xref: /titanic_50/usr/src/uts/common/io/bnxe/577xx/drivers/common/lm/vf/basic_vf/lm_vf.c (revision d14abf155341d55053c76eeec58b787a456b753b)
1 #ifdef VF_INVOLVED
2 
3 #include "lm5710.h"
4 #include "command.h"
5 #include "igu_def.h"
6 
7 
lm_vf_is_function_after_flr(struct _lm_device_t * pdev)8 u8_t lm_vf_is_function_after_flr(struct _lm_device_t * pdev)
9 {
10     u8_t res = 0;
11     res = (PFDEV(pdev)->vars.connections[VF_TO_PF_CID(pdev,LM_SW_LEADING_RSS_CID(pdev))].con_state != LM_CON_STATE_CLOSE);
12     if (res) {
13         DbgMessage2(pdev, FATAL, "VF[%d(%d)] was FLRed\n", ABS_VFID(pdev), REL_VFID(pdev));
14     }
15     return res;
16 }
17 
18 
lm_vf_get_free_sbs(struct _lm_device_t * pf_dev,u8_t num_rss)19 static u8_t lm_vf_get_free_sbs(struct _lm_device_t * pf_dev, u8_t num_rss)
20 {
21     u8_t free_sb = 0xff;
22     u8_t max_num = pf_dev->params.base_fw_ndsb + MAX_RSS_CHAINS / pf_dev->params.vnics_per_port;
23     free_sb = lm_vf_get_free_resource(pf_dev->pf_resources.free_sbs, pf_dev->params.base_fw_ndsb, max_num, num_rss);
24     if (free_sb != 0xff) {
25         DbgMessage3(pf_dev,FATAL,"lm_vf_get_free_sbs(%d-%d): %d\n",pf_dev->params.base_fw_ndsb, max_num, free_sb);
26     } else {
27         DbgMessage2(pf_dev,FATAL,"lm_vf_get_free_sbs(%d-%d): No more free SBs\n",pf_dev->params.base_fw_ndsb, max_num);
28     }
29     return free_sb;
30 }
31 
lm_vf_get_free_clients(struct _lm_device_t * pf_dev,u8_t num_rss)32 static u8_t lm_vf_get_free_clients(struct _lm_device_t * pf_dev, u8_t num_rss)
33 {
34     u8_t free_cli = 0xff;
35     u8_t max_num = pf_dev->params.base_fw_client_id + MAX_RSS_CHAINS / pf_dev->params.vnics_per_port;
36     free_cli = lm_vf_get_free_resource(pf_dev->pf_resources.free_clients, pf_dev->params.base_fw_client_id, max_num, num_rss);
37     if (free_cli != 0xff) {
38         DbgMessage3(pf_dev,FATAL,"lm_vf_get_free_clients(%d-%d): %d\n",pf_dev->params.base_fw_client_id, max_num, free_cli);
39     } else {
40         DbgMessage2(pf_dev,FATAL,"lm_vf_get_free_clients(%d-%d): No more free clients\n",pf_dev->params.base_fw_client_id, max_num);
41     }
42     return free_cli;
43 }
44 
lm_vf_get_free_stats(struct _lm_device_t * pf_dev)45 static u8_t lm_vf_get_free_stats(struct _lm_device_t * pf_dev)
46 {
47     u8_t free_st_id = 0xff;
48     u8_t min_num = pf_dev->params.vnics_per_port + VNIC_ID(pf_dev) * ((MAX_NUM_OF_STATS - pf_dev->params.vnics_per_port) / pf_dev->params.vnics_per_port);
49     u8_t max_num = min_num + (MAX_NUM_OF_STATS - pf_dev->params.vnics_per_port) / pf_dev->params.vnics_per_port;
50     free_st_id = lm_vf_get_free_resource(pf_dev->pf_resources.free_stats, min_num, max_num, 1);
51     if (free_st_id != 0xff) {
52         DbgMessage1(pf_dev,FATAL,"lm_vf_get_free_stats: %d\n",free_st_id);
53     } else {
54         DbgMessage3(pf_dev,FATAL,"lm_vf_get_free_stats: No more free stats counters(%d,%d)\n",min_num,max_num);
55         DbgMessage1(pf_dev,FATAL,"lm_vf_get_free_stats: vnic_per_port is %d)\n",pf_dev->params.vnics_per_port);
56     }
57     return free_st_id;
58 }
59 
lm_vf_get_free_cam_offset(struct _lm_device_t * pf_dev)60 static u8_t lm_vf_get_free_cam_offset(struct _lm_device_t * pf_dev)
61 {
62     u8_t free_cam_offset = 0xff;
63     u8_t max_num;
64     max_num = LM_CAM_SIZE(pf_dev);
65     free_cam_offset = lm_vf_get_free_resource(pf_dev->pf_resources.free_cam_offsets, 0, max_num, 1);
66     if (free_cam_offset != 0xff) {
67         DbgMessage1(pf_dev,FATAL,"lm_vf_get_free_cam_offset: %d\n",free_cam_offset);
68     } else {
69         DbgMessage(pf_dev,FATAL,"lm_vf_get_free_cam_offset: No more free cam offsets\n");
