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Re: [Xen-devel] [PATCH v8 03/24] x86: refactor psr: implement main data structures.



On Wed, Mar 01, 2017 at 01:10:02PM +0800, Yi Sun wrote:
> On 17-02-28 11:58:59, Roger Pau Monn� wrote:
> > On Wed, Feb 15, 2017 at 04:49:18PM +0800, Yi Sun wrote:
> > > To construct an extendible framework, we need analyze PSR features
> > > and abstract the common things and feature specific things. Then,
> > > encapsulate them into different data structures.
> > > 
> > > By analyzing PSR features, we can get below map.
> > >                 +------+------+------+
> > >       --------->| Dom0 | Dom1 | ...  |
> > >       |         +------+------+------+
> > >       |            |
> > >       |Dom ID      | cos_id of domain
> > >       |            V
> > >       |        
> > > +-----------------------------------------------------------------------------+
> > > User --------->| PSR                                                      
> > >                    |
> > >      Socket ID |  +--------------+---------------+---------------+        
> > >                    |
> > >                |  | Socket0 Info | Socket 1 Info |    ...        |        
> > >                    |
> > >                |  +--------------+---------------+---------------+        
> > >                    |
> > >                |    |                   cos_id=0               cos_id=1   
> > >        ...         |
> > >                |    |          
> > > +-----------------------+-----------------------+-----------+ |
> > >                |    |->Ref   : |         ref 0         |         ref 1    
> > >      | ...       | |
> > >                |    |          
> > > +-----------------------+-----------------------+-----------+ |
> > >                |    |          
> > > +-----------------------+-----------------------+-----------+ |
> > >                |    |->L3 CAT: |         cos 0         |         cos 1    
> > >      | ...       | |
> > >                |    |          
> > > +-----------------------+-----------------------+-----------+ |
> > >                |    |          
> > > +-----------------------+-----------------------+-----------+ |
> > >                |    |->L2 CAT: |         cos 0         |         cos 1    
> > >      | ...       | |
> > >                |    |          
> > > +-----------------------+-----------------------+-----------+ |
> > >                |    |          
> > > +-----------+-----------+-----------+-----------+-----------+ |
> > >                |    |->CDP   : | cos0 code | cos0 data | cos1 code | cos1 
> > > data | ...       | |
> > >                |               
> > > +-----------+-----------+-----------+-----------+-----------+ |
> > >                
> > > +-----------------------------------------------------------------------------+
> > > 
> > > So, we need define a socket info data structure, 'struct
> > > psr_socket_info' to manage information per socket. It contains a
> > > reference count array according to COS ID and a feature list to
> > > manage all features enabled. Every entry of the reference count
> > > array is used to record how many domains are using the COS registers
> > > according to the COS ID. For example, L3 CAT and L2 CAT are enabled,
> > > Dom1 uses COS_ID=1 registers of both features to save CBM values, like
> > > below.
> > >         +-------+-------+-------+-----+
> > >         | COS 0 | COS 1 | COS 2 | ... |
> > >         +-------+-------+-------+-----+
> > > L3 CAT  | 0x7ff | 0x1ff | ...   | ... |
> > >         +-------+-------+-------+-----+
> > > L2 CAT  | 0xff  | 0xff  | ...   | ... |
> > >         +-------+-------+-------+-----+
> > > 
> > > If Dom2 has same CBM values, it can reuse these registers which COS_ID=1.
> > > That means, both Dom1 and Dom2 use same COS registers(ID=1) to save same
> > > L3/L2 values. So, the value ref[1] is 2 which means 2 domains are using
> > > COS_ID 1.
> > > 
> > > To manage a feature, we need define a feature node data structure,
> > > 'struct feat_node', to manage feature's specific HW info, its callback
> > > functions (all feature's specific behaviors are encapsulated into these
> > > callback functions), and an array of all COS registers values of this
> > > feature.
> > > 
> > > CDP is a special feature which uses two entries of the array
> > > for one COS ID. So, the number of CDP COS registers is the half of L3
> > > CAT. E.g. L3 CAT has 16 COS registers, then CDP has 8 COS registers if
> > > it is enabled. CDP uses the COS registers array as below.
> > > 
> > >                          
> > > +-----------+-----------+-----------+-----------+-----------+
> > > CDP cos_reg_val[] index: |     0     |     1     |     2     |     3     
> > > |    ...    |
> > >                          
> > > +-----------+-----------+-----------+-----------+-----------+
> > >                   value: | cos0 code | cos0 data | cos1 code | cos1 data 
> > > |    ...    |
> > >                          
> > > +-----------+-----------+-----------+-----------+-----------+
> > > 
> > > For more details, please refer SDM and patches to implement 'get value' 
> > > and
> > > 'set value'.
> > 
> > I would recommend that you merge this with a patch that actually makes use 
> > of
> > this structures, or else it's hard to review it's usage IMHO.
> > 
> Sorry for this. To make codes less and simpler in a patch, I split this patch
> out to only show the data structures. I think I can merge it with next patch:
> [PATCH v8 04/24] x86: refactor psr: implement CPU init and free flow.
> 
> How do you think?

Now that I've looked at the other patches this doesn't seem so abstract to me,
I will leave that to the x86 maintainers, and whether they want to join it with
some actual code or not.

