-----Original Message----- From: Kim Phillips [mailto:kim.phillips@freescale.com] Sent: Monday, March 23, 2015 5:06 PM To: Rivera Jose-B46482 Cc: Sun York-R58495; u-boot@lists.denx.de Subject: Re: [U-Boot] [PATCH 14/28] drivers/fsl-mc: Changed MC firmware loading for new boot architecture
On Mon, 23 Mar 2015 16:15:56 -0500 Rivera Jose-B46482 German.Rivera@freescale.com wrote:
-----Original Message----- From: Kim Phillips [mailto:kim.phillips@freescale.com] Sent: Monday, March 23, 2015 3:34 PM To: Rivera Jose-B46482 Cc: Sun York-R58495; u-boot@lists.denx.de Subject: Re: [U-Boot] [PATCH 14/28] drivers/fsl-mc: Changed MC firmware loading for new boot architecture
On Mon, 23 Mar 2015 15:06:11 -0500 Rivera Jose-B46482 German.Rivera@freescale.com wrote:
From: Kim Phillips [mailto:kim.phillips@freescale.com] Sent: Thursday, March 19, 2015 12:53 PM
On Thu, 19 Mar 2015 09:45:45 -0700 York Sun yorksun@freescale.com wrote:
From: "J. German Rivera" German.Rivera@freescale.com
Changed MC firmware loading to comply with the new MC boot
architecture.
Flush D-cache hierarchy after loading MC images. Add environment variables "mcboottimeout" for MC boot timeout in milliseconds, "mcmemsize" for MC DRAM block size. Check MC boot status before calling flib functions.
Can we just assign actual and/or optimal values for
'mcboottimeout'
and 'mcmemsize' instead of making them environment variables?
Having environment variables gives us the flexibility if these values need to be changed for a given customer configuration. The actual
what defines a 'customer configuration,' and how does that manifest itself at u-boot boot time?
A DPL (data path layout - a device-tree-like structure describing The DPAA2 objects created at boot time and their connections)
Is it the amount of time it takes to load (and execute?) firmare?
Yes, bigger DPLs take longer to process by the MC.
Why isn't customer-specific firmware being loaded via linux? All u-boot needs is basic networking, pretty static setup: fixed numbers for both memsize & timeout.
This is not customer-specific firmware. What is customer-specific is
just the DPL.
In order to have networking in u-boot, we need to load the MC firmware in u-boot, For cases in which the target system has only DPAA2-based
network interfaces.
ok, for that case, when time comes for u-boot to do some DPAA2 networking arrives (i.e., we shouldn't have to be loading firmware at board boot- time), then we should load a minimal DPL for the number of singular, non- virtual/switch, etc., interfaces for that board just to tftp: this shouldn't be a big DPL at all, and its time complexity is fixed.
It is up to the customer to decide what kind of DPL they want to have.
boot time of the MC and the amount of memory needed by the MC is dependent on how big/complex is the DPL used. Also, the memory needed by the MC needs to account for how much memory is needed for AIOP programs, which may depend on how big/complex they are.
ok, that helps (modulo not knowing what 'DPL' is), but still, the massive customer configurations should be being loaded via linux' firmware loading infrastructure: u-boot should be using a static image for u-boot's needs.
+static int wait_for_mc(bool booting_mc, u32 *final_reg_gsr) {
- u32 reg_gsr;
- u32 mc_fw_boot_status;
- unsigned long timeout_ms = get_mc_boot_timeout_ms();
- struct mc_ccsr_registers __iomem *mc_ccsr_regs =
+MC_CCSR_BASE_ADDR;
- dmb();
- debug("Polling mc_ccsr_regs->reg_gsr ...\n");
- assert(timeout_ms > 0);
- for (;;) {
udelay(1000); /* throttle polling */does this really need to be a whole 1ms?
It is unlikely that the MC fw will boot in less than 1 ms.
is wait_for_mc() only called for the boot command, or all commands?
I see: there's a udelay(500) in mc_send_command(), which is too high, too, IMO, but I'm not that familiar with the h/w: How long does the shortest command take?
So, checking more frequently than 1 ms is not necessary.
yes it is, because e.g., if it takes 1.1ms we will have wasted 0.9ms on this.
How significant is to save 0.9ms of the whole boot time?
Why waste 0.9ms of boot time when there's no need? It already takes the boards *way* too long to boot, and now I'm understanding mc_send_command's delay should probably be adjusted, too.
I have not heard any complain about RDB/QDS boards taking too long to boot Due to this "wasteds 0.9ms".
Can you support your statement about LS2 RDB/QDS boards taking too long to boot with actual numbers? Otherwise, I will not make any change.
As the comment in the code says, the intent was to throttle down the polling, to reduce traffic on the system bus due to polling. This traffic competes with the MC itself accessing the system bus, as it boots. Having the polling traffic get in the way of the MC traffic may increase the MC boot time. Too small delay between polls may cause the MC boot time to increase more than the .9ms you are concerned of
wasting in the delay.
What value would you suggest to use for the delay instead 1000ms?
I don't know MC h/w: what's the shortest boot time given a standard simple "DPL"?: A small fraction of that.
I will not make any change at this time as there is no evidence that this optimization is actually needed.
Kim