70     }
71     return  free_cam_offset;
72 }
73 
lm_vf_prep(struct _lm_device_t * pf_dev,struct _lm_device_t * vf_dev)74 lm_status_t lm_vf_prep(struct _lm_device_t * pf_dev, struct _lm_device_t * vf_dev)
75 {
76     vf_dev->pf_dev = pf_dev;
77     /* TODO: anything else to prepare for VF? */
78 
79     lm_set_virt_mode(vf_dev, DEVICE_TYPE_VF, VT_BASIC_VF);
80 
81     return LM_STATUS_SUCCESS;
82 }
83 
lm_vf_get_bar_offset(struct _lm_device_t * pdev,u8_t bar_num,lm_address_t * bar_addr)84 lm_status_t lm_vf_get_bar_offset(struct _lm_device_t *pdev, u8_t bar_num, lm_address_t * bar_addr)
85 {
86     bar_addr->as_u64 = PFDEV(pdev)->hw_info.sriov_info.vf_bars[bar_num].as_u64 +
87         REL_VFID(pdev)*pdev->hw_info.bar_size[bar_num];
88     DbgMessage3(pdev, FATAL, "VF[%d(%d)]-bar[%d]:\n", ABS_VFID(pdev),REL_VFID(pdev),bar_num);
89     DbgMessage2(pdev, FATAL, "A: 0x%x, S: 0x%x\n", bar_addr->as_u32.low, pdev->hw_info.bar_size[bar_num]);
90 
91     return LM_STATUS_SUCCESS;
92 }
93 
lm_vf_get_vf_id(struct _lm_device_t * pdev)94 lm_status_t lm_vf_get_vf_id(struct _lm_device_t * pdev)
95 {
96     u32_t val;
97 
98     mm_read_pci(pdev, PCICFG_ME_REGISTER, &val);
99 
100     DbgMessage1(pdev, FATAL, "vf ME-REG value: 0x%x\n", val);
101 
102     if (!(val & ME_REG_VF_VALID)) {
103         DbgBreakIf(!(val & ME_REG_VF_VALID));
104         return LM_STATUS_FAILURE;
105     }
106     pdev->params.vf_num_in_path = (val & ME_REG_VF_NUM_MASK) >> ME_REG_VF_NUM_SHIFT;
107 
108     if (pdev->params.vf_num_in_path < PFDEV(pdev)->hw_info.sriov_info.first_vf_in_pf) {
109         DbgBreakIf(pdev->params.vf_num_in_path < PFDEV(pdev)->hw_info.sriov_info.first_vf_in_pf);
110         return LM_STATUS_FAILURE;
111     }
112     pdev->params.vf_num_in_pf = pdev->params.vf_num_in_path - PFDEV(pdev)->hw_info.sriov_info.first_vf_in_pf;
113 
114     DbgMessage2(pdev, FATAL, "vf_num_in_path=%d vf_num_in_pf=%d\n", pdev->params.vf_num_in_path, pdev->params.vf_num_in_pf);
115 
116     return LM_STATUS_SUCCESS;
117 }
118 
lm_vf_get_intr_blk_info(struct _lm_device_t * pdev)119 lm_status_t lm_vf_get_intr_blk_info(struct _lm_device_t *pdev)
120 {
121     // TODO
122     return LM_STATUS_SUCCESS;
123 }
124 
lm_vf_en(struct _lm_device_t * pf_dev,u16_t vf_num)125 lm_status_t lm_vf_en(struct _lm_device_t * pf_dev, u16_t vf_num)
126 {
127     u8_t rss_id;
128     lm_status_t lm_status = LM_STATUS_SUCCESS;
129     /* TODO: what HW needs to be initialized at this stage */
130 	/* TODO: VF Database for FLR needs? */
131 #ifndef _VBD_CMD_
132     lm_status = mm_vf_en(pf_dev, vf_num);
133 #endif
134     if (lm_status == LM_STATUS_SUCCESS) {
135         pf_dev->pf_resources.free_cam_offsets[0] |= 0x3;
136 
137         LM_FOREACH_RSS_IDX(pf_dev, rss_id) {
138             lm_vf_acquire_resource(pf_dev->pf_resources.free_sbs, LM_FW_SB_ID(pf_dev, RSS_ID_TO_SB_ID(rss_id)), 1);
139             DbgMessage2(pf_dev, FATAL, "SB%d is allocated for PF[%d] itself\n", LM_FW_SB_ID(pf_dev, RSS_ID_TO_SB_ID(rss_id)), FUNC_ID(pf_dev));
140             lm_vf_acquire_resource(pf_dev->pf_resources.free_clients, LM_FW_CLI_ID(pf_dev, RSS_ID_TO_CID(rss_id)), 1);
141             DbgMessage2(pf_dev, FATAL, "Client%d is allocated for PF[%d] itself\n", LM_FW_CLI_ID(pf_dev, RSS_ID_TO_CID(rss_id)), FUNC_ID(pf_dev));
142         }
143 
144         lm_vf_acquire_resource(pf_dev->pf_resources.free_stats, LM_STATS_CNT_ID(pf_dev), 1);
145         DbgMessage2(pf_dev, FATAL, "Stats%d is allocated for PF[%d] itself\n", LM_STATS_CNT_ID(pf_dev), FUNC_ID(pf_dev));
146     }
147     pf_dev->vars.num_vfs_enabled = vf_num;
148     return lm_status;
