On 1/8/2024 9:19 PM, Andrew Lunn wrote:
Since qca8075 PHY is also multiple port PHY, which is same as qca8084,
but qca8084 also includes the integrated clock controller, this is the
first qcom PHY chip integrating the clock controller internally.
can we also consider designing the clocks and resets DT models in the
PHY package DT.
For qca8084 PURE PHY chip, which is the quad PHY chip and two PCSes,
it integrates the clock controller that generates the clocks to be used
by the link of PHYs, the integrated controller also provides the resets
to the PHY, the clock controller(NSSCC) driver of qca8084 works at the
same way of the GCC of SoC(IPQ), qca8084 needs to be initialized with
the clocks and resets for the qca8084 PHY package, these clocks and
resets are generated by the NSSCC, even for PURE phy chip qca8084, there
is also some PHY package level clocks needs to be initialized.
here is the diagram of qca8084.
__| |_______________| |__
| PCS0 | |PCS1 |
|______| |_____|
|_________________ |
| | |
| NSSCC | |
|________________| |
|_______________________|
| | | | |
|PHY1 |PHY2 |PHY3 |PHY4 |
|_____|_____|_____|_____|
Please add to the diagram the external clocks and external resets.
__| |_______________| |__
| PCS0 | |PCS1 |
|______| |_____|
|_______ |<---- REF clock 50MHZ
| |------------ |
|NSSCC | |clks |rsts|<---- GPIO reset
|______| | | |
| V V |
|_______________________|
| | | | |
|PHY1 |PHY2 |PHY3 |PHY4 |
|_____|_____|_____|_____|
There are difference clock trees generated from NSSCC for the different
PHYs, all clocks and resets for qca8084 CHIP working are internally
provided by the NSSCC.
Additionally, add the resets and clocks between the NSSCC and the
individual PHYs. Typically, the internal clocks and resets are not in
DT, at last not for a single PHY. For a quad PHY in a package, it
might make sense to add them. Before we can decide that, we need a
clear idea what the hardware looks like.
Yes, that is true.
The reason why i add the DTs for the clocks and resets is these clocks
and resets are provided by the internal NSSCC provider driver, in this
chip, both the clock provider and clock consumer are located in the
qca8084 PHY chip.
let me example the initial clocks and resets for the pure PHY chip qca8084
as below, the clocks and resets should be put into the first
MDIO node to be initialized firstly before qca8084 PHY will work.
ethernet-phy-package@0 {
#address-cells = <1>;
#size-cells = <0>;
compatible = "ethernet-phy-package";
reg = <0>;
/* initial PHY package level clocks */
clocks = <&qca8k_nsscc NSS_CC_APB_BRIDGE_CLK>,
<&qca8k_nsscc NSS_CC_AHB_CLK>,
<&qca8k_nsscc NSS_CC_SEC_CTRL_AHB_CLK>,
<&qca8k_nsscc NSS_CC_TLMM_CLK>,
<&qca8k_nsscc NSS_CC_TLMM_AHB_CLK>,
<&qca8k_nsscc NSS_CC_CNOC_AHB_CLK>,
<&qca8k_nsscc NSS_CC_MDIO_AHB_CLK>;
Device tree effectively defined devices on bus, in a tree, and how
they interconnect. Does the NSSCC have its own address on the MDIO
bus? Or does it share an address with one of the PHYs? It could be we
want to describe the NSSCC as a DT node of its own within the
package. It is probably both a clock consumer, and a clock provider.
The individual PHYs are then clock consumers, of the clocks the NSSCC
exports. Same for resets.
Yes, Andrew, the NSSCC provider driver is probed based on the MDIO
device, the PHY CHIP occupies the MDIO addresses, so the NSSCC is
registered as the MDIO device.
The following is the DT of the NSSCC driver, normally we should not
enable the clocks in the clock provider driver. The clocks also can't
be configured during the NSSCC driver probed because of the initial
clocks and resets(mentioned in this DT example ethernet-phy-package@0)
are not configured.
