+
+/*
+ * Pipeline compilation.
+ */
+static const char *
+instr_type_to_name(struct instruction *instr)
+{
+ switch (instr->type) {
+ case INSTR_RX: return "INSTR_RX";
+
+ case INSTR_TX: return "INSTR_TX";
+ case INSTR_TX_I: return "INSTR_TX_I";
+
+ case INSTR_HDR_EXTRACT: return "INSTR_HDR_EXTRACT";
+ case INSTR_HDR_EXTRACT2: return "INSTR_HDR_EXTRACT2";
+ case INSTR_HDR_EXTRACT3: return "INSTR_HDR_EXTRACT3";
+ case INSTR_HDR_EXTRACT4: return "INSTR_HDR_EXTRACT4";
+ case INSTR_HDR_EXTRACT5: return "INSTR_HDR_EXTRACT5";
+ case INSTR_HDR_EXTRACT6: return "INSTR_HDR_EXTRACT6";
+ case INSTR_HDR_EXTRACT7: return "INSTR_HDR_EXTRACT7";
+ case INSTR_HDR_EXTRACT8: return "INSTR_HDR_EXTRACT8";
+
+ case INSTR_HDR_EXTRACT_M: return "INSTR_HDR_EXTRACT_M";
+
+ case INSTR_HDR_LOOKAHEAD: return "INSTR_HDR_LOOKAHEAD";
+
+ case INSTR_HDR_EMIT: return "INSTR_HDR_EMIT";
+ case INSTR_HDR_EMIT_TX: return "INSTR_HDR_EMIT_TX";
+ case INSTR_HDR_EMIT2_TX: return "INSTR_HDR_EMIT2_TX";
+ case INSTR_HDR_EMIT3_TX: return "INSTR_HDR_EMIT3_TX";
+ case INSTR_HDR_EMIT4_TX: return "INSTR_HDR_EMIT4_TX";
+ case INSTR_HDR_EMIT5_TX: return "INSTR_HDR_EMIT5_TX";
+ case INSTR_HDR_EMIT6_TX: return "INSTR_HDR_EMIT6_TX";
+ case INSTR_HDR_EMIT7_TX: return "INSTR_HDR_EMIT7_TX";
+ case INSTR_HDR_EMIT8_TX: return "INSTR_HDR_EMIT8_TX";
+
+ case INSTR_HDR_VALIDATE: return "INSTR_HDR_VALIDATE";
+ case INSTR_HDR_INVALIDATE: return "INSTR_HDR_INVALIDATE";
+
+ case INSTR_MOV: return "INSTR_MOV";
+ case INSTR_MOV_MH: return "INSTR_MOV_MH";
+ case INSTR_MOV_HM: return "INSTR_MOV_HM";
+ case INSTR_MOV_HH: return "INSTR_MOV_HH";
+ case INSTR_MOV_I: return "INSTR_MOV_I";
+
+ case INSTR_DMA_HT: return "INSTR_DMA_HT";
+ case INSTR_DMA_HT2: return "INSTR_DMA_HT2";
+ case INSTR_DMA_HT3: return "INSTR_DMA_HT3";
+ case INSTR_DMA_HT4: return "INSTR_DMA_HT4";
+ case INSTR_DMA_HT5: return "INSTR_DMA_HT5";
+ case INSTR_DMA_HT6: return "INSTR_DMA_HT6";
+ case INSTR_DMA_HT7: return "INSTR_DMA_HT7";
+ case INSTR_DMA_HT8: return "INSTR_DMA_HT8";
+
+ case INSTR_ALU_ADD: return "INSTR_ALU_ADD";
+ case INSTR_ALU_ADD_MH: return "INSTR_ALU_ADD_MH";
+ case INSTR_ALU_ADD_HM: return "INSTR_ALU_ADD_HM";
+ case INSTR_ALU_ADD_HH: return "INSTR_ALU_ADD_HH";
+ case INSTR_ALU_ADD_MI: return "INSTR_ALU_ADD_MI";
+ case INSTR_ALU_ADD_HI: return "INSTR_ALU_ADD_HI";
+
+ case INSTR_ALU_SUB: return "INSTR_ALU_SUB";
+ case INSTR_ALU_SUB_MH: return "INSTR_ALU_SUB_MH";
+ case INSTR_ALU_SUB_HM: return "INSTR_ALU_SUB_HM";
+ case INSTR_ALU_SUB_HH: return "INSTR_ALU_SUB_HH";
+ case INSTR_ALU_SUB_MI: return "INSTR_ALU_SUB_MI";
+ case INSTR_ALU_SUB_HI: return "INSTR_ALU_SUB_HI";
+
+ case INSTR_ALU_CKADD_FIELD: return "INSTR_ALU_CKADD_FIELD";
+ case INSTR_ALU_CKADD_STRUCT20: return "INSTR_ALU_CKADD_STRUCT20";
+ case INSTR_ALU_CKADD_STRUCT: return "INSTR_ALU_CKADD_STRUCT";
+ case INSTR_ALU_CKSUB_FIELD: return "INSTR_ALU_CKSUB_FIELD";
+
+ case INSTR_ALU_AND: return "INSTR_ALU_AND";
+ case INSTR_ALU_AND_MH: return "INSTR_ALU_AND_MH";
+ case INSTR_ALU_AND_HM: return "INSTR_ALU_AND_HM";
+ case INSTR_ALU_AND_HH: return "INSTR_ALU_AND_HH";
+ case INSTR_ALU_AND_I: return "INSTR_ALU_AND_I";
+
+ case INSTR_ALU_OR: return "INSTR_ALU_OR";
+ case INSTR_ALU_OR_MH: return "INSTR_ALU_OR_MH";
+ case INSTR_ALU_OR_HM: return "INSTR_ALU_OR_HM";
+ case INSTR_ALU_OR_HH: return "INSTR_ALU_OR_HH";
+ case INSTR_ALU_OR_I: return "INSTR_ALU_OR_I";
+
+ case INSTR_ALU_XOR: return "INSTR_ALU_XOR";
+ case INSTR_ALU_XOR_MH: return "INSTR_ALU_XOR_MH";
+ case INSTR_ALU_XOR_HM: return "INSTR_ALU_XOR_HM";
+ case INSTR_ALU_XOR_HH: return "INSTR_ALU_XOR_HH";
+ case INSTR_ALU_XOR_I: return "INSTR_ALU_XOR_I";
+
+ case INSTR_ALU_SHL: return "INSTR_ALU_SHL";
+ case INSTR_ALU_SHL_MH: return "INSTR_ALU_SHL_MH";
