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1 /* SPDX-License-Identifier: GPL-2.0 */
2 /* Copyright(c) 2013 - 2018 Intel Corporation. */
3 
4 #ifndef _I40E_HMC_H_
5 #define _I40E_HMC_H_
6 
7 #define I40E_HMC_MAX_BP_COUNT 512
8 
9 /* forward-declare the HW struct for the compiler */
10 struct i40e_hw;
11 
12 #define I40E_HMC_INFO_SIGNATURE		0x484D5347 /* HMSG */
13 #define I40E_HMC_PD_CNT_IN_SD		512
14 #define I40E_HMC_DIRECT_BP_SIZE		0x200000 /* 2M */
15 #define I40E_HMC_PAGED_BP_SIZE		4096
16 #define I40E_HMC_PD_BP_BUF_ALIGNMENT	4096
17 
18 struct i40e_hmc_obj_info {
19 	u64 base;	/* base addr in FPM */
20 	u32 max_cnt;	/* max count available for this hmc func */
21 	u32 cnt;	/* count of objects driver actually wants to create */
22 	u64 size;	/* size in bytes of one object */
23 };
24 
25 enum i40e_sd_entry_type {
26 	I40E_SD_TYPE_INVALID = 0,
27 	I40E_SD_TYPE_PAGED   = 1,
28 	I40E_SD_TYPE_DIRECT  = 2
29 };
30 
31 struct i40e_hmc_bp {
32 	enum i40e_sd_entry_type entry_type;
33 	struct i40e_dma_mem addr; /* populate to be used by hw */
34 	u32 sd_pd_index;
35 	u32 ref_cnt;
36 };
37 
38 struct i40e_hmc_pd_entry {
39 	struct i40e_hmc_bp bp;
40 	u32 sd_index;
41 	bool rsrc_pg;
42 	bool valid;
43 };
44 
45 struct i40e_hmc_pd_table {
46 	struct i40e_dma_mem pd_page_addr; /* populate to be used by hw */
47 	struct i40e_hmc_pd_entry  *pd_entry; /* [512] for sw book keeping */
48 	struct i40e_virt_mem pd_entry_virt_mem; /* virt mem for pd_entry */
49 
50 	u32 ref_cnt;
51 	u32 sd_index;
52 };
53 
54 struct i40e_hmc_sd_entry {
55 	enum i40e_sd_entry_type entry_type;
56 	bool valid;
57 
58 	union {
59 		struct i40e_hmc_pd_table pd_table;
60 		struct i40e_hmc_bp bp;
61 	} u;
62 };
63 
64 struct i40e_hmc_sd_table {
65 	struct i40e_virt_mem addr; /* used to track sd_entry allocations */
66 	u32 sd_cnt;
67 	u32 ref_cnt;
68 	struct i40e_hmc_sd_entry *sd_entry; /* (sd_cnt*512) entries max */
69 };
70 
71 struct i40e_hmc_info {
72 	u32 signature;
73 	/* equals to pci func num for PF and dynamically allocated for VFs */
74 	u8 hmc_fn_id;
75 	u16 first_sd_index; /* index of the first available SD */
76 
77 	/* hmc objects */
78 	struct i40e_hmc_obj_info *hmc_obj;
79 	struct i40e_virt_mem hmc_obj_virt_mem;
80 	struct i40e_hmc_sd_table sd_table;
81 };
82 
83 #define I40E_INC_SD_REFCNT(sd_table)	((sd_table)->ref_cnt++)
84 #define I40E_INC_PD_REFCNT(pd_table)	((pd_table)->ref_cnt++)
85 #define I40E_INC_BP_REFCNT(bp)		((bp)->ref_cnt++)
86 
87 #define I40E_DEC_SD_REFCNT(sd_table)	((sd_table)->ref_cnt--)
88 #define I40E_DEC_PD_REFCNT(pd_table)	((pd_table)->ref_cnt--)
89 #define I40E_DEC_BP_REFCNT(bp)		((bp)->ref_cnt--)
90 
91 /**
92  * I40E_SET_PF_SD_ENTRY - marks the sd entry as valid in the hardware
93  * @hw: pointer to our hw struct
94  * @pa: pointer to physical address
95  * @sd_index: segment descriptor index
96  * @type: if sd entry is direct or paged
97  **/
98 #define I40E_SET_PF_SD_ENTRY(hw, pa, sd_index, type)			\
99 {									\
100 	u32 val1, val2, val3;						\
101 	val1 = (u32)(upper_32_bits(pa));				\
102 	val2 = (u32)(pa) | (I40E_HMC_MAX_BP_COUNT <<			\
103 		 I40E_PFHMC_SDDATALOW_PMSDBPCOUNT_SHIFT) |		\
104 		((((type) == I40E_SD_TYPE_PAGED) ? 0 : 1) <<		\
105 		I40E_PFHMC_SDDATALOW_PMSDTYPE_SHIFT) |			\
106 		BIT(I40E_PFHMC_SDDATALOW_PMSDVALID_SHIFT);		\
107 	val3 = (sd_index) | BIT_ULL(I40E_PFHMC_SDCMD_PMSDWR_SHIFT);	\
108 	wr32((hw), I40E_PFHMC_SDDATAHIGH, val1);			\
109 	wr32((hw), I40E_PFHMC_SDDATALOW, val2);				\
110 	wr32((hw), I40E_PFHMC_SDCMD, val3);				\
111 }
112 
113 /**
114  * I40E_CLEAR_PF_SD_ENTRY - marks the sd entry as invalid in the hardware
115  * @hw: pointer to our hw struct
116  * @sd_index: segment descriptor index
117  * @type: if sd entry is direct or paged
118  **/
119 #define I40E_CLEAR_PF_SD_ENTRY(hw, sd_index, type)			\
120 {									\
121 	u32 val2, val3;							\
122 	val2 = (I40E_HMC_MAX_BP_COUNT <<				\
123 		I40E_PFHMC_SDDATALOW_PMSDBPCOUNT_SHIFT) |		\
124 		((((type) == I40E_SD_TYPE_PAGED) ? 0 : 1) <<		\