149 }
150 
lm_vf_dis(struct _lm_device_t * pf_dev)151 lm_status_t lm_vf_dis(struct _lm_device_t * pf_dev)
152 {
153 	/* TODO: Clean VF Database for FLR needs? */
154     lm_status_t lm_status = LM_STATUS_SUCCESS;
155     u32_t base_vfid, vfid;
156     u16_t pretend_val;
157     u16_t ind_cids, start_cid, end_cid;
158 
159     DbgMessage(pf_dev, FATAL, "vf disable\n");
160     start_cid = (((1 << LM_VF_MAX_RVFID_SIZE) | 0) <<  LM_VF_CID_WND_SIZE); //1st possible abs VF_ID
161     end_cid = (((1 << LM_VF_MAX_RVFID_SIZE) | 63) <<  LM_VF_CID_WND_SIZE); //last possible abs VF_ID
162     DbgMessage2(pf_dev, FATAL, "vf disable: clear VFs connections from %d till %d\n",start_cid, end_cid);
163     for (ind_cids = start_cid; ind_cids <= end_cid; ind_cids++) {
164         pf_dev->vars.connections[ind_cids].con_state = LM_CON_STATE_CLOSE;
165     }
166 #ifndef _VBD_CMD_
167     mm_vf_dis(pf_dev);
168 #endif
169 
170     if (lm_is_function_after_flr(pf_dev)) {
171         DbgMessage(pf_dev, FATAL, "vf disable called on a flred function - not much we can do here... \n");
172         return LM_STATUS_SUCCESS;
173     }
174     /* if MCP does not exist for each vf in pf, need to pretend to it and disable igu vf_msix and internal vfid enable bit */
175     if (GET_FLAGS( pf_dev->params.test_mode, TEST_MODE_NO_MCP)){
176         DbgMessage(pf_dev, FATAL, "bootcode is down fix sriov disable.\n");
177         base_vfid = pf_dev->hw_info.sriov_info.first_vf_in_pf;
178         for (vfid = base_vfid; vfid < base_vfid + pf_dev->vars.num_vfs_enabled; vfid++ ) {
179             pretend_val = ABS_FUNC_ID(pf_dev) | (1<<3) | (vfid << 4);
180             lm_pretend_func(pf_dev, pretend_val);
181 
182             REG_WR(pf_dev, IGU_REG_PCI_VF_MSIX_EN, 0);
183             REG_WR(pf_dev, IGU_REG_PCI_VF_MSIX_FUNC_MASK, 0);
184             REG_WR(pf_dev, PGLUE_B_REG_INTERNAL_VFID_ENABLE, 0);
185 
186             lm_pretend_func(pf_dev, ABS_FUNC_ID(pf_dev) );
187         }
188 
189         /* This is a clear-on-write register, therefore we actually write 1 to the bit we want to reset */
190         REG_WR(pf_dev, 0x24d8, 1<<29);
191 
192         REG_WR(pf_dev, PGLUE_B_REG_SR_IOV_DISABLED_REQUEST_CLR ,(1<<ABS_FUNC_ID(pf_dev)));
193         //REG_WR(pf_dev, PGLUE_B_REG_DISABLE_FLR_SRIOV_DISABLED, PGLUE_B_DISABLE_FLR_SRIOV_DISABLED_REG_DISABLE_SRIOV_DISABLED_REQUEST);*/
194     }
195     return lm_status;
196 }
197 
198 lm_status_t lm_alloc_client_info(struct _lm_device_t *pdev);
199 lm_status_t lm_setup_client_info(struct _lm_device_t *pdev);
200 
201 /* Description:
202 *    This routine contain code for VF alloc/setup distinguish by flag
203 */
lm_vf_setup_alloc_resc(struct _lm_device_t * pdev,u8_t b_is_alloc)204 lm_status_t lm_vf_setup_alloc_resc(struct _lm_device_t *pdev, u8_t b_is_alloc )
205 {
206     lm_variables_t* vars       = NULL ;
207     u32_t           mem_size   = 0 ;
208     u32_t           alloc_size = 0 ;
209     u8_t            mm_cli_idx = 0 ;
210     u8_t            sb_id      = 0 ;
211     lm_address_t    sb_phy_address;
212     lm_status_t     lm_status  = LM_STATUS_FAILURE;
213 
214     if CHK_NULL( pdev )
215     {
216         return LM_STATUS_INVALID_PARAMETER ;
217     }
218 
219     DbgMessage1(pdev, FATAL , "### VF lm_common_setup_alloc_resc b_is_alloc=%s\n", b_is_alloc ? "TRUE" : "FALSE" );
220 
221     vars       = &(pdev->vars) ;
222 
223     //       Status blocks allocation. We allocate mem both for the default and non-default status blocks
224     //       there is 1 def sb and 16 non-def sb per port.
225     //       non-default sb: index 0-15, default sb: index 16.