+ case INSTR_ALU_SHL_HM: return "INSTR_ALU_SHL_HM";
+ case INSTR_ALU_SHL_HH: return "INSTR_ALU_SHL_HH";
+ case INSTR_ALU_SHL_MI: return "INSTR_ALU_SHL_MI";
+ case INSTR_ALU_SHL_HI: return "INSTR_ALU_SHL_HI";
+
+ case INSTR_ALU_SHR: return "INSTR_ALU_SHR";
+ case INSTR_ALU_SHR_MH: return "INSTR_ALU_SHR_MH";
+ case INSTR_ALU_SHR_HM: return "INSTR_ALU_SHR_HM";
+ case INSTR_ALU_SHR_HH: return "INSTR_ALU_SHR_HH";
+ case INSTR_ALU_SHR_MI: return "INSTR_ALU_SHR_MI";
+ case INSTR_ALU_SHR_HI: return "INSTR_ALU_SHR_HI";
+
+ case INSTR_REGPREFETCH_RH: return "INSTR_REGPREFETCH_RH";
+ case INSTR_REGPREFETCH_RM: return "INSTR_REGPREFETCH_RM";
+ case INSTR_REGPREFETCH_RI: return "INSTR_REGPREFETCH_RI";
+
+ case INSTR_REGRD_HRH: return "INSTR_REGRD_HRH";
+ case INSTR_REGRD_HRM: return "INSTR_REGRD_HRM";
+ case INSTR_REGRD_HRI: return "INSTR_REGRD_HRI";
+ case INSTR_REGRD_MRH: return "INSTR_REGRD_MRH";
+ case INSTR_REGRD_MRM: return "INSTR_REGRD_MRM";
+ case INSTR_REGRD_MRI: return "INSTR_REGRD_MRI";
+
+ case INSTR_REGWR_RHH: return "INSTR_REGWR_RHH";
+ case INSTR_REGWR_RHM: return "INSTR_REGWR_RHM";
+ case INSTR_REGWR_RHI: return "INSTR_REGWR_RHI";
+ case INSTR_REGWR_RMH: return "INSTR_REGWR_RMH";
+ case INSTR_REGWR_RMM: return "INSTR_REGWR_RMM";
+ case INSTR_REGWR_RMI: return "INSTR_REGWR_RMI";
+ case INSTR_REGWR_RIH: return "INSTR_REGWR_RIH";
+ case INSTR_REGWR_RIM: return "INSTR_REGWR_RIM";
+ case INSTR_REGWR_RII: return "INSTR_REGWR_RII";
+
+ case INSTR_REGADD_RHH: return "INSTR_REGADD_RHH";
+ case INSTR_REGADD_RHM: return "INSTR_REGADD_RHM";
+ case INSTR_REGADD_RHI: return "INSTR_REGADD_RHI";
+ case INSTR_REGADD_RMH: return "INSTR_REGADD_RMH";
+ case INSTR_REGADD_RMM: return "INSTR_REGADD_RMM";
+ case INSTR_REGADD_RMI: return "INSTR_REGADD_RMI";
+ case INSTR_REGADD_RIH: return "INSTR_REGADD_RIH";
+ case INSTR_REGADD_RIM: return "INSTR_REGADD_RIM";
+ case INSTR_REGADD_RII: return "INSTR_REGADD_RII";
+
+ case INSTR_METPREFETCH_H: return "INSTR_METPREFETCH_H";
+ case INSTR_METPREFETCH_M: return "INSTR_METPREFETCH_M";
+ case INSTR_METPREFETCH_I: return "INSTR_METPREFETCH_I";
+
+ case INSTR_METER_HHM: return "INSTR_METER_HHM";
+ case INSTR_METER_HHI: return "INSTR_METER_HHI";
+ case INSTR_METER_HMM: return "INSTR_METER_HMM";
+ case INSTR_METER_HMI: return "INSTR_METER_HMI";
+ case INSTR_METER_MHM: return "INSTR_METER_MHM";
+ case INSTR_METER_MHI: return "INSTR_METER_MHI";
+ case INSTR_METER_MMM: return "INSTR_METER_MMM";
+ case INSTR_METER_MMI: return "INSTR_METER_MMI";
+ case INSTR_METER_IHM: return "INSTR_METER_IHM";
+ case INSTR_METER_IHI: return "INSTR_METER_IHI";
+ case INSTR_METER_IMM: return "INSTR_METER_IMM";
+ case INSTR_METER_IMI: return "INSTR_METER_IMI";
+
+ case INSTR_TABLE: return "INSTR_TABLE";
+ case INSTR_TABLE_AF: return "INSTR_TABLE_AF";
+ case INSTR_SELECTOR: return "INSTR_SELECTOR";
+ case INSTR_LEARNER: return "INSTR_LEARNER";
+ case INSTR_LEARNER_AF: return "INSTR_LEARNER_AF";
+
+ case INSTR_LEARNER_LEARN: return "INSTR_LEARNER_LEARN";
+ case INSTR_LEARNER_FORGET: return "INSTR_LEARNER_FORGET";
+
+ case INSTR_EXTERN_OBJ: return "INSTR_EXTERN_OBJ";
+ case INSTR_EXTERN_FUNC: return "INSTR_EXTERN_FUNC";
+
+ case INSTR_JMP: return "INSTR_JMP";
+ case INSTR_JMP_VALID: return "INSTR_JMP_VALID";
+ case INSTR_JMP_INVALID: return "INSTR_JMP_INVALID";
+ case INSTR_JMP_HIT: return "INSTR_JMP_HIT";
+ case INSTR_JMP_MISS: return "INSTR_JMP_MISS";
+ case INSTR_JMP_ACTION_HIT: return "INSTR_JMP_ACTION_HIT";
+ case INSTR_JMP_ACTION_MISS: return "INSTR_JMP_ACTION_MISS";
+ case INSTR_JMP_EQ: return "INSTR_JMP_EQ";
+ case INSTR_JMP_EQ_MH: return "INSTR_JMP_EQ_MH";
+ case INSTR_JMP_EQ_HM: return "INSTR_JMP_EQ_HM";
+ case INSTR_JMP_EQ_HH: return "INSTR_JMP_EQ_HH";