125 		I40E_PFHMC_SDDATALOW_PMSDTYPE_SHIFT);			\
126 	val3 = (sd_index) | BIT_ULL(I40E_PFHMC_SDCMD_PMSDWR_SHIFT);	\
127 	wr32((hw), I40E_PFHMC_SDDATAHIGH, 0);				\
128 	wr32((hw), I40E_PFHMC_SDDATALOW, val2);				\
129 	wr32((hw), I40E_PFHMC_SDCMD, val3);				\
130 }
131 
132 /**
133  * I40E_INVALIDATE_PF_HMC_PD - Invalidates the pd cache in the hardware
134  * @hw: pointer to our hw struct
135  * @sd_idx: segment descriptor index
136  * @pd_idx: page descriptor index
137  **/
138 #define I40E_INVALIDATE_PF_HMC_PD(hw, sd_idx, pd_idx)			\
139 	wr32((hw), I40E_PFHMC_PDINV,					\
140 	    (((sd_idx) << I40E_PFHMC_PDINV_PMSDIDX_SHIFT) |		\
141 	     ((pd_idx) << I40E_PFHMC_PDINV_PMPDIDX_SHIFT)))
142 
143 /**
144  * I40E_FIND_SD_INDEX_LIMIT - finds segment descriptor index limit
145  * @hmc_info: pointer to the HMC configuration information structure
146  * @type: type of HMC resources we're searching
147  * @index: starting index for the object
148  * @cnt: number of objects we're trying to create
149  * @sd_idx: pointer to return index of the segment descriptor in question
150  * @sd_limit: pointer to return the maximum number of segment descriptors
151  *
152  * This function calculates the segment descriptor index and index limit
153  * for the resource defined by i40e_hmc_rsrc_type.
154  **/
155 #define I40E_FIND_SD_INDEX_LIMIT(hmc_info, type, index, cnt, sd_idx, sd_limit)\
156 {									\
157 	u64 fpm_addr, fpm_limit;					\
158 	fpm_addr = (hmc_info)->hmc_obj[(type)].base +			\
159 		   (hmc_info)->hmc_obj[(type)].size * (index);		\
160 	fpm_limit = fpm_addr + (hmc_info)->hmc_obj[(type)].size * (cnt);\
161 	*(sd_idx) = (u32)(fpm_addr / I40E_HMC_DIRECT_BP_SIZE);		\
162 	*(sd_limit) = (u32)((fpm_limit - 1) / I40E_HMC_DIRECT_BP_SIZE);	\
163 	/* add one more to the limit to correct our range */		\
164 	*(sd_limit) += 1;						\
165 }
166 
167 /**
168  * I40E_FIND_PD_INDEX_LIMIT - finds page descriptor index limit
169  * @hmc_info: pointer to the HMC configuration information struct
170  * @type: HMC resource type we're examining
171  * @idx: starting index for the object
172  * @cnt: number of objects we're trying to create
173  * @pd_index: pointer to return page descriptor index
174  * @pd_limit: pointer to return page descriptor index limit
175  *
176  * Calculates the page descriptor index and index limit for the resource
177  * defined by i40e_hmc_rsrc_type.
178  **/
179 #define I40E_FIND_PD_INDEX_LIMIT(hmc_info, type, idx, cnt, pd_index, pd_limit)\
180 {									\
181 	u64 fpm_adr, fpm_limit;						\
182 	fpm_adr = (hmc_info)->hmc_obj[(type)].base +			\
183 		  (hmc_info)->hmc_obj[(type)].size * (idx);		\
184 	fpm_limit = fpm_adr + (hmc_info)->hmc_obj[(type)].size * (cnt);	\
185 	*(pd_index) = (u32)(fpm_adr / I40E_HMC_PAGED_BP_SIZE);		\
186 	*(pd_limit) = (u32)((fpm_limit - 1) / I40E_HMC_PAGED_BP_SIZE);	\
187 	/* add one more to the limit to correct our range */		\
188 	*(pd_limit) += 1;						\
189 }
190 i40e_status i40e_add_sd_table_entry(struct i40e_hw *hw,
191 					      struct i40e_hmc_info *hmc_info,
192 					      u32 sd_index,
193 					      enum i40e_sd_entry_type type,
194 					      u64 direct_mode_sz);
195 
196 i40e_status i40e_add_pd_table_entry(struct i40e_hw *hw,
197 					      struct i40e_hmc_info *hmc_info,
198 					      u32 pd_index,
199 					      struct i40e_dma_mem *rsrc_pg);
200 i40e_status i40e_remove_pd_bp(struct i40e_hw *hw,
201 					struct i40e_hmc_info *hmc_info,
202 					u32 idx);
203 i40e_status i40e_prep_remove_sd_bp(struct i40e_hmc_info *hmc_info,
204 					     u32 idx);
205 i40e_status i40e_remove_sd_bp_new(struct i40e_hw *hw,
206 					    struct i40e_hmc_info *hmc_info,
207 					    u32 idx, bool is_pf);
208 i40e_status i40e_prep_remove_pd_page(struct i40e_hmc_info *hmc_info,
209 					       u32 idx);
210 i40e_status i40e_remove_pd_page_new(struct i40e_hw *hw,
211 					      struct i40e_hmc_info *hmc_info,
212 					      u32 idx, bool is_pf);
213 
214 #endif /* _I40E_HMC_H_ */
215