226     mem_size = E2_STATUS_BLOCK_BUFFER_SIZE;
227 
228     mm_cli_idx = LM_RESOURCE_COMMON;//!!DP mm_cli_idx_to_um_idx(LM_CLI_IDX_MAX);
229 
230     LM_FOREACH_SB_ID(pdev, sb_id)
231     {
232         if( b_is_alloc )
233         {
234             pdev->vars.status_blocks_arr[sb_id].host_hc_status_block.e2_sb = mm_alloc_phys_mem(pdev, mem_size, &sb_phy_address, 0, mm_cli_idx);
235             pdev->vars.status_blocks_arr[sb_id].hc_status_block_data.e2_sb_data.common.host_sb_addr.lo = sb_phy_address.as_u32.low;
236             pdev->vars.status_blocks_arr[sb_id].hc_status_block_data.e2_sb_data.common.host_sb_addr.hi = sb_phy_address.as_u32.high;
237         }
238         if CHK_NULL(pdev->vars.status_blocks_arr[sb_id].host_hc_status_block.e1x_sb)
239         {
240             DbgBreakIf(DBG_BREAK_ON(MEMORY_ALLOCATION_FAILURE));
241             return LM_STATUS_RESOURCE ;
242         }
243         mm_mem_zero((void *)(pdev->vars.status_blocks_arr[sb_id].host_hc_status_block.e2_sb), mem_size);
244     }
245 
246     /* SlowPath Info */
247     lm_status = lm_alloc_setup_slowpath_resc(pdev, b_is_alloc);
248     if (lm_status != LM_STATUS_SUCCESS)
249     {
250         DbgMessage1(pdev, FATAL, "lm_alloc_client_info failed lm-status = %d\n", lm_status);
251         return lm_status;
252     }
253 
254 
255     if (b_is_alloc)
256     {
257         lm_status = lm_alloc_client_info(pdev);
258         if (lm_status != LM_STATUS_SUCCESS)
259         {
260             DbgMessage1(pdev, FATAL, "lm_alloc_client_info failed lm-status = %d\n", lm_status);
261             return lm_status;
262         }
263     }
264 
265     lm_status = lm_setup_client_info(pdev);
266     if (lm_status != LM_STATUS_SUCCESS)
267     {
268         DbgMessage1(pdev, FATAL, "lm_setup_client_info failed lm-status = %d\n", lm_status);
269         return lm_status;
270     }
271 
272     return LM_STATUS_SUCCESS;
273 }
274 
275 
lm_vf_init_dev_info(struct _lm_device_t * pdev)276 lm_status_t lm_vf_init_dev_info(struct _lm_device_t *pdev)
277 {
278     u8_t    index;
279     lm_status_t lm_status;
280     lm_status = lm_vf_allocate_resc_in_pf(pdev);
281     if (lm_status == LM_STATUS_SUCCESS) {
282         pdev->vars.stats.stats_collect.stats_hw.b_collect_enabled = FALSE;
283         pdev->vars.stats.stats_collect.stats_fw.b_collect_enabled = FALSE;
284         DbgBreakIf(LM_SB_CNT(pdev) != 1);
285 
286         for (index = 0; index < LM_SB_CNT(pdev); index++) { //RSS? but not SBs
287             PFDEV(pdev)->context_info->array[VF_TO_PF_CID(pdev,index)].cid_resc.mapped_cid_bar_addr =
288                 (volatile void *)((u8_t*)pdev->vars.mapped_bar_addr[BAR_0] + index*LM_DQ_CID_SIZE + VF_BAR0_DB_OFFSET);
289         }
290     }
291     return lm_status;
292 }
293 
294 
295 //static vf_info_t tmp_vf_info;
296 
lm_vf_allocate_resc_in_pf(struct _lm_device_t * pdev)297 lm_status_t lm_vf_allocate_resc_in_pf(struct _lm_device_t *pdev)
298 {
299     lm_status_t lm_status = LM_STATUS_SUCCESS;
300 
301     DbgMessage(pdev, FATAL, "lm_vf_allocate_resc_in_pf\n");
302 
303     DbgMessage2(pdev,FATAL,"lm_vf_allocate_resc_in_pf: VF %d requests resources from PF %d\n",ABS_VFID(pdev),FUNC_ID(pdev));
304     MM_ACQUIRE_PF_LOCK(PFDEV(pdev));
305 
306     pdev->params.base_fw_client_id = lm_vf_get_free_clients(PFDEV(pdev),pdev->params.sb_cnt);
307     pdev->params.base_fw_ndsb = lm_vf_get_free_sbs(PFDEV(pdev),pdev->params.sb_cnt);
308     pdev->params.base_cam_offset = lm_vf_get_free_cam_offset(PFDEV(pdev));
309     pdev->params.base_fw_stats_id = lm_vf_get_free_stats(PFDEV(pdev));
310 
311     if ((pdev->params.base_fw_client_id == 0xff)
312             || (pdev->params.base_fw_ndsb == 0xff)
313             || (pdev->params.base_cam_offset == 0xff)) {
314         lm_status = LM_STATUS_RESOURCE;
315     } else {
316         lm_vf_acquire_resource(PFDEV(pdev)->pf_resources.free_sbs, pdev->params.base_fw_ndsb, pdev->params.sb_cnt);
317         lm_vf_acquire_resource(PFDEV(pdev)->pf_resources.free_clients, pdev->params.base_fw_client_id, pdev->params.sb_cnt);
318         lm_vf_acquire_resource(PFDEV(pdev)->pf_resources.free_cam_offsets, pdev->params.base_cam_offset, 1);
319         if (pdev->params.base_fw_stats_id != 0xff) {
320             lm_vf_acquire_resource(PFDEV(pdev)->pf_resources.free_stats, pdev->params.base_fw_stats_id, 1);
321         }
322         /* For now, qzone_id == sb_id, but this is not a requirement */
323         pdev->params.base_fw_qzone_id = pdev->params.base_fw_ndsb;
324     }
325 
326     MM_RELEASE_PF_LOCK(PFDEV(pdev));
327 
328     DbgMessage4(pdev, FATAL, "vf_resc: fw_client=%d fw_ndsb=%d fw cam=%d fw stats=%d\n",
329                pdev->params.base_fw_client_id, pdev->params.base_fw_ndsb, pdev->params.base_cam_offset, pdev->params.base_fw_stats_id);
330 
331     return lm_status;
332 }
333 
334 lm_status_t
lm_vf_chip_init(struct _lm_device_t * pdev)335 lm_vf_chip_init(struct _lm_device_t *pdev)
336 {
337     lm_status_t     lm_status = LM_STATUS_SUCCESS;
338     u32_t           function_fw_id;
339     u8_t            port = PORT_ID(pdev);
340     u8_t  i;
341 
342     DbgMessage(pdev, FATAL, "lm_vf_chip_init: start\n");
343     mm_memset(pdev->vars.c_hc_ack, 0, sizeof(pdev->vars.c_hc_ack));
344     mm_memset(pdev->vars.u_hc_ack, 0, sizeof(pdev->vars.u_hc_ack));
345     lm_init_non_def_status_block(pdev, LM_SW_LEADING_SB_ID, port);
346 
347     // Init SPQ
348     /*  Driver should zero the slow path queue data before enabling the function in XSTORM.