+ case INSTR_JMP_EQ_I: return "INSTR_JMP_EQ_I";
+ case INSTR_JMP_NEQ: return "INSTR_JMP_NEQ";
+ case INSTR_JMP_NEQ_MH: return "INSTR_JMP_NEQ_MH";
+ case INSTR_JMP_NEQ_HM: return "INSTR_JMP_NEQ_HM";
+ case INSTR_JMP_NEQ_HH: return "INSTR_JMP_NEQ_HH";
+ case INSTR_JMP_NEQ_I: return "INSTR_JMP_NEQ_I";
+ case INSTR_JMP_LT: return "INSTR_JMP_LT";
+ case INSTR_JMP_LT_MH: return "INSTR_JMP_LT_MH";
+ case INSTR_JMP_LT_HM: return "INSTR_JMP_LT_HM";
+ case INSTR_JMP_LT_HH: return "INSTR_JMP_LT_HH";
+ case INSTR_JMP_LT_MI: return "INSTR_JMP_LT_MI";
+ case INSTR_JMP_LT_HI: return "INSTR_JMP_LT_HI";
+ case INSTR_JMP_GT: return "INSTR_JMP_GT";
+ case INSTR_JMP_GT_MH: return "INSTR_JMP_GT_MH";
+ case INSTR_JMP_GT_HM: return "INSTR_JMP_GT_HM";
+ case INSTR_JMP_GT_HH: return "INSTR_JMP_GT_HH";
+ case INSTR_JMP_GT_MI: return "INSTR_JMP_GT_MI";
+ case INSTR_JMP_GT_HI: return "INSTR_JMP_GT_HI";
+
+ case INSTR_RETURN: return "INSTR_RETURN";
+
+ default: return "INSTR_UNKNOWN";
+ }
+}
+
+typedef void
+(*instruction_export_t)(struct instruction *, FILE *);
+
+static void
+instr_io_export(struct instruction *instr, FILE *f)
+{
+ uint32_t n_io = 0, n_io_imm = 0, n_hdrs = 0, i;
+
+ /* n_io, n_io_imm, n_hdrs. */
+ if (instr->type == INSTR_RX ||
+ instr->type == INSTR_TX ||
+ instr->type == INSTR_HDR_EXTRACT_M ||
+ (instr->type >= INSTR_HDR_EMIT_TX && instr->type <= INSTR_HDR_EMIT8_TX))
+ n_io = 1;
+
+ if (instr->type == INSTR_TX_I)
+ n_io_imm = 1;
+
+ if (instr->type >= INSTR_HDR_EXTRACT && instr->type <= INSTR_HDR_EXTRACT8)
+ n_hdrs = 1 + (instr->type - INSTR_HDR_EXTRACT);
+
+ if (instr->type == INSTR_HDR_EXTRACT_M ||
+ instr->type == INSTR_HDR_LOOKAHEAD ||
+ instr->type == INSTR_HDR_EMIT)
+ n_hdrs = 1;
+
+ if (instr->type >= INSTR_HDR_EMIT_TX && instr->type <= INSTR_HDR_EMIT8_TX)
+ n_hdrs = 1 + (instr->type - INSTR_HDR_EMIT_TX);
+
+ /* instr. */
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n",
+ instr_type_to_name(instr));
+
+ /* instr.io. */
+ fprintf(f,
+ "\t\t.io = {\n");
+
+ /* instr.io.io. */
+ if (n_io)
+ fprintf(f,
+ "\t\t\t.io = {\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t},\n",
+ instr->io.io.offset,
+ instr->io.io.n_bits);
+
+ if (n_io_imm)
+ fprintf(f,
+ "\t\t\t.io = {\n"
+ "\t\t\t\t.val = %u,\n"
+ "\t\t\t},\n",
+ instr->io.io.val);
+
+ /* instr.io.hdr. */
+ if (n_hdrs) {
+ fprintf(f,
+ "\t\t.hdr = {\n");
+
+ /* instr.io.hdr.header_id. */
+ fprintf(f,
+ "\t\t\t.header_id = {");
+
+ for (i = 0; i < n_hdrs; i++)
+ fprintf(f,
+ "%u, ",
+ instr->io.hdr.header_id[i]);
+
+ fprintf(f,
+ "},\n");
+
+ /* instr.io.hdr.struct_id. */
+ fprintf(f,
+ "\t\t\t.struct_id = {");
+
+ for (i = 0; i < n_hdrs; i++)
+ fprintf(f,
+ "%u, ",
+ instr->io.hdr.struct_id[i]);
+
+ fprintf(f,
+ "},\n");
+
+ /* instr.io.hdr.n_bytes. */
+ fprintf(f,
+ "\t\t\t.n_bytes = {");
+
+ for (i = 0; i < n_hdrs; i++)
+ fprintf(f,
+ "%u, ",
+ instr->io.hdr.n_bytes[i]);
+
+ fprintf(f,
+ "},\n");
+
+ /* instr.io.hdr - closing curly brace. */
+ fprintf(f,
+ "\t\t\t}\n,");
+ }
+
+ /* instr.io - closing curly brace. */
+ fprintf(f,
+ "\t\t},\n");
+
+ /* instr - closing curly brace. */
+ fprintf(f,
+ "\t},\n");
+}
+
+static void
+instr_hdr_validate_export(struct instruction *instr, FILE *f)
+{
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t\t.valid = {\n"
+ "\t\t\t.header_id = %u,\n"
+ "\t\t},\n"
+ "\t},\n",
+ instr_type_to_name(instr),
+ instr->valid.header_id);
+}
+
+static void
+instr_mov_export(struct instruction *instr, FILE *f)
+{
+ if (instr->type != INSTR_MOV_I)
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t\t.mov = {\n"
+ "\t\t\t.dst = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t},\n"
+ "\t\t\t.src = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t},\n"
