1 /* SPDX-License-Identifier: BSD-3-Clause
2 * Copyright(c) 2018 Cavium, Inc
5 #ifndef _RTE_OCTEONTX_ZIP_VF_H_
6 #define _RTE_OCTEONTX_ZIP_VF_H_
10 #include <rte_bus_pci.h>
12 #include <rte_compressdev.h>
13 #include <rte_compressdev_pmd.h>
14 #include <rte_malloc.h>
15 #include <rte_memory.h>
16 #include <rte_spinlock.h>
20 extern int octtx_zip_logtype_driver;
22 /* ZIP VF Control/Status registers (CSRs): */
24 #define ZIP_VQ_ENA (0x10)
25 #define ZIP_VQ_SBUF_ADDR (0x20)
26 #define ZIP_VF_PF_MBOXX(x) (0x400 | (x)<<3)
27 #define ZIP_VQ_DOORBELL (0x1000)
30 #define PCI_VENDOR_ID_CAVIUM 0x177D
31 /**< PCI device id of ZIP VF */
32 #define PCI_DEVICE_ID_OCTEONTX_ZIPVF 0xA037
34 /* maxmum number of zip vf devices */
37 /* max size of one chunk */
38 #define ZIP_MAX_CHUNK_SIZE 8192
40 /* each instruction is fixed 128 bytes */
41 #define ZIP_CMD_SIZE 128
43 #define ZIP_CMD_SIZE_WORDS (ZIP_CMD_SIZE >> 3) /* 16 64_bit words */
45 /* size of next chunk buffer pointer */
46 #define ZIP_MAX_NCBP_SIZE 8
48 /* size of instruction queue in units of instruction size */
49 #define ZIP_MAX_NUM_CMDS ((ZIP_MAX_CHUNK_SIZE - ZIP_MAX_NCBP_SIZE) / \
50 ZIP_CMD_SIZE) /* 63 */
52 /* size of instruct queue in bytes */
53 #define ZIP_MAX_CMDQ_SIZE ((ZIP_MAX_NUM_CMDS * ZIP_CMD_SIZE) + \
54 ZIP_MAX_NCBP_SIZE)/* ~8072ull */
56 #define ZIP_BUF_SIZE 256
58 #define ZIP_SGPTR_ALIGN 16
59 #define ZIP_CMDQ_ALIGN 128
60 #define MAX_SG_LEN ((ZIP_BUF_SIZE - ZIP_SGPTR_ALIGN) / sizeof(void *))
62 /**< ZIP PMD specified queue pairs */
63 #define ZIP_MAX_VF_QUEUE 1
65 #define ZIP_ALIGN_ROUNDUP(x, _align) \
66 ((_align) * (((x) + (_align) - 1) / (_align)))
68 /**< ZIP PMD device name */
69 #define COMPRESSDEV_NAME_ZIP_PMD compress_octeonx
71 #define ZIP_PMD_LOG(level, fmt, args...) \
72 rte_log(RTE_LOG_ ## level, \
73 octtx_zip_logtype_driver, "%s(): "fmt "\n", \
76 #define ZIP_PMD_INFO(fmt, args...) \
77 ZIP_PMD_LOG(INFO, fmt, ## args)
78 #define ZIP_PMD_ERR(fmt, args...) \
79 ZIP_PMD_LOG(ERR, fmt, ## args)
81 /* resources required to process stream */
82 enum NUM_BUFS_PER_STREAM {
96 /* Algorithm handler function prototype */
97 typedef int (*comp_func_t)(struct rte_comp_op *op,
98 struct zipvf_qp *qp, struct zip_stream *zstrm);
101 * ZIP private stream structure
104 union zip_inst_s *inst;
105 /* zip instruction pointer */
107 /* function to process comp operation */
108 void *bufs[MAX_BUFS_PER_STREAM];
109 } __rte_cache_aligned;
113 * ZIP instruction Queue
116 rte_spinlock_t qlock;
119 /* pointer to start of 8-byte word length queue-head */
121 /* pointer to instruction queue virtual address */
123 /* iova addr of cmdq head*/
127 * ZIP device queue structure
130 struct zipvf_cmdq cmdq;
131 /* Hardware instruction queue structure */
132 struct rte_ring *processed_pkts;
133 /* Ring for placing processed packets */
134 struct rte_compressdev_stats qp_stats;
135 /* Queue pair statistics */
137 /* Queue Pair Identifier */
139 /* Unique Queue Pair Name */
141 /* pointer to device, queue belongs to */
142 } __rte_cache_aligned;
145 * ZIP VF device structure.