349         Until now firmware was doing this but it cannot scale for VFs, so this zeroing was removed from firmware.
350         The driver should write zeros to XSTORM_SPQ_DATA_OFFSET(function).
351         The size of this structure is given in XSTORM_SPQ_DATA_SIZE.
352         For VFs, the XSTORM_VF_SPQ_DATA_OFFSET(vfid) should be used. To do it via GRC is preferrable */
353     DbgBreakIf((XSTORM_SPQ_DATA_SIZE % 4) != 0);
354     for (i = 0; i < XSTORM_SPQ_DATA_SIZE/sizeof(u32_t); i++) {
355         REG_WR(PFDEV(pdev),XSEM_REG_FAST_MEMORY + XSTORM_VF_SPQ_DATA_OFFSET(ABS_VFID(pdev)) + i*sizeof(u32_t),0);
356     }
357 
358     REG_WR(PFDEV(pdev),XSEM_REG_FAST_MEMORY + (XSTORM_VF_SPQ_PAGE_BASE_OFFSET(ABS_VFID(pdev))),pdev->sq_info.sq_chain.bd_chain_phy.as_u32.low);
359     REG_WR(PFDEV(pdev),XSEM_REG_FAST_MEMORY + (XSTORM_VF_SPQ_PAGE_BASE_OFFSET(ABS_VFID(pdev)) + 4),pdev->sq_info.sq_chain.bd_chain_phy.as_u32.high);
360     REG_WR(PFDEV(pdev),XSEM_REG_FAST_MEMORY + (XSTORM_VF_SPQ_PROD_OFFSET(ABS_VFID(pdev))),pdev->sq_info.sq_chain.prod_idx);
361 
362     lm_status = lm_set_rx_mask(pdev, LM_CLI_IDX_NDIS, LM_RX_MASK_ACCEPT_NONE, NULL);
363     if(LM_STATUS_SUCCESS != lm_status)
364     {
365         DbgMessage1(pdev,FATAL,"lm_set_rx_mask(LM_RX_MASK_ACCEPT_NONE) returns %d\n",lm_status);
366         return lm_status;
367     }
368 /*
369 Enable the function in STORMs
370 */
371     function_fw_id = FW_VFID(pdev);
372 
373     LM_INTMEM_WRITE8(PFDEV(pdev), XSTORM_VF_TO_PF_OFFSET(function_fw_id), FUNC_ID(pdev), BAR_XSTRORM_INTMEM);
374     LM_INTMEM_WRITE8(PFDEV(pdev), CSTORM_VF_TO_PF_OFFSET(function_fw_id), FUNC_ID(pdev), BAR_CSTRORM_INTMEM);
375     LM_INTMEM_WRITE8(PFDEV(pdev), TSTORM_VF_TO_PF_OFFSET(function_fw_id), FUNC_ID(pdev), BAR_TSTRORM_INTMEM);
376     LM_INTMEM_WRITE8(PFDEV(pdev), USTORM_VF_TO_PF_OFFSET(function_fw_id), FUNC_ID(pdev), BAR_USTRORM_INTMEM);
377 
378     LM_INTMEM_WRITE8(PFDEV(pdev), XSTORM_FUNC_EN_OFFSET(function_fw_id), 1, BAR_XSTRORM_INTMEM);
379     LM_INTMEM_WRITE8(PFDEV(pdev), CSTORM_FUNC_EN_OFFSET(function_fw_id), 1, BAR_CSTRORM_INTMEM);
380     LM_INTMEM_WRITE8(PFDEV(pdev), TSTORM_FUNC_EN_OFFSET(function_fw_id), 1, BAR_TSTRORM_INTMEM);
381     LM_INTMEM_WRITE8(PFDEV(pdev), USTORM_FUNC_EN_OFFSET(function_fw_id), 1, BAR_USTRORM_INTMEM);
382 
383 
384     return LM_STATUS_SUCCESS;
385 }
386 
387 lm_status_t
lm_vf_chip_reset(struct _lm_device_t * pdev,lm_reason_t reason)388 lm_vf_chip_reset(struct _lm_device_t *pdev, lm_reason_t reason)
389 {
390     lm_status_t lm_status = LM_STATUS_SUCCESS;
391     u32_t       function_fw_id;
392     u8_t        port = PORT_ID(pdev);
393 
394     if (lm_reset_is_inprogress(pdev)) {
395         DbgMessage1(pdev,FATAL,"lm_vf_chip_reset: VF(%d) under reset\n",ABS_VFID(pdev));
396         if (!lm_vf_fl_reset_is_inprogress(pdev)) {
397             lm_status = lm_vf_recycle_resc_in_pf(pdev);
398             PFDEV(pdev)->vars.connections[VF_TO_PF_CID(pdev,LM_SW_LEADING_RSS_CID(pdev))].con_state = LM_CON_STATE_CLOSE;
399             DbgMessage1(pdev,FATAL,"lm_vf_chip_reset: recycle resources (including connection) for VF(%d)\n",ABS_VFID(pdev));
400         }
401         return lm_status;
402     }
403 
404 /*
405 Disable the function in STORMs
406 */
407     function_fw_id = FW_VFID(pdev);
408 
409     LM_INTMEM_WRITE8(PFDEV(pdev), XSTORM_FUNC_EN_OFFSET(function_fw_id), 0, BAR_XSTRORM_INTMEM);
410     LM_INTMEM_WRITE8(PFDEV(pdev), CSTORM_FUNC_EN_OFFSET(function_fw_id), 0, BAR_CSTRORM_INTMEM);
411     LM_INTMEM_WRITE8(PFDEV(pdev), TSTORM_FUNC_EN_OFFSET(function_fw_id), 0, BAR_TSTRORM_INTMEM);
412     LM_INTMEM_WRITE8(PFDEV(pdev), USTORM_FUNC_EN_OFFSET(function_fw_id), 0, BAR_USTRORM_INTMEM);