+ "\t\t},\n"
+ "\t},\n",
+ instr_type_to_name(instr),
+ instr->mov.dst.struct_id,
+ instr->mov.dst.n_bits,
+ instr->mov.dst.offset,
+ instr->mov.src.struct_id,
+ instr->mov.src.n_bits,
+ instr->mov.src.offset);
+ else
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t\t.mov = {\n"
+ "\t\t\t.dst = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t}\n,"
+ "\t\t\t.src_val = %" PRIu64 ",\n"
+ "\t\t},\n"
+ "\t},\n",
+ instr_type_to_name(instr),
+ instr->mov.dst.struct_id,
+ instr->mov.dst.n_bits,
+ instr->mov.dst.offset,
+ instr->mov.src_val);
+}
+
+static void
+instr_dma_ht_export(struct instruction *instr, FILE *f)
+{
+ uint32_t n_dma = 0, i;
+
+ /* n_dma. */
+ n_dma = 1 + (instr->type - INSTR_DMA_HT);
+
+ /* instr. */
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n",
+ instr_type_to_name(instr));
+
+ /* instr.dma. */
+ fprintf(f,
+ "\t\t.dma = {\n");
+
+ /* instr.dma.dst. */
+ fprintf(f,
+ "\t\t\t.dst = {\n");
+
+ /* instr.dma.dst.header_id. */
+ fprintf(f,
+ "\t\t\t\t.header_id = {");
+
+ for (i = 0; i < n_dma; i++)
+ fprintf(f,
+ "%u, ",
+ instr->dma.dst.header_id[i]);
+
+ fprintf(f,
+ "},\n");
+
+ /* instr.dma.dst.struct_id. */
+ fprintf(f,
+ "\t\t\t\t.struct_id = {");
+
+ for (i = 0; i < n_dma; i++)
+ fprintf(f,
+ "%u, ",
+ instr->dma.dst.struct_id[i]);
+
+ fprintf(f,
+ "},\n");
+
+ /* instr.dma.dst - closing curly brace. */
+ fprintf(f,
+ "\t\t\t},\n");
+
+ /* instr.dma.src. */
+ fprintf(f,
+ "\t\t\t.src = {\n");
+
+ /* instr.dma.src.offset. */
+ fprintf(f,
+ "\t\t\t\t.offset = {");
+
+ for (i = 0; i < n_dma; i++)
+ fprintf(f,
+ "%u, ",
+ instr->dma.src.offset[i]);
+
+ fprintf(f,
+ "},\n");
+
+ /* instr.dma.src - closing curly brace. */
+ fprintf(f,
+ "\t\t\t},\n");
+
+ /* instr.dma.n_bytes. */
+ fprintf(f,
+ "\t\t\t.n_bytes = {");
+
+ for (i = 0; i < n_dma; i++)
+ fprintf(f,
+ "%u, ",
+ instr->dma.n_bytes[i]);
+
+ fprintf(f,
+ "},\n");
+
+ /* instr.dma - closing curly brace. */
+ fprintf(f,
+ "\t\t},\n");
+
+ /* instr - closing curly brace. */
+ fprintf(f,
+ "\t},\n");
+}
+
+static void
+instr_alu_export(struct instruction *instr, FILE *f)
+{
+ int imm = 0;
+
+ if (instr->type == INSTR_ALU_ADD_MI ||
+ instr->type == INSTR_ALU_ADD_HI ||
+ instr->type == INSTR_ALU_SUB_MI ||
+ instr->type == INSTR_ALU_SUB_HI ||
+ instr->type == INSTR_ALU_SHL_MI ||
+ instr->type == INSTR_ALU_SHL_HI ||
+ instr->type == INSTR_ALU_SHR_MI ||
+ instr->type == INSTR_ALU_SHR_HI ||
+ instr->type == INSTR_ALU_AND_I ||
+ instr->type == INSTR_ALU_OR_I ||
+ instr->type == INSTR_ALU_XOR_I)
+ imm = 1;
+
+ if (!imm)
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t\t.alu = {\n"
+ "\t\t\t.dst = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t},\n"
+ "\t\t\t.src = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t},\n"
+ "\t\t},\n"
+ "\t},\n",
+ instr_type_to_name(instr),
+ instr->alu.dst.struct_id,
+ instr->alu.dst.n_bits,
+ instr->alu.dst.offset,
+ instr->alu.src.struct_id,
+ instr->alu.src.n_bits,
+ instr->alu.src.offset);
+ else
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t\t.alu = {\n"
+ "\t\t\t.dst = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t}\n,"
+ "\t\t\t.src_val = %" PRIu64 ",\n"
+ "\t\t},\n"
+ "\t},\n",
+ instr_type_to_name(instr),
+ instr->alu.dst.struct_id,
+ instr->alu.dst.n_bits,
+ instr->alu.dst.offset,
+ instr->alu.src_val);
+}
+
+static void
+instr_reg_export(struct instruction *instr __rte_unused, FILE *f __rte_unused)
+{
+ int prefetch = 0, idx_imm = 0, src_imm = 0;
+
+ if (instr->type == INSTR_REGPREFETCH_RH ||
+ instr->type == INSTR_REGPREFETCH_RM ||
+ instr->type == INSTR_REGPREFETCH_RI)
+ prefetch = 1;
+
+ /* index is the 3rd operand for the regrd instruction and the 2nd
+ * operand for the regwr and regadd instructions.