DT of the NSSCC device node:
mdio {
#address-cells = <1>;
#size-cells = <0>;
clock-controller@18 {
compatible = "qcom,qca8084-nsscc";
reg = <0x18>;
clocks = <&qca8k_xo>,
<&qca8k_uniphy0_rx>,
<&qca8k_uniphy0_tx>,
<&qca8k_uniphy1_rx>,
<&qca8k_uniphy1_tx>,
<&qca8k_uniphy1_rx312p5m>,
<&qca8k_uniphy1_tx312p5m>;
#clock-cells = <1>;
#reset-cells = <1>;
#power-domain-cells = <1>;
};
};
clock-names = "apb_bridge",
"ahb",
"sec_ctrl_ahb",
"tlmm",
"tlmm_ahb",
"cnoc_ahb",
"mdio_ahb";
/* initial PHY package level reset */
resets = <&qca8k_nsscc NSS_CC_DSP_ARES>;
reset-names = "gephy_dsp";
/* initial clocks and resets for first phy */
phy0 {
reg = <0>;
clocks = <&qca8k_nsscc NSS_CC_GEPHY0_SYS_CLK>;
clock-names = "gephy0_sys";
resets = <&qca8k_nsscc NSS_CC_GEPHY0_SYS_ARES>,
<&qca8k_nsscc NSS_CC_GEPHY0_ARES>;
reset-names = "gephy0_sys",
"gephy0_soft";
};
/* initial clocks and resets for second phy */
phy1 {
reg = <1>;
clocks = <&qca8k_nsscc NSS_CC_GEPHY1_SYS_CLK>;
clock-names = "gephy1_sys";
resets = <&qca8k_nsscc NSS_CC_GEPHY1_SYS_ARES>,
<&qca8k_nsscc NSS_CC_GEPHY1_ARES>;
reset-names = "gephy1_sys",
"gephy1_soft";
};
/* initial clocks and resets for third phy */
phy2 {
reg = <2>;
clocks = <&qca8k_nsscc NSS_CC_GEPHY2_SYS_CLK>;
clock-names = "gephy2_sys";
resets = <&qca8k_nsscc NSS_CC_GEPHY2_SYS_ARES>,
<&qca8k_nsscc NSS_CC_GEPHY2_ARES>;
reset-names = "gephy2_sys",
"gephy2_soft";
};
/* initial clocks and resets for fourth phy */
phy3 {
reg = <3>;
clocks = <&qca8k_nsscc NSS_CC_GEPHY3_SYS_CLK>;
clock-names = "gephy3_sys";
resets = <&qca8k_nsscc NSS_CC_GEPHY3_SYS_ARES>,
<&qca8k_nsscc NSS_CC_GEPHY3_ARES>;
reset-names = "gephy3_sys",
"gephy3_soft";
};
This is starting to look O.K.
/* initial clocks and resets for pcs0. */
pcs0 {
reg = <4>;
clocks = <&qca8k_nsscc NSS_CC_SRDS0_SYS_CLK>;
clock-names = "srds0_sys";
resets = <&qca8k_nsscc NSS_CC_SRDS0_SYS_ARES>;
reset-names = "srds0_sys";
};
/* initial clocks and resets for pcs1. */
pcs1 {
reg = <5>;
clocks = <&qca8k_nsscc NSS_CC_SRDS1_SYS_CLK>;
clock-names = "srds1_sys";
resets = <&qca8k_nsscc NSS_CC_SRDS1_SYS_ARES>;
reset-names = "srds1_sys";
};
PCS will need further work and thinking about. Typically, they are not
described in DT for a PHY. In general, a PCS in a PHY does not have a
driver of its own, the firmware in the PHY mostly controls it, not
Linux. For the moment, lets leave them as they are, and we will come
back to them once we get the clocks and resets correctly described.
Andrew
Got it.
Since there is no firmware located in the qca8084 PHY, the qca8084 PHY
is only configured by the Linux driver to make it working.
Thanks Andrew for the comments and suggestions.