413 
414     lm_clear_non_def_status_block(pdev,  LM_FW_SB_ID(pdev, LM_SW_LEADING_SB_ID));
415 
416     lm_status = lm_vf_recycle_resc_in_pf(pdev);
417     return lm_status;
418 }
419 
420 lm_status_t
lm_vf_recycle_resc_in_pf(struct _lm_device_t * pdev)421 lm_vf_recycle_resc_in_pf(struct _lm_device_t *pdev)
422 {
423     lm_status_t lm_status = LM_STATUS_SUCCESS;
424 
425     MM_ACQUIRE_PF_LOCK(PFDEV(pdev));
426 
427     lm_vf_release_resource(PFDEV(pdev)->pf_resources.free_sbs, pdev->params.base_fw_ndsb, pdev->params.sb_cnt);
428     lm_vf_release_resource(PFDEV(pdev)->pf_resources.free_clients, pdev->params.base_fw_client_id, pdev->params.sb_cnt);
429     lm_vf_release_resource(PFDEV(pdev)->pf_resources.free_cam_offsets, pdev->params.base_cam_offset, 1);
430     if (pdev->params.base_fw_stats_id != 0xff) {
431         lm_vf_release_resource(PFDEV(pdev)->pf_resources.free_stats, pdev->params.base_fw_stats_id, 1);
432     }
433 
434     MM_RELEASE_PF_LOCK(PFDEV(pdev));
435 
436     return lm_status;
437 }
438 
439 lm_status_t
lm_vf_enable_vf(struct _lm_device_t * pdev)440 lm_vf_enable_vf(struct _lm_device_t *pdev)
441 {
442     lm_status_t lm_status = LM_STATUS_SUCCESS;
443     u16_t pretend_val;
444     u32_t prod_idx;
445     u8_t igu_sb_id;
446     u32_t was_err_num;
447     u32_t was_err_value;
448     u32_t was_err_reg;
449 
450     /* Enable the VF in PXP - this will enable read/write from VF bar.
451      * Need to use Pretend in order to do this. Note: once we do pretend
452      * all accesses to SPLIT-68 will be done as if-vf...
453      * Bits. Bits [13:10] - Reserved.  Bits [9:4] - VFID. Bits [3] - VF valid. Bits [2:0] - PFID.
454      */
455 
456     pretend_val = ABS_FUNC_ID(pdev) | (1<<3) | (ABS_VFID(pdev) << 4);
457     lm_status = lm_pretend_func(PFDEV(pdev), pretend_val);
458     if (lm_status == LM_STATUS_SUCCESS) {
459         REG_WR(PFDEV(pdev), PBF_REG_DISABLE_VF,0);
460         REG_WR(PFDEV(pdev), PGLUE_B_REG_INTERNAL_VFID_ENABLE, 1);
461         lm_pretend_func(PFDEV(pdev), ABS_FUNC_ID(pdev) );
462         DbgMessage1(pdev, FATAL, "vf[%d] is enabled\n", ABS_VFID(pdev));
463 
464         was_err_num = 2 * PATH_ID(pdev) + ABS_VFID(pdev) / 32;
465         switch (was_err_num) {
466         case 0:
467             was_err_reg = PGLUE_B_REG_WAS_ERROR_VF_31_0_CLR;
468             break;
469         case 1:
470             was_err_reg = PGLUE_B_REG_WAS_ERROR_VF_63_32_CLR;
471             break;
472         case 2:
473             was_err_reg = PGLUE_B_REG_WAS_ERROR_VF_95_64_CLR;
474             break;
475         case 3:
476             was_err_reg = PGLUE_B_REG_WAS_ERROR_VF_127_96_CLR;
477             break;
478         default:
479             was_err_reg = 0;
480             DbgMessage2(pdev,FATAL,"Wrong Path[%d], VF[%d]\n",PATH_ID(pdev),ABS_VFID(pdev));
481             DbgBreak();
482         }
483 
484         was_err_value = 1 << (ABS_VFID(pdev) % 32);
485         if (was_err_reg) {
486             REG_WR(PFDEV(pdev), was_err_reg, was_err_value); /* PglueB - Clear the was_error indication of the relevant function*/
487         }
488 
489         /* IGU Initializations */
490         for (igu_sb_id = 0; igu_sb_id < LM_IGU_SB_CNT(pdev); igu_sb_id++) {
491             prod_idx = (IGU_BASE_NDSB(pdev) + igu_sb_id);
492             REG_WR(PFDEV(pdev), IGU_REG_PROD_CONS_MEMORY + prod_idx*4, 0);
493             DbgMessage1(pdev, FATAL, "IGU[%d] is inialized\n", prod_idx);
494         }
495         REG_WR(PFDEV(pdev),TSEM_REG_VFPF_ERR_NUM, ABS_VFID(pdev));
496         REG_WR(PFDEV(pdev),USEM_REG_VFPF_ERR_NUM, ABS_VFID(pdev));