+ */
+ if (instr->type == INSTR_REGPREFETCH_RI ||
+ instr->type == INSTR_REGRD_HRI ||
+ instr->type == INSTR_REGRD_MRI ||
+ instr->type == INSTR_REGWR_RIH ||
+ instr->type == INSTR_REGWR_RIM ||
+ instr->type == INSTR_REGWR_RII ||
+ instr->type == INSTR_REGADD_RIH ||
+ instr->type == INSTR_REGADD_RIM ||
+ instr->type == INSTR_REGADD_RII)
+ idx_imm = 1;
+
+ /* src is the 3rd operand for the regwr and regadd instructions. */
+ if (instr->type == INSTR_REGWR_RHI ||
+ instr->type == INSTR_REGWR_RMI ||
+ instr->type == INSTR_REGWR_RII ||
+ instr->type == INSTR_REGADD_RHI ||
+ instr->type == INSTR_REGADD_RMI ||
+ instr->type == INSTR_REGADD_RII)
+ src_imm = 1;
+
+ /* instr.regarray.regarray_id. */
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t\t.regarray = {\n"
+ "\t\t\t.regarray_id = %u,\n",
+ instr_type_to_name(instr),
+ instr->regarray.regarray_id);
+
+ /* instr.regarray.idx / instr.regarray.idx_val. */
+ if (!idx_imm)
+ fprintf(f,
+ "\t\t\t\t.idx = {\n"
+ "\t\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t\t.offset = %u,\n"
+ "\t\t\t\t},\n",
+ instr->regarray.idx.struct_id,
+ instr->regarray.idx.n_bits,
+ instr->regarray.idx.offset);
+ else
+ fprintf(f,
+ "\t\t\t\t.idx_val = %u,\n",
+ instr->regarray.idx_val);
+
+ /* instr.regarray.dstsrc / instr.regarray.dstsrc_val. */
+ if (!prefetch) {
+ if (!src_imm)
+ fprintf(f,
+ "\t\t\t\t.dstsrc = {\n"
+ "\t\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t\t.offset = %u,\n"
+ "\t\t\t\t},\n",
+ instr->regarray.dstsrc.struct_id,
+ instr->regarray.dstsrc.n_bits,
+ instr->regarray.dstsrc.offset);
+ else
+ fprintf(f,
+ "\t\t\t\t.dstsrc_val = %" PRIu64 ",\n",
+ instr->regarray.dstsrc_val);
+ }
+
+ /* instr.regarray and instr - closing curly braces. */
+ fprintf(f,
+ "\t\t},\n"
+ "\t},\n");
+}
+
+static void
+instr_meter_export(struct instruction *instr __rte_unused, FILE *f __rte_unused)
+{
+ int prefetch = 0, idx_imm = 0, color_in_imm = 0;
+
+ if (instr->type == INSTR_METPREFETCH_H ||
+ instr->type == INSTR_METPREFETCH_M ||
+ instr->type == INSTR_METPREFETCH_I)
+ prefetch = 1;
+
+ /* idx_imm. */
+ if (instr->type == INSTR_METPREFETCH_I ||
+ instr->type == INSTR_METER_IHM ||
+ instr->type == INSTR_METER_IHI ||
+ instr->type == INSTR_METER_IMM ||
+ instr->type == INSTR_METER_IMI)
+ idx_imm = 1;
+
+ /* color_in_imm. */
+ if (instr->type == INSTR_METER_HHI ||
+ instr->type == INSTR_METER_HMI ||
+ instr->type == INSTR_METER_MHI ||
+ instr->type == INSTR_METER_MMI ||
+ instr->type == INSTR_METER_IHI ||
+ instr->type == INSTR_METER_IMI)
+ color_in_imm = 1;
+
+ /* instr.meter.metarray_id. */
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t\t.meter = {\n"
+ "\t\t\t.metarray_id = %u,\n",
+ instr_type_to_name(instr),
+ instr->meter.metarray_id);
+
+ /* instr.meter.idx / instr.meter.idx_val. */
+ if (!idx_imm)
+ fprintf(f,
+ "\t\t\t.idx = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t},\n",
+ instr->meter.idx.struct_id,
+ instr->meter.idx.n_bits,
+ instr->meter.idx.offset);
+ else
+ fprintf(f,
+ "\t\t\t.idx_val = %u,\n",
+ instr->meter.idx_val);
+
+ if (!prefetch) {
+ /* instr.meter.length. */
+ fprintf(f,
+ "\t\t\t.length = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t},\n",
+ instr->meter.length.struct_id,
+ instr->meter.length.n_bits,
+ instr->meter.length.offset);
+
+ /* instr.meter.color_in / instr.meter.color_in_val. */
+ if (!color_in_imm)
+ fprintf(f,
+ "\t\t\t.color_in = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t},\n",
+ instr->meter.color_in.struct_id,
+ instr->meter.color_in.n_bits,
+ instr->meter.color_in.offset);
+ else
+ fprintf(f,
+ "\t\t\t.color_in_val = %u,\n",
+ (uint32_t)instr->meter.color_in_val);
+
+ /* instr.meter.color_out. */
+ fprintf(f,
+ "\t\t\t.color_out = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t},\n",
