When the chip select line is controlled by the QUP, changing CS is a
time consuming operation. We have to send a command over to the geni
and wait for it to Ack us every time we want to change (both making it
high and low). To send this command we have to make a choice in
software when we want to control the chip select, we have to either:
A) Wait for the Ack via interrupt which slows down all SPI transfers
(and incurrs extra processing associated with interrupts).
B) Sit in a loop and poll, waiting for the Ack.
Neither A) nor B) is a great option.
We can avoid all of this by realizing that, at least on some boards,
there is no advantage of considering this line to be a geni line.
While it's true that geni _can_ control the line, it's also true that
the line can be a GPIO and there is no downside of viewing it that
way. Setting a GPIO is a simple MMIO operation.
This patch provides definitions so a board can easily select the GPIO
mode.
NOTE: apparently, it's possible to run the geni in "GSI" mode. In GSI
the SPI port is allowed to be controlled by more than one user (like
firmware and Linux) and also the port can operate sequences of
operations in one go. In GSI mode it _would_ be invalid to look at
the chip select as a GPIO because that would prevent other users from
using it. In theory GSI mode would also avoid some overhead by
allowing us to sequence the chip select better. However, I'll argue
GSI is not relevant for all boards (and certainly not any boards
supported by mainline today). Why?
- Apparently to run a SPI chip in GSI mode you need to initialize it
(in the bootloader) with a different firmware and then it will
always run in GSI mode. Since there is no support for GSI mode in
the current Linux driver, it must be that existing boards don't have
firmware that's doing that. Note that the kernel device tree
describes hardware but also firmware, so it is legitimate to make
the assumption that we don't have GSI firmware in a given dts file.
- Some boards with sc7180 have SPI connected to the Chrome OS EC or
security chip (Cr50). The protocols for talking to cros_ec and cr50
are extremely complex. Both drivers in Linux fully lock the bus
across several distinct SPI transfers. While I am not an expert on
GSI mode it feels highly unlikely to me that we'd ever be able to
enable GSI mode for these devices.
From a testing perspective, running "flashrom -p ec -r /tmp/foo.bin"
in a loop after this patch shows almost no reduction in time, but the
number of interrupts per command goes from 32357 down to 30611 (about
a 5% reduction).
Signed-off-by: Douglas Anderson <dianders@chromium.org>
Reviewed-by: Stephen Boyd <swboyd@chromium.org>
Reviewed-by: Akash Asthana <akashast@codeaurora.org>
Link: https://lore.kernel.org/r/20200921142655.v3.1.I997a428f58ef9d48b37a27a028360f34e66c00ec@changeid
Signed-off-by: Bjorn Andersson <bjorn.andersson@linaro.org>
};
};
+ qup_spi0_cs_gpio: qup-spi0-cs-gpio {
+ pinmux {
+ pins = "gpio34", "gpio35",
+ "gpio36";
+ function = "qup00";
+ };
+
+ pinmux-cs {
+ pins = "gpio37";
+ function = "gpio";
+ };
+ };
+
qup_spi1_default: qup-spi1-default {
pinmux {
pins = "gpio0", "gpio1",
};
};
+ qup_spi1_cs_gpio: qup-spi1-cs-gpio {
+ pinmux {
+ pins = "gpio0", "gpio1",
+ "gpio2";
+ function = "qup01";
+ };
+
+ pinmux-cs {
+ pins = "gpio3";
+ function = "gpio";
+ };
+ };
+
qup_spi3_default: qup-spi3-default {
pinmux {
pins = "gpio38", "gpio39",
};
};
+ qup_spi3_cs_gpio: qup-spi3-cs-gpio {
+ pinmux {
+ pins = "gpio38", "gpio39",
+ "gpio40";
+ function = "qup03";
+ };
+
+ pinmux-cs {
+ pins = "gpio41";
+ function = "gpio";
+ };
+ };
+
qup_spi5_default: qup-spi5-default {
pinmux {
pins = "gpio25", "gpio26",
};
};
+ qup_spi5_cs_gpio: qup-spi5-cs-gpio {
+ pinmux {
+ pins = "gpio25", "gpio26",
+ "gpio27";
+ function = "qup05";
+ };
+
+ pinmux-cs {
+ pins = "gpio28";
+ function = "gpio";
+ };
+ };
+
qup_spi6_default: qup-spi6-default {
pinmux {
pins = "gpio59", "gpio60",
};
};
+ qup_spi6_cs_gpio: qup-spi6-cs-gpio {
+ pinmux {
+ pins = "gpio59", "gpio60",
+ "gpio61";
+ function = "qup10";
+ };
+
+ pinmux-cs {
+ pins = "gpio62";
+ function = "gpio";
+ };
+ };
+
qup_spi8_default: qup-spi8-default {
pinmux {
pins = "gpio42", "gpio43",
};
};
+ qup_spi8_cs_gpio: qup-spi8-cs-gpio {
+ pinmux {
+ pins = "gpio42", "gpio43",
+ "gpio44";
+ function = "qup12";
+ };
+
+ pinmux-cs {
+ pins = "gpio45";
+ function = "gpio";
+ };
+ };
+
qup_spi10_default: qup-spi10-default {
pinmux {
pins = "gpio86", "gpio87",
};
};
+ qup_spi10_cs_gpio: qup-spi10-cs-gpio {
+ pinmux {
+ pins = "gpio86", "gpio87",
+ "gpio88";
+ function = "qup14";
+ };
+
+ pinmux-cs {
+ pins = "gpio89";
+ function = "gpio";
+ };
+ };
+
qup_spi11_default: qup-spi11-default {
pinmux {
pins = "gpio53", "gpio54",
};
};
+ qup_spi11_cs_gpio: qup-spi11-cs-gpio {
+ pinmux {
+ pins = "gpio53", "gpio54",
+ "gpio55";
+ function = "qup15";
+ };
+
+ pinmux-cs {
+ pins = "gpio56";
+ function = "gpio";
+ };
+ };
+
qup_uart0_default: qup-uart0-default {
pinmux {
pins = "gpio34", "gpio35",