497         REG_WR(PFDEV(pdev),CSEM_REG_VFPF_ERR_NUM, ABS_VFID(pdev));
498         REG_WR(PFDEV(pdev),XSEM_REG_VFPF_ERR_NUM, ABS_VFID(pdev));
499     } else {
500         DbgMessage2(pdev, FATAL, "lm_pretend_func(%x) returns %d\n",pretend_val,lm_status);
501         DbgMessage1(pdev, FATAL, "vf[%d] is not enabled\n", ABS_VFID(pdev));
502     }
503 
504     return lm_status;
505 }
506 
507 lm_status_t
lm_vf_enable_igu_int(struct _lm_device_t * pdev)508 lm_vf_enable_igu_int(struct _lm_device_t * pdev)
509 {
510     u32_t val;
511     u16_t pretend_val;
512     u8_t num_segs;
513     u8_t prod_idx;
514     u8_t sb_id;
515     u8_t i;
516     lm_status_t status;
517 
518     /* Need to use pretend for VF */
519     pretend_val = ABS_FUNC_ID(pdev) | (1<<3) | (ABS_VFID(pdev) << 4);
520     lm_pretend_func(PFDEV(pdev), pretend_val);
521 
522     REG_WR(PFDEV(pdev), IGU_REG_SB_INT_BEFORE_MASK_LSB, 0);
523     REG_WR(PFDEV(pdev), IGU_REG_SB_INT_BEFORE_MASK_MSB, 0);
524     REG_WR(PFDEV(pdev), IGU_REG_SB_MASK_LSB, 0);
525     REG_WR(PFDEV(pdev), IGU_REG_SB_MASK_MSB, 0);
526     REG_WR(PFDEV(pdev), IGU_REG_PBA_STATUS_LSB, 0);
527     REG_WR(PFDEV(pdev), IGU_REG_PBA_STATUS_MSB, 0);
528 
529 
530     val=REG_RD(PFDEV(pdev), IGU_REG_VF_CONFIGURATION);
531 
532     SET_FLAGS(val, IGU_VF_CONF_FUNC_EN);
533     SET_FLAGS(val, IGU_VF_CONF_MSI_MSIX_EN);
534 
535     if (pdev->params.interrupt_mode == LM_INT_MODE_SIMD) {
536         SET_FLAGS(val,IGU_VF_CONF_SINGLE_ISR_EN);
537     }
538 
539     /* set Parent PF */
540     val |= ((FUNC_ID(pdev) << IGU_VF_CONF_PARENT_SHIFT) & IGU_VF_CONF_PARENT_MASK);
541 
542 	REG_WR(PFDEV(pdev),  IGU_REG_VF_CONFIGURATION, val);
543 
544     status = lm_pretend_func(PFDEV(pdev), ABS_FUNC_ID(pdev));
545 
546     num_segs = (INTR_BLK_MODE(pdev) == INTR_BLK_MODE_BC)? IGU_BC_NDSB_NUM_SEGS : IGU_NORM_NDSB_NUM_SEGS;
547     for (sb_id = 0; sb_id < LM_IGU_SB_CNT(pdev); sb_id++) {
548         prod_idx = (IGU_BASE_NDSB(pdev) + sb_id)*num_segs; /* bc-assumption consecutive pfs, norm-no assumption */
549         for (i = 0; i < num_segs;i++) {
550             REG_WR(PFDEV(pdev), IGU_REG_PROD_CONS_MEMORY + (prod_idx + i)*4, 0);
551         }
552         /* Give Consumer updates with value '0' */
553         lm_int_ack_sb_enable(pdev, sb_id);
554     }
555 
556     return status;
557 
558 }
559 
560 lm_status_t
lm_vf_disable_igu_int(struct _lm_device_t * pdev)561 lm_vf_disable_igu_int(struct _lm_device_t * pdev)
562 {
563     u32_t val;
564     u16_t pretend_val;
565 
566     /* Need to use pretend for VF */
567     if (lm_fl_reset_is_inprogress(PFDEV(pdev))) {
568         DbgMessage2(pdev, FATAL, "PF[%d] of VF[%d] is under FLR\n", FUNC_ID(pdev), ABS_VFID(pdev));
569         return LM_STATUS_SUCCESS;
570     }
571     pretend_val = ABS_FUNC_ID(pdev) | (1<<3) | (ABS_VFID(pdev) << 4);
572     lm_pretend_func(PFDEV(pdev), pretend_val);
573 
574     val = REG_RD(PFDEV(pdev), IGU_REG_VF_CONFIGURATION);
575 
576     /* disable both bits, for INTA, MSI and MSI-X. */
577     RESET_FLAGS(val, (IGU_VF_CONF_MSI_MSIX_EN | IGU_VF_CONF_SINGLE_ISR_EN | IGU_VF_CONF_FUNC_EN | IGU_VF_CONF_PARENT_MASK));
578 
579     REG_WR(PFDEV(pdev),  IGU_REG_VF_CONFIGURATION, val);
580 
581     return (lm_pretend_func(PFDEV(pdev), ABS_FUNC_ID(pdev)));
582 }
583 
lm_vf_fl_reset_set_inprogress(struct _lm_device_t * pdev)584 void lm_vf_fl_reset_set_inprogress(struct _lm_device_t * pdev)
585 {
586     MM_ACQUIRE_PF_LOCK(PFDEV(pdev));
587     lm_vf_acquire_resource(PFDEV(pdev)->pf_resources.flred_vfs, REL_VFID(pdev), 1);
588     DbgMessage2(pdev, FATAL, "Set FLR flag for VF[%d(%d)]\n", ABS_VFID(pdev), REL_VFID(pdev));
589     MM_RELEASE_PF_LOCK(PFDEV(pdev));