+ instr->meter.color_out.struct_id,
+ instr->meter.color_out.n_bits,
+ instr->meter.color_out.offset);
+ }
+
+ /* instr.meter and instr - closing curly braces. */
+ fprintf(f,
+ "\t\t},\n"
+ "\t},\n");
+}
+
+static void
+instr_table_export(struct instruction *instr,
+ FILE *f)
+{
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t\t.table = {\n"
+ "\t\t\t.table_id = %u,\n"
+ "\t\t},\n"
+ "\t},\n",
+ instr_type_to_name(instr),
+ instr->table.table_id);
+}
+
+static void
+instr_learn_export(struct instruction *instr, FILE *f)
+{
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t\t.learn = {\n"
+ "\t\t\t\t.action_id = %u,\n"
+ "\t\t},\n"
+ "\t},\n",
+ instr_type_to_name(instr),
+ instr->learn.action_id);
+}
+
+static void
+instr_forget_export(struct instruction *instr, FILE *f)
+{
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t},\n",
+ instr_type_to_name(instr));
+}
+
+static void
+instr_extern_export(struct instruction *instr, FILE *f)
+{
+ if (instr->type == INSTR_EXTERN_OBJ)
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t\t.ext_obj = {\n"
+ "\t\t\t.ext_obj_id = %u,\n"
+ "\t\t\t.func_id = %u,\n"
+ "\t\t},\n"
+ "\t},\n",
+ instr_type_to_name(instr),
+ instr->ext_obj.ext_obj_id,
+ instr->ext_obj.func_id);
+ else
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t\t.ext_func = {\n"
+ "\t\t\t.ext_func_id = %u,\n"
+ "\t\t},\n"
+ "\t},\n",
+ instr_type_to_name(instr),
+ instr->ext_func.ext_func_id);
+}
+
+static void
+instr_jmp_export(struct instruction *instr, FILE *f __rte_unused)
+{
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n"
+ "\t\t.jmp = {\n"
+ "\t\t\t.ip = NULL,\n",
+ instr_type_to_name(instr));
+
+ switch (instr->type) {
+ case INSTR_JMP_VALID:
+ case INSTR_JMP_INVALID:
+ fprintf(f,
+ "\t\t\t.header_id = %u,\n",
+ instr->jmp.header_id);
+ break;
+
+ case INSTR_JMP_ACTION_HIT:
+ case INSTR_JMP_ACTION_MISS:
+ fprintf(f,
+ "\t\t\t.action_id = %u,\n",
+ instr->jmp.action_id);
+ break;
+
+ case INSTR_JMP_EQ:
+ case INSTR_JMP_EQ_MH:
+ case INSTR_JMP_EQ_HM:
+ case INSTR_JMP_EQ_HH:
+ case INSTR_JMP_NEQ:
+ case INSTR_JMP_NEQ_MH:
+ case INSTR_JMP_NEQ_HM:
+ case INSTR_JMP_NEQ_HH:
+ case INSTR_JMP_LT:
+ case INSTR_JMP_LT_MH:
+ case INSTR_JMP_LT_HM:
+ case INSTR_JMP_LT_HH:
+ case INSTR_JMP_GT:
+ case INSTR_JMP_GT_MH:
+ case INSTR_JMP_GT_HM:
+ case INSTR_JMP_GT_HH:
+ fprintf(f,
+ "\t\t\t.a = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t},\n"
+ "\t\t\t.b = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t},\n",
+ instr->jmp.a.struct_id,
+ instr->jmp.a.n_bits,
+ instr->jmp.a.offset,
+ instr->jmp.b.struct_id,
+ instr->jmp.b.n_bits,
+ instr->jmp.b.offset);
+ break;
+
+ case INSTR_JMP_EQ_I:
+ case INSTR_JMP_NEQ_I:
+ case INSTR_JMP_LT_MI:
+ case INSTR_JMP_LT_HI:
+ case INSTR_JMP_GT_MI:
+ case INSTR_JMP_GT_HI:
+ fprintf(f,
+ "\t\t\t.a = {\n"
+ "\t\t\t\t.struct_id = %u,\n"
+ "\t\t\t\t.n_bits = %u,\n"
+ "\t\t\t\t.offset = %u,\n"
+ "\t\t\t}\n,"
+ "\t\t\t.b_val = %" PRIu64 ",\n",
+ instr->jmp.a.struct_id,
+ instr->jmp.a.n_bits,
+ instr->jmp.a.offset,
+ instr->jmp.b_val);
+ break;
+
+ default:
+ break;
+ }
+
+ fprintf(f,
+ "\t\t},\n"
+ "\t},\n");
+}
+
+static void
+instr_return_export(struct instruction *instr,
+ FILE *f)
+{
+ fprintf(f,
+ "\t{\n"
+ "\t\t.type = %s,\n",
+ instr_type_to_name(instr));
+
+ fprintf(f,
+ "\t},\n");
+}
+
+static instruction_export_t export_table[] = {
+ [INSTR_RX] = instr_io_export,
+
+ [INSTR_TX] = instr_io_export,
+ [INSTR_TX_I] = instr_io_export,
+
+ [INSTR_HDR_EXTRACT] = instr_io_export,
+ [INSTR_HDR_EXTRACT2] = instr_io_export,
+ [INSTR_HDR_EXTRACT3] = instr_io_export,
+ [INSTR_HDR_EXTRACT4] = instr_io_export,
+ [INSTR_HDR_EXTRACT5] = instr_io_export,
+ [INSTR_HDR_EXTRACT6] = instr_io_export,
+ [INSTR_HDR_EXTRACT7] = instr_io_export,
+ [INSTR_HDR_EXTRACT8] = instr_io_export,
+
