1 /* SPDX-License-Identifier: BSD-3-Clause
2 * Copyright(c) 2010-2018 Intel Corporation
6 #include "ifpga_enumerate.h"
7 #include "ifpga_feature_dev.h"
9 #include "opae_hw_api.h"
11 /* Accelerator APIs */
12 static int ifpga_acc_get_uuid(struct opae_accelerator *acc,
15 struct opae_bridge *br = acc->br;
16 struct ifpga_port_hw *port;
23 return fpga_get_afu_uuid(port, uuid);
26 static int ifpga_acc_set_irq(struct opae_accelerator *acc,
27 u32 start, u32 count, s32 evtfds[])
29 struct ifpga_afu_info *afu_info = acc->data;
30 struct opae_bridge *br = acc->br;
31 struct ifpga_port_hw *port;
32 struct fpga_uafu_irq_set irq_set;
37 if (start >= afu_info->num_irqs || start + count > afu_info->num_irqs)
42 irq_set.start = start;
43 irq_set.count = count;
44 irq_set.evtfds = evtfds;
46 return ifpga_set_irq(port->parent, FEATURE_FIU_ID_PORT, port->port_id,
47 IFPGA_PORT_FEATURE_ID_UINT, &irq_set);
50 static int ifpga_acc_get_info(struct opae_accelerator *acc,
51 struct opae_acc_info *info)
53 struct ifpga_afu_info *afu_info = acc->data;
58 info->num_regions = afu_info->num_regions;
59 info->num_irqs = afu_info->num_irqs;
64 static int ifpga_acc_get_region_info(struct opae_accelerator *acc,
65 struct opae_acc_region_info *info)
67 struct ifpga_afu_info *afu_info = acc->data;
72 if (info->index >= afu_info->num_regions)
75 /* always one RW region only for AFU now */
76 info->flags = ACC_REGION_READ | ACC_REGION_WRITE | ACC_REGION_MMIO;
77 info->len = afu_info->region[info->index].len;
78 info->addr = afu_info->region[info->index].addr;
83 static int ifpga_acc_read(struct opae_accelerator *acc, unsigned int region_idx,
84 u64 offset, unsigned int byte, void *data)
86 struct ifpga_afu_info *afu_info = acc->data;
87 struct opae_reg_region *region;
92 if (offset + byte <= offset)
95 if (region_idx >= afu_info->num_regions)
98 region = &afu_info->region[region_idx];
99 if (offset + byte > region->len)
104 *(u64 *)data = opae_readq(region->addr + offset);
107 *(u32 *)data = opae_readl(region->addr + offset);
110 *(u16 *)data = opae_readw(region->addr + offset);
113 *(u8 *)data = opae_readb(region->addr + offset);
122 static int ifpga_acc_write(struct opae_accelerator *acc,
123 unsigned int region_idx, u64 offset,
124 unsigned int byte, void *data)
126 struct ifpga_afu_info *afu_info = acc->data;
127 struct opae_reg_region *region;
132 if (offset + byte <= offset)
135 if (region_idx >= afu_info->num_regions)
138 region = &afu_info->region[region_idx];
139 if (offset + byte > region->len)
142 /* normal mmio case */
145 opae_writeq(*(u64 *)data, region->addr + offset);
148 opae_writel(*(u32 *)data, region->addr + offset);
151 opae_writew(*(u16 *)data, region->addr + offset);
154 opae_writeb(*(u8 *)data, region->addr + offset);
163 struct opae_accelerator_ops ifpga_acc_ops = {
164 .read = ifpga_acc_read,
165 .write = ifpga_acc_write,
166 .set_irq = ifpga_acc_set_irq,
167 .get_info = ifpga_acc_get_info,
168 .get_region_info = ifpga_acc_get_region_info,
169 .get_uuid = ifpga_acc_get_uuid,
173 static int ifpga_br_reset(struct opae_bridge *br)
175 struct ifpga_port_hw *port = br->data;
177 return fpga_port_reset(port);
180 struct opae_bridge_ops ifpga_br_ops = {
181 .reset = ifpga_br_reset,
185 static int ifpga_mgr_flash(struct opae_manager *mgr, int id, void *buf,
186 u32 size, u64 *status)
188 struct ifpga_fme_hw *fme = mgr->data;
189 struct ifpga_hw *hw = fme->parent;
191 return ifpga_pr(hw, id, buf, size, status);
194 static int ifpga_mgr_get_eth_group_region_info(struct opae_manager *mgr,
195 struct opae_eth_group_region_info *info)
197 struct ifpga_fme_hw *fme = mgr->data;
199 if (info->group_id >= MAX_ETH_GROUP_DEVICES)
202 info->phys_addr = fme->eth_group_region[info->group_id].phys_addr;
203 info->addr = fme->eth_group_region[info->group_id].addr;
204 info->len = fme->eth_group_region[info->group_id].len;
206 info->mem_idx = fme->nums_acc_region + info->group_id;
211 struct opae_manager_ops ifpga_mgr_ops = {
212 .flash = ifpga_mgr_flash,
213 .get_eth_group_region_info = ifpga_mgr_get_eth_group_region_info,