590 }
591 
lm_vf_fl_reset_clear_inprogress(struct _lm_device_t * pdev)592 void lm_vf_fl_reset_clear_inprogress(struct _lm_device_t *pdev)
593 {
594     MM_ACQUIRE_PF_LOCK(PFDEV(pdev));
595     lm_vf_release_resource(PFDEV(pdev)->pf_resources.flred_vfs, REL_VFID(pdev), 1);
596     DbgMessage2(pdev, FATAL, "Clear FLR flag for VF[%d(%d)]\n", ABS_VFID(pdev), REL_VFID(pdev));
597     MM_RELEASE_PF_LOCK(PFDEV(pdev));
598 }
599 
lm_vf_fl_reset_is_inprogress(struct _lm_device_t * pdev)600 u8_t lm_vf_fl_reset_is_inprogress(struct _lm_device_t *pdev)
601 {
602     u8_t vf_flr_inprogess;
603     MM_ACQUIRE_PF_LOCK(PFDEV(pdev));
604     vf_flr_inprogess = lm_vf_get_resource_value(PFDEV(pdev)->pf_resources.flred_vfs, REL_VFID(pdev));
605     if (vf_flr_inprogess) {
606         DbgMessage2(pdev, FATAL, "VF[%d(%d)] is FLRed\n", ABS_VFID(pdev), REL_VFID(pdev));
607     }
608     MM_RELEASE_PF_LOCK(PFDEV(pdev));
609     return vf_flr_inprogess;
610 }
611 
lm_vf_pf_get_sb_running_index(struct _lm_device_t * pdev,u8_t sb_id,u8_t sm_idx)612 u16_t lm_vf_pf_get_sb_running_index(struct _lm_device_t *pdev, u8_t sb_id, u8_t sm_idx)
613 {
614     DbgMessage(NULL, FATAL, "lm_vf_pf_get_sb_running_index is not used in basic VF\n");
615     DbgBreak();
616     return 0;
617 }
618 
lm_vf_pf_get_sb_index(struct _lm_device_t * pdev,u8_t sb_id,u8_t idx)619 u16_t lm_vf_pf_get_sb_index(struct _lm_device_t *pdev, u8_t sb_id, u8_t idx)
620 {
621     DbgMessage(NULL, FATAL, "lm_vf_pf_get_sb_running_index is not used in basic VF\n");
622     DbgBreak();
623     return 0;
624 }
625 
lm_vf_get_doorbell_size(struct _lm_device_t * pdev)626 u16_t lm_vf_get_doorbell_size(struct _lm_device_t *pdev)
627 {
628     DbgMessage(NULL, FATAL, "lm_vf_get_doorbell_size is not used in basic VF\n");
629     DbgBreak();
630     return 0;
631 }
632 
lm_vf_pf_set_q_filters(struct _lm_device_t * pdev,u8 vf_qid,u8_t to_indicate,q_filter_type filter_type,u8_t * pbuf,u32_t buf_len,u16_t vlan_tag,u8_t set_mac)633 lm_status_t lm_vf_pf_set_q_filters(struct _lm_device_t * pdev, u8 vf_qid, u8_t to_indicate, q_filter_type filter_type, u8_t * pbuf, u32_t buf_len, u16_t vlan_tag, u8_t set_mac)
634 {
635     DbgMessage(NULL, FATAL, "lm_vf_pf_set_q_filters is not used in basic VF\n");
636     DbgBreak();
637     return LM_STATUS_FAILURE;
638 }
639 
lm_vf_pf_set_q_filters_list(struct _lm_device_t * pdev,u8 vf_qid,u8_t to_indicate,q_filter_type filter_type,d_list_t * pbuf,u16_t vlan_tag,u8_t set_mac)640 lm_status_t lm_vf_pf_set_q_filters_list(struct _lm_device_t * pdev, u8 vf_qid, u8_t to_indicate, q_filter_type filter_type, d_list_t * pbuf, u16_t vlan_tag, u8_t set_mac)
641 {
642     DbgMessage(NULL, FATAL, "lm_vf_pf_set_q_filters_list is not used in basic VF\n");
643     DbgBreak();
644     return LM_STATUS_FAILURE;
645 }
646 
lm_vf_pf_tear_q_down(struct _lm_device_t * pdev,u8 vf_qid)647 lm_status_t lm_vf_pf_tear_q_down(struct _lm_device_t * pdev, u8 vf_qid)
648 {
649     DbgMessage(NULL, FATAL, "lm_vf_pf_tear_q_down is not used in basic VF\n");
650     DbgBreak();
651     return LM_STATUS_FAILURE;
652 }
653 
lm_vf_queue_init(struct _lm_device_t * pdev,u8_t cid)654 lm_status_t lm_vf_queue_init(struct _lm_device_t *pdev, u8_t cid)
655 {
656     DbgMessage(NULL, FATAL, "lm_vf_queue_init is not used in basic VF\n");
657     DbgBreak();
658     return LM_STATUS_FAILURE;
659 }
660 
lm_vf_queue_close(struct _lm_device_t * pdev,u8_t cid)661 lm_status_t lm_vf_queue_close(struct _lm_device_t *pdev, u8_t cid)
662 {
663     DbgMessage(NULL, FATAL, "lm_vf_queue_close is not used in basic VF\n");
664     DbgBreak();
665     return LM_STATUS_FAILURE;
666 }
667 
668 #endif
669 
670