+ [INSTR_HDR_EXTRACT_M] = instr_io_export,
+
+ [INSTR_HDR_LOOKAHEAD] = instr_io_export,
+
+ [INSTR_HDR_EMIT] = instr_io_export,
+ [INSTR_HDR_EMIT_TX] = instr_io_export,
+ [INSTR_HDR_EMIT2_TX] = instr_io_export,
+ [INSTR_HDR_EMIT3_TX] = instr_io_export,
+ [INSTR_HDR_EMIT4_TX] = instr_io_export,
+ [INSTR_HDR_EMIT5_TX] = instr_io_export,
+ [INSTR_HDR_EMIT6_TX] = instr_io_export,
+ [INSTR_HDR_EMIT7_TX] = instr_io_export,
+ [INSTR_HDR_EMIT8_TX] = instr_io_export,
+
+ [INSTR_HDR_VALIDATE] = instr_hdr_validate_export,
+ [INSTR_HDR_INVALIDATE] = instr_hdr_validate_export,
+
+ [INSTR_MOV] = instr_mov_export,
+ [INSTR_MOV_MH] = instr_mov_export,
+ [INSTR_MOV_HM] = instr_mov_export,
+ [INSTR_MOV_HH] = instr_mov_export,
+ [INSTR_MOV_I] = instr_mov_export,
+
+ [INSTR_DMA_HT] = instr_dma_ht_export,
+ [INSTR_DMA_HT2] = instr_dma_ht_export,
+ [INSTR_DMA_HT3] = instr_dma_ht_export,
+ [INSTR_DMA_HT4] = instr_dma_ht_export,
+ [INSTR_DMA_HT5] = instr_dma_ht_export,
+ [INSTR_DMA_HT6] = instr_dma_ht_export,
+ [INSTR_DMA_HT7] = instr_dma_ht_export,
+ [INSTR_DMA_HT8] = instr_dma_ht_export,
+
+ [INSTR_ALU_ADD] = instr_alu_export,
+ [INSTR_ALU_ADD_MH] = instr_alu_export,
+ [INSTR_ALU_ADD_HM] = instr_alu_export,
+ [INSTR_ALU_ADD_HH] = instr_alu_export,
+ [INSTR_ALU_ADD_MI] = instr_alu_export,
+ [INSTR_ALU_ADD_HI] = instr_alu_export,
+
+ [INSTR_ALU_SUB] = instr_alu_export,
+ [INSTR_ALU_SUB_MH] = instr_alu_export,
+ [INSTR_ALU_SUB_HM] = instr_alu_export,
+ [INSTR_ALU_SUB_HH] = instr_alu_export,
+ [INSTR_ALU_SUB_MI] = instr_alu_export,
+ [INSTR_ALU_SUB_HI] = instr_alu_export,
+
+ [INSTR_ALU_CKADD_FIELD] = instr_alu_export,
+ [INSTR_ALU_CKADD_STRUCT] = instr_alu_export,
+ [INSTR_ALU_CKADD_STRUCT20] = instr_alu_export,
+ [INSTR_ALU_CKSUB_FIELD] = instr_alu_export,
+
+ [INSTR_ALU_AND] = instr_alu_export,
+ [INSTR_ALU_AND_MH] = instr_alu_export,
+ [INSTR_ALU_AND_HM] = instr_alu_export,
+ [INSTR_ALU_AND_HH] = instr_alu_export,
+ [INSTR_ALU_AND_I] = instr_alu_export,
+
+ [INSTR_ALU_OR] = instr_alu_export,
+ [INSTR_ALU_OR_MH] = instr_alu_export,
+ [INSTR_ALU_OR_HM] = instr_alu_export,
+ [INSTR_ALU_OR_HH] = instr_alu_export,
+ [INSTR_ALU_OR_I] = instr_alu_export,
+
+ [INSTR_ALU_XOR] = instr_alu_export,
+ [INSTR_ALU_XOR_MH] = instr_alu_export,
+ [INSTR_ALU_XOR_HM] = instr_alu_export,
+ [INSTR_ALU_XOR_HH] = instr_alu_export,
+ [INSTR_ALU_XOR_I] = instr_alu_export,
+
+ [INSTR_ALU_SHL] = instr_alu_export,
+ [INSTR_ALU_SHL_MH] = instr_alu_export,
+ [INSTR_ALU_SHL_HM] = instr_alu_export,
+ [INSTR_ALU_SHL_HH] = instr_alu_export,
+ [INSTR_ALU_SHL_MI] = instr_alu_export,
+ [INSTR_ALU_SHL_HI] = instr_alu_export,
+
+ [INSTR_ALU_SHR] = instr_alu_export,
+ [INSTR_ALU_SHR_MH] = instr_alu_export,
+ [INSTR_ALU_SHR_HM] = instr_alu_export,
+ [INSTR_ALU_SHR_HH] = instr_alu_export,
+ [INSTR_ALU_SHR_MI] = instr_alu_export,
+ [INSTR_ALU_SHR_HI] = instr_alu_export,
+
+ [INSTR_REGPREFETCH_RH] = instr_reg_export,
+ [INSTR_REGPREFETCH_RM] = instr_reg_export,
+ [INSTR_REGPREFETCH_RI] = instr_reg_export,
+
+ [INSTR_REGRD_HRH] = instr_reg_export,
+ [INSTR_REGRD_HRM] = instr_reg_export,
+ [INSTR_REGRD_MRH] = instr_reg_export,
+ [INSTR_REGRD_MRM] = instr_reg_export,
+ [INSTR_REGRD_HRI] = instr_reg_export,
+ [INSTR_REGRD_MRI] = instr_reg_export,
+
+ [INSTR_REGWR_RHH] = instr_reg_export,
+ [INSTR_REGWR_RHM] = instr_reg_export,
+ [INSTR_REGWR_RMH] = instr_reg_export,
+ [INSTR_REGWR_RMM] = instr_reg_export,
+ [INSTR_REGWR_RHI] = instr_reg_export,
+ [INSTR_REGWR_RMI] = instr_reg_export,
+ [INSTR_REGWR_RIH] = instr_reg_export,
+ [INSTR_REGWR_RIM] = instr_reg_export,
+ [INSTR_REGWR_RII] = instr_reg_export,
+
+ [INSTR_REGADD_RHH] = instr_reg_export,
+ [INSTR_REGADD_RHM] = instr_reg_export,
+ [INSTR_REGADD_RMH] = instr_reg_export,
+ [INSTR_REGADD_RMM] = instr_reg_export,
+ [INSTR_REGADD_RHI] = instr_reg_export,