150 struct rte_pci_device *pdev;
153 /* CSR base address for underlying BAR0 VF.*/
155 /* Storing mbox domain and subdomain id for app rerun*/
156 uint32_t max_nb_queue_pairs;
157 /* pointer to device qps */
158 struct rte_mempool *zip_mp;
159 /* pointer to pools */
160 } __rte_cache_aligned;
164 zipvf_prepare_in_buf(struct zip_stream *zstrm, struct rte_comp_op *op)
166 uint32_t offset, inlen;
167 struct rte_mbuf *m_src;
168 union zip_inst_s *inst = zstrm->inst;
170 inlen = op->src.length;
171 offset = op->src.offset;
174 /* Prepare direct input data pointer */
176 inst->s.inp_ptr_addr.s.addr =
177 rte_pktmbuf_iova_offset(m_src, offset);
178 inst->s.inp_ptr_ctl.s.length = inlen;
182 zipvf_prepare_out_buf(struct zip_stream *zstrm, struct rte_comp_op *op)
185 struct rte_mbuf *m_dst;
186 union zip_inst_s *inst = zstrm->inst;
188 offset = op->dst.offset;
191 /* Prepare direct input data pointer */
193 inst->s.out_ptr_addr.s.addr =
194 rte_pktmbuf_iova_offset(m_dst, offset);
195 inst->s.totaloutputlength = rte_pktmbuf_pkt_len(m_dst) -
197 inst->s.out_ptr_ctl.s.length = inst->s.totaloutputlength;
201 zipvf_prepare_cmd_stateless(struct rte_comp_op *op, struct zip_stream *zstrm)
203 union zip_inst_s *inst = zstrm->inst;
205 /* set flush flag to always 1*/
208 if (inst->s.op == ZIP_OP_E_DECOMP)
213 /* Set input checksum */
214 inst->s.adlercrc32 = op->input_chksum;
216 /* Prepare gather buffers */
217 zipvf_prepare_in_buf(zstrm, op);
218 zipvf_prepare_out_buf(zstrm, op);
223 zip_dump_instruction(void *inst)
225 union zip_inst_s *cmd83 = (union zip_inst_s *)inst;
226 printf("####### START ########\n");
227 printf("doneint:%d totaloutputlength:%d\n", cmd83->s.doneint,
228 cmd83->s.totaloutputlength);
229 printf("exnum:%d iv:%d exbits:%d hmif:%d halg:%d\n", cmd83->s.exn,
230 cmd83->s.iv, cmd83->s.exbits, cmd83->s.hmif, cmd83->s.halg);
231 printf("flush:%d speed:%d cc:%d\n", cmd83->s.sf,
232 cmd83->s.ss, cmd83->s.cc);
233 printf("eof:%d bof:%d op:%d dscatter:%d dgather:%d hgather:%d\n",
234 cmd83->s.ef, cmd83->s.bf, cmd83->s.op, cmd83->s.ds,
235 cmd83->s.dg, cmd83->s.hg);
236 printf("historylength:%d adler32:%d\n", cmd83->s.historylength,
237 cmd83->s.adlercrc32);
238 printf("ctx_ptr.addr:0x%"PRIx64"\n", cmd83->s.ctx_ptr_addr.s.addr);
239 printf("ctx_ptr.len:%d\n", cmd83->s.ctx_ptr_ctl.s.length);
240 printf("history_ptr.addr:0x%"PRIx64"\n", cmd83->s.his_ptr_addr.s.addr);
241 printf("history_ptr.len:%d\n", cmd83->s.his_ptr_ctl.s.length);
242 printf("inp_ptr.addr:0x%"PRIx64"\n", cmd83->s.inp_ptr_addr.s.addr);
243 printf("inp_ptr.len:%d\n", cmd83->s.inp_ptr_ctl.s.length);
244 printf("out_ptr.addr:0x%"PRIx64"\n", cmd83->s.out_ptr_addr.s.addr);
245 printf("out_ptr.len:%d\n", cmd83->s.out_ptr_ctl.s.length);
246 printf("result_ptr.len:%d\n", cmd83->s.res_ptr_ctl.s.length);
247 printf("####### END ########\n");
252 zipvf_create(struct rte_compressdev *compressdev);
255 zipvf_destroy(struct rte_compressdev *compressdev);
258 zipvf_q_init(struct zipvf_qp *qp);
261 zipvf_q_term(struct zipvf_qp *qp);
264 zipvf_push_command(struct zipvf_qp *qp, union zip_inst_s *zcmd);
267 zip_process_op(struct rte_comp_op *op,
269 struct zip_stream *zstrm);
272 zip_reg_read64(uint8_t *hw_addr, uint64_t offset);
275 zip_reg_write64(uint8_t *hw_addr, uint64_t offset, uint64_t val);
277 #endif /* _RTE_ZIP_VF_H_ */