> > > +struct psr_socket_info {
> > > +    /*
> > > +     * It maps to values defined in 'enum psr_feat_type' below. Value in 
> > > 'enum
> > > +     * psr_feat_type' means the bit position.
> > > +     * bit 0:   L3 CAT
> > > +     * bit 1:   L3 CDP
> > > +     * bit 2:   L2 CAT
> > > +     */
> > > +    unsigned int feat_mask;
> > > +    unsigned int nr_feat;
> > > +    struct list_head feat_list;
> > 
> > Isn't it a little bit overkill to use a list when there can only be a 
> > maximum
> > of 3 features? (and the feat_mask is currently 32bits, so I guess you don't
> > really foresee having more than 32 features).
> > 
> > I would suggest using:
> > 
> >      struct feat_node *features[PSR_SOCKET_MAX_FEAT];
> > 
> > (PSR_SOCKET_MAX_FEAT comes from the expansion of the enum below). Then you 
> > can
> > simply use the enum value of each feature as the position of it's 
> > corresponding
> > feat_node into the array.
> > 
> I really thought this before. But there may be different features enabled on
> different sockets. For example, socket 0 enables L3 CAT and L2 CAT but socket 
> 1
> only supports L3 CAT. So, the feature array may be different for different
> sockets. I think it is more complex to use array to handle all things than 
> list.

Different sockets with different features enabled should still be fine. Each
socket has a feat_mask, and you can use that to know whether a certain feature
is enabled or not.

What I was proposing is to make feat_node an array of pointers, so if a feature
is not supported that specific pointer would be NULL (ie: if feat_mask &
PSR_SOCKET_L3_CDP == 0, features[PSR_SOCKET_L3_CDP] == NULL). And then you can
avoid all the list traversing code.

> > > +    unsigned int cos_ref[MAX_COS_REG_CNT];
> > > +    spinlock_t ref_lock;
> > > +};
> > > +
> > > +enum psr_feat_type {
> > > +    PSR_SOCKET_L3_CAT = 0,
> > > +    PSR_SOCKET_L3_CDP,
> > > +    PSR_SOCKET_L2_CAT,
> >     PSR_SOCKET_MAX_FEAT,
> > > +};
> > > +
> > > +/* CAT/CDP HW info data structure. */
> > > +struct psr_cat_hw_info {
> > > +    unsigned int cbm_len;
> > > +    unsigned int cos_max;
> > > +};
> > > +
> > > +/* Encapsulate feature specific HW info here. */
> > > +struct feat_hw_info {
> > > +    union {
> > > +        struct psr_cat_hw_info l3_cat_info;
> > > +    };
> > > +};
> > 
> > Why don't you use an union here directly, instead of encapsulating an union
> > inside of a struct?
> > 
> > union feat_hw_info {
> >     struct psr_cat_hw_info l3_cat_info;
> > };
> > 
> > > +
> > > +struct feat_node;
> > > +
> > > +/*
> > > + * This structure defines feature operation callback functions. Every 
> > > feature
> > > + * enabled MUST implement such callback functions and register them to 
> > > ops.
> > > + *
> > > + * Feature specific behaviors will be encapsulated into these callback
> > > + * functions. Then, the main flows will not be changed when introducing 
> > > a new
> > > + * feature.
> > > + */
> > > +struct feat_ops {
> > > +    /* get_cos_max is used to get feature's cos_max. */
> > > +    unsigned int (*get_cos_max)(const struct feat_node *feat);
> > > +};
> > > +
> > > +/*
> > > + * This structure represents one feature.
> > > + * feature     - Which feature it is.
> > > + * feat_ops    - Feature operation callback functions.
> > > + * info        - Feature HW info.
> > > + * cos_reg_val - Array to store the values of COS registers. One entry 
> > > stores
> > > + *               the value of one COS register.
> > > + *               For L3 CAT and L2 CAT, one entry corresponds to one 
> > > COS_ID.
> > > + *               For CDP, two entries correspond to one COS_ID. E.g.
> > > + *               COS_ID=0 corresponds to cos_reg_val[0] (Data) and
> > > + *               cos_reg_val[1] (Code).
> > > + * list        - Feature list.
> > > + */
> > > +struct feat_node {
> > > +    enum psr_feat_type feature;
> > 
> > If you index them in an array with the key being psr_feat_type I don't think
> > you need that field.
> > 
> I need this to check if input type can match this feature, you can refer get
> val or set val flow. Thanks!

If you move to the array of pointers proposed above you no longer need this
since you can just do features[PSR_SOCKET_L3_CAT] and get the pointer to the
feat_node struct, the index into the array is going to be the feature type
already.

> > > +    struct feat_ops ops;
> > 
> > I would place the function hooks in this struct directly, instead of nesting
> > them inside of another struct. The hooks AFAICT are shared between all the
> > different PSR features.
> > 
> Jan suggested this before in v4 patch. We have discussed this and Jan accepts
> current implementation. The reason is below:
> 
> "To facilitate the callback functions assignment for a feature, I defined
> feature specific callback function ops like below.
> 
> struct feat_ops l3_cat_ops = {
>     .init_feature = l3_cat_init_feature,
>     .get_max_cos_max = l3_cat_get_max_cos_max,
>     ......
> };

This should be constified as Jan already pointed out.

I see that what I said before doesn't make sense, since you have both constant
functions pointers (that can be shared across nodes), plus local node storage
in this structure.

Roger.

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