216 static int ifpga_mgr_read_mac_rom(struct opae_manager *mgr, int offset,
219 struct ifpga_fme_hw *fme = mgr->data;
221 return fme_mgr_read_mac_rom(fme, offset, buf, size);
224 static int ifpga_mgr_write_mac_rom(struct opae_manager *mgr, int offset,
227 struct ifpga_fme_hw *fme = mgr->data;
229 return fme_mgr_write_mac_rom(fme, offset, buf, size);
232 static int ifpga_mgr_get_eth_group_nums(struct opae_manager *mgr)
234 struct ifpga_fme_hw *fme = mgr->data;
236 return fme_mgr_get_eth_group_nums(fme);
239 static int ifpga_mgr_get_eth_group_info(struct opae_manager *mgr,
240 u8 group_id, struct opae_eth_group_info *info)
242 struct ifpga_fme_hw *fme = mgr->data;
244 return fme_mgr_get_eth_group_info(fme, group_id, info);
247 static int ifpga_mgr_eth_group_reg_read(struct opae_manager *mgr, u8 group_id,
248 u8 type, u8 index, u16 addr, u32 *data)
250 struct ifpga_fme_hw *fme = mgr->data;
252 return fme_mgr_eth_group_read_reg(fme, group_id,
253 type, index, addr, data);
256 static int ifpga_mgr_eth_group_reg_write(struct opae_manager *mgr, u8 group_id,
257 u8 type, u8 index, u16 addr, u32 data)
259 struct ifpga_fme_hw *fme = mgr->data;
261 return fme_mgr_eth_group_write_reg(fme, group_id,
262 type, index, addr, data);
265 static int ifpga_mgr_get_retimer_info(struct opae_manager *mgr,
266 struct opae_retimer_info *info)
268 struct ifpga_fme_hw *fme = mgr->data;
270 return fme_mgr_get_retimer_info(fme, info);
273 static int ifpga_mgr_get_retimer_status(struct opae_manager *mgr,
274 struct opae_retimer_status *status)
276 struct ifpga_fme_hw *fme = mgr->data;
278 return fme_mgr_get_retimer_status(fme, status);
281 /* Network APIs in FME */
282 struct opae_manager_networking_ops ifpga_mgr_network_ops = {
283 .read_mac_rom = ifpga_mgr_read_mac_rom,
284 .write_mac_rom = ifpga_mgr_write_mac_rom,
285 .get_eth_group_nums = ifpga_mgr_get_eth_group_nums,
286 .get_eth_group_info = ifpga_mgr_get_eth_group_info,
287 .eth_group_reg_read = ifpga_mgr_eth_group_reg_read,
288 .eth_group_reg_write = ifpga_mgr_eth_group_reg_write,
289 .get_retimer_info = ifpga_mgr_get_retimer_info,
290 .get_retimer_status = ifpga_mgr_get_retimer_status,
294 static int ifpga_adapter_enumerate(struct opae_adapter *adapter)
296 struct ifpga_hw *hw = malloc(sizeof(*hw));
299 opae_memset(hw, 0, sizeof(*hw));
300 hw->pci_data = adapter->data;
301 hw->adapter = adapter;
302 if (ifpga_bus_enumerate(hw))
304 return ifpga_bus_init(hw);
311 struct opae_adapter_ops ifpga_adapter_ops = {
312 .enumerate = ifpga_adapter_enumerate,
316 * ifpga_pr - do the partial reconfiguration for a given port device
317 * @hw: pointer to the HW structure
318 * @port_id: the port device id
319 * @buffer: the buffer of the bitstream
320 * @size: the size of the bitstream
321 * @status: hardware status including PR error code if return -EIO.
324 * - 0: Success, partial reconfiguration finished.
325 * - <0: Error code returned in partial reconfiguration.
327 int ifpga_pr(struct ifpga_hw *hw, u32 port_id, void *buffer, u32 size,
330 if (!is_valid_port_id(hw, port_id))
333 return do_pr(hw, port_id, buffer, size, status);
336 int ifpga_get_prop(struct ifpga_hw *hw, u32 fiu_id, u32 port_id,
337 struct feature_prop *prop)
343 case FEATURE_FIU_ID_FME:
344 return fme_get_prop(&hw->fme, prop);
345 case FEATURE_FIU_ID_PORT:
346 if (!is_valid_port_id(hw, port_id))
348 return port_get_prop(&hw->port[port_id], prop);
354 int ifpga_set_prop(struct ifpga_hw *hw, u32 fiu_id, u32 port_id,
355 struct feature_prop *prop)
361 case FEATURE_FIU_ID_FME:
362 return fme_set_prop(&hw->fme, prop);
363 case FEATURE_FIU_ID_PORT:
364 if (!is_valid_port_id(hw, port_id))
366 return port_set_prop(&hw->port[port_id], prop);
372 int ifpga_set_irq(struct ifpga_hw *hw, u32 fiu_id, u32 port_id,
373 u32 feature_id, void *irq_set)
379 case FEATURE_FIU_ID_FME:
380 return fme_set_irq(&hw->fme, feature_id, irq_set);
381 case FEATURE_FIU_ID_PORT:
382 if (!is_valid_port_id(hw, port_id))
384 return port_set_irq(&hw->port[port_id], feature_id, irq_set);