accessing any >> of the potentially stale data in the L2 cache, and we are certain any of >> the stale data will be below the OCRAM address range. To further reduce >> bus traffic during the L2 cache invalidation, we enable L1 I-cache and >> run the invalidation code entirely out of the L1 I-cache. >> >> Signed-off-by: Marek Vasut >> Cc: Dalon Westergreen >> Cc: Dinh Nguyen > > We've tested this and it seems to fix the issue, so: > > Tested-by: Simon Goldschmidt > > However, I don't really get why clearing the L2 cache later in U-Boot > isn't good enough. Because when U-Boot is running, it is already running from RAM, which is on different PL310 master than OCRAM, and you're likely to hit the corrupted cache lines on the DRAM master which is primed by prior Linux operation. Such cacheline can be hit between the code enabling the PL310 and the code invalidating it, which is a C code, using stack and calling functions, thus accessing memory which would likely reside in different PL310 cachelines. If one of those cachelines contains invalid/corrupted data, they can be provided to the CPU before the cacheline is invalidated. To further reduce the likelihood of hitting any such cache line, the code which enables the PL310 and invalidates it runs from primed L1 icache lines, thus generating no bus traffic at all. > Also, wouldn't this affect other platforms as well? I had the same concern, however I suspect it might have to do with the reset implementation on SoCFPGA, which doesn't clear the L2CC, while reset implementations on other SoCs likely do clear the L2CC. I am however inquiring with Altera/Intel about this. [...] -- Best regards, Marek Vasut