On 2019-07-22 18:02, Pierre-Louis Bossart wrote:
On 7/20/19 2:45 PM, Cezary Rojewski wrote:
Existing IPC framework omits crucial part of the entire communication: reply header. Some IPCs cannot function at all without the access to said header. Update the sst-ipc with new sst_ipc_message structure to represent both request and reply allowing reply-processing handlers to save received responses.
I don't get the idea at all.
It's not "an idea", this is cAVS design. GET_PIPELINE_STATE, LARGE_CONFIG_GET and such define portion of their essential _payload_ within header instead of actual SRAM window. Some of these contain entire _payload_ within header instead - as already stated.
the DSP provides rx_data and a size. If there is a header at the start of the IPC data in some cases, why can't you cast and extract the header when it's needed for your SKL usages? Why does adding a header make the IPC work better?
This is cAVS solution we speak of, not an aDSP one. Not all IPCs have constant size defined here. Moreover, define "size" - from architectural point of view this is *only* size an application is prepared to handle, it's usually overestimated. The actual size of _get_ is known only after reply is received. If it exceeds frame's window, then it gets more complicated..
"If there is a header at the start of the IPC data in some cases, why can't you cast and extract the header (...)" ?? An IPC Header - primary and extension - is found within Host HW registers e.g.: HICPI & HIPCIE what differs from data - payload - which is located in SRAM windows: downlink and uplink - depending on the direction. Saving header does not "make the IPC work better" - it allows them to function in the first place. Again, this is not the case for all IPCs.
Publishing such IPCs (e.g.: _get_large_config found in skl-sst-ipc.c) makes no sense if you do not process them correctly. I know not why dysfunctional code has been upstreamed or why does it not follow cAVS design pattern. All the series being posted currently aim to correct the very fundations of Skylake which are/ were broken, clearly.
I have the feeling this is blurring layers between receiving data and processing it in platform-specific ways, and I am nervous about touching Baytrail and Broadwell legacy, which are way past maintenance mode and should be deprecated really.
I'm not nervous at all. Baytrail IPC is deprecated in favor of /atom/sst - God knows why yet another _common_ folder has been created there.. Haswell with DSP does not really exist. Broadwell is the only one left and my changes only _update_ the framework - these do not change its behavior.
Truth be told, it did not age well at all. 99% of Skylake+ IPC communication is done in synchronized fashion yet during initialization there are always 8 messages allocated (times two: tx & rx). In total we are allocating 8 x 2 x PAGE_SIZE memory. These days memory might not be a problem, though does not change the fact it could have been done better. Lot of wasted memory.. There's certainly more to do, that's the message.
And last this patchset does not apply on top of Mark's tree?
I can recheck this, been a week since I did a snapshot of 5.3. Thanks for heads up.
Despite the range of changes required for model to be updated, no functional changes are made for core hanswell, baytrail and skylake message handlers. Reply-processing handlers now save received response header yet no usage is added by default.
To allow for future changes, righful kings of IPC kingdom need to be put back on the throne. This update addresses one of them: LARGE_CONFIG_GET.