Delete the struct nvgpu_engine_info as it's essentially identical to
struct nvgpu_device. Duplicating data structures is not ideal as it's
terribly confusing what does what.
Update all uses of nvgpu_engine_info to use struct nvgpu_device. This
is often a fairly straight forward replacement. Couple of places though
where things got interesting:
- The enum_type that engine_info uses is defined in engines.h and
has a bit of SW abstraction - in particular the GRCE type. The only
place this seemed to be actually relevant (the IOCTL providing device
info to userspace) the GRCE engines can be worked out by comparing
runlist ID.
- Addition of masks based on intr_id and reset_id; those can be
computed easily enough using BIT32() but this is an area that
could be improved on.
This reaches into a lot of extraneous code that traverses the fifo
active engines list and dramtically simplifies this. Now, instead of
having to go through a table of engine IDs that point to the list of
all host engines, the active engine list is just a list of pointers to
valid engines. It's now trivial to do a for-all-active-engines type
loop. This could even be turned into a generic macro or otherwise
abstracted in the future.
JIRA NVGPU-5421
Change-Id: I3a810deb55a7dd8c09836fd2dae85d3e28eb23cf
Signed-off-by: Alex Waterman <alexw@nvidia.com>
Reviewed-on: https://git-master.nvidia.com/r/c/linux-nvgpu/+/2319895
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Remove an ancient piece of code that morphed from a hard coded fault ID
lookup in the original gk20a driver. In the old days there was no top
parsing code, so converting between engine ID and fault ID was done
by a simle function.
This code derived from that function for some reason. However, given
that the HW top table is not actually broken, this code never executes.
The only way this code would execute is if the HW top table reported
that the fault ID for a GRCE engine is 0. But this never happens.
JIRA NVGPU-5420
Change-Id: If8483faa9878f752c29ef6eadc1a56ce1de81942
Signed-off-by: Alex Waterman <alexw@nvidia.com>
Reviewed-on: https://git-master.nvidia.com/r/c/linux-nvgpu/+/2362865
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The FIFO pbdma map is an array of bit maps that link PBDMAs to runlists.
This array allows other software to query what PBDMA(s) serves a given
runlist. The PBDMA map is read verbatim from an array of host registers.
These registers are stored in a kmalloc()'ed array.
This causes a problem for the device management code. The device
management initialization executes well before the rest of the FIFO
PBDMA initialization occurs. Thus, if the device management code
queries the PBDMA mapping for a given device/runlist, the mapping has
yet to be populated.
In the next patches in this series the engine management code is subsumed
into the device management code. In other words the device struct is
reused by the engine management and all host SW does is pull pointers to
the host managed devices from the device manager. This means that all
engine initialization that used to be done on top of the device
management needs to move to the device code.
So, long story short, the PBDMA map needs to be read from the registers
directly, instead of an array that gets allocated long after the device
code has run.
This patch removes the pbdma map array, deletes two HALs that managed
that, and instead provides a new HAL to query this map directly from
the registers so that the device code can use it.
JIRA NVGPU-5421
Change-Id: I5966d440903faee640e3b41494d2caf4cd177b6d
Signed-off-by: Alex Waterman <alexw@nvidia.com>
Reviewed-on: https://git-master.nvidia.com/r/c/linux-nvgpu/+/2361134
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GVS: Gerrit_Virtual_Submit
This adds a new device management unit in the common code responsible
for facilitating the parsing of the GPU top device list and providing
that info to other units in nvgpu.
The basic idea is to read this list once from HW and store it in a
set of lists corresponding to each device type (graphics, LCE, etc).
Many of the HALs in top can be deleted and instead implemented using
common code parsing the SW representation.
Every time the driver queries the device list it does so using a
device type and instance ID. This is common code. The HAL is responsible
for populating the device list in such a way that the driver can
query it in a chip agnostic manner.
Also delete some of the unit tests for functions that no longer
exist. This code will require new unit tests in time; those should be
quite simple to write once unit testing is needed.
JIRA NVGPU-5421
Change-Id: Ie41cd255404b90ae0376098a2d6e9f9abdd3f5ea
Signed-off-by: Alex Waterman <alexw@nvidia.com>
Reviewed-on: https://git-master.nvidia.com/r/c/linux-nvgpu/+/2319649
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Create common/fifo/pbdma.c and move pbdma common code:
- nvgpu_pbdma_setup_sw
- nvgpu_pbdma_cleanup_sw
- nvgpu_pbdma_find_for_runlist
- nvgpu_pbdma_init_intr_descs
Moved the following HAL from fifo to pbdma
- fifo.find_pbdma_for_runlist -> pbdma.find_for_runlist
Added the following HALs
- fifo.init_pbdma_map
- pbdma.setup_sw
- pbdma.cleanup_sw
Jira NVGPU-2950
Change-Id: I17802ee61de669c3e17792b4505efb5e2bf530d3
Signed-off-by: Thomas Fleury <tfleury@nvidia.com>
Reviewed-on: https://git-master.nvidia.com/r/2092999
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Move init_ce_engine_info from fifo to hal/engine unit as
implementation is chip specific.
Rename init_ce_engine_info to init_ce_info
Rename gp10b_fifo_init_ce_engine_info to gp10b_engine_init_ce_info
Rename gm20b_fifo_init_ce_engine_info to gm20b_engine_init_ce_info
JIRA NVGPU-1313
Change-Id: Idb9ba3f2550eff6bbe7163d12e48086f47d3f319
Signed-off-by: Seema Khowala <seemaj@nvidia.com>
Reviewed-on: https://git-master.nvidia.com/r/2085427
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is_fault_engine_subid_gpc HAL pointer belongs to engine HAL unit instead of
fifo. This patch moves the HAL pointer to a newly constructed engine
HAL unit.
The following new files are added under HAL/fifo/
engines_gm20b.h
engines_gm20b.c
engines_gv11b.h
engines_gv11b.c
Jira NVGPU-1315
Change-Id: If28686bf7350563b06b13348a9fe3ef0099c35b2
Signed-off-by: Debarshi Dutta <ddutta@nvidia.com>
Reviewed-on: https://git-master.nvidia.com/r/2031659
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