+ [INSTR_REGADD_RMI] = instr_reg_export,
+ [INSTR_REGADD_RIH] = instr_reg_export,
+ [INSTR_REGADD_RIM] = instr_reg_export,
+ [INSTR_REGADD_RII] = instr_reg_export,
+
+ [INSTR_METPREFETCH_H] = instr_meter_export,
+ [INSTR_METPREFETCH_M] = instr_meter_export,
+ [INSTR_METPREFETCH_I] = instr_meter_export,
+
+ [INSTR_METER_HHM] = instr_meter_export,
+ [INSTR_METER_HHI] = instr_meter_export,
+ [INSTR_METER_HMM] = instr_meter_export,
+ [INSTR_METER_HMI] = instr_meter_export,
+ [INSTR_METER_MHM] = instr_meter_export,
+ [INSTR_METER_MHI] = instr_meter_export,
+ [INSTR_METER_MMM] = instr_meter_export,
+ [INSTR_METER_MMI] = instr_meter_export,
+ [INSTR_METER_IHM] = instr_meter_export,
+ [INSTR_METER_IHI] = instr_meter_export,
+ [INSTR_METER_IMM] = instr_meter_export,
+ [INSTR_METER_IMI] = instr_meter_export,
+
+ [INSTR_TABLE] = instr_table_export,
+ [INSTR_TABLE_AF] = instr_table_export,
+ [INSTR_SELECTOR] = instr_table_export,
+ [INSTR_LEARNER] = instr_table_export,
+ [INSTR_LEARNER_AF] = instr_table_export,
+
+ [INSTR_LEARNER_LEARN] = instr_learn_export,
+ [INSTR_LEARNER_FORGET] = instr_forget_export,
+
+ [INSTR_EXTERN_OBJ] = instr_extern_export,
+ [INSTR_EXTERN_FUNC] = instr_extern_export,
+
+ [INSTR_JMP] = instr_jmp_export,
+ [INSTR_JMP_VALID] = instr_jmp_export,
+ [INSTR_JMP_INVALID] = instr_jmp_export,
+ [INSTR_JMP_HIT] = instr_jmp_export,
+ [INSTR_JMP_MISS] = instr_jmp_export,
+ [INSTR_JMP_ACTION_HIT] = instr_jmp_export,
+ [INSTR_JMP_ACTION_MISS] = instr_jmp_export,
+
+ [INSTR_JMP_EQ] = instr_jmp_export,
+ [INSTR_JMP_EQ_MH] = instr_jmp_export,
+ [INSTR_JMP_EQ_HM] = instr_jmp_export,
+ [INSTR_JMP_EQ_HH] = instr_jmp_export,
+ [INSTR_JMP_EQ_I] = instr_jmp_export,
+
+ [INSTR_JMP_NEQ] = instr_jmp_export,
+ [INSTR_JMP_NEQ_MH] = instr_jmp_export,
+ [INSTR_JMP_NEQ_HM] = instr_jmp_export,
+ [INSTR_JMP_NEQ_HH] = instr_jmp_export,
+ [INSTR_JMP_NEQ_I] = instr_jmp_export,
+
+ [INSTR_JMP_LT] = instr_jmp_export,
+ [INSTR_JMP_LT_MH] = instr_jmp_export,
+ [INSTR_JMP_LT_HM] = instr_jmp_export,
+ [INSTR_JMP_LT_HH] = instr_jmp_export,
+ [INSTR_JMP_LT_MI] = instr_jmp_export,
+ [INSTR_JMP_LT_HI] = instr_jmp_export,
+
+ [INSTR_JMP_GT] = instr_jmp_export,
+ [INSTR_JMP_GT_MH] = instr_jmp_export,
+ [INSTR_JMP_GT_HM] = instr_jmp_export,
+ [INSTR_JMP_GT_HH] = instr_jmp_export,
+ [INSTR_JMP_GT_MI] = instr_jmp_export,
+ [INSTR_JMP_GT_HI] = instr_jmp_export,
+
+ [INSTR_RETURN] = instr_return_export,
+};
+
+static void
+action_data_codegen(struct action *a, FILE *f)
+{
+ uint32_t i;
+
+ fprintf(f,
+ "static const struct instruction action_%s_instructions[] = {\n",
+ a->name);
+
+ for (i = 0; i < a->n_instructions; i++) {
+ struct instruction *instr = &a->instructions[i];
+ instruction_export_t func = export_table[instr->type];
+
+ func(instr, f);
+ }
+
+ fprintf(f, "};\n");
+}
+
+static const char *
+instr_type_to_func(struct instruction *instr)
+{
+ switch (instr->type) {
+ case INSTR_RX: return NULL;
+
+ case INSTR_TX: return "__instr_tx_exec";
+ case INSTR_TX_I: return "__instr_tx_i_exec";
+
+ case INSTR_HDR_EXTRACT: return "__instr_hdr_extract_exec";
+ case INSTR_HDR_EXTRACT2: return "__instr_hdr_extract2_exec";
+ case INSTR_HDR_EXTRACT3: return "__instr_hdr_extract3_exec";
+ case INSTR_HDR_EXTRACT4: return "__instr_hdr_extract4_exec";
+ case INSTR_HDR_EXTRACT5: return "__instr_hdr_extract5_exec";
+ case INSTR_HDR_EXTRACT6: return "__instr_hdr_extract6_exec";
+ case INSTR_HDR_EXTRACT7: return "__instr_hdr_extract7_exec";
+ case INSTR_HDR_EXTRACT8: return "__instr_hdr_extract8_exec";
+
+ case INSTR_HDR_EXTRACT_M: return "__instr_hdr_extract_m_exec";
+
+ case INSTR_HDR_LOOKAHEAD: return "__instr_hdr_lookahead_exec";
+
+ case INSTR_HDR_EMIT: return "__instr_hdr_emit_exec";
+ case INSTR_HDR_EMIT_TX: return "__instr_hdr_emit_tx_exec";
+ case INSTR_HDR_EMIT2_TX: return "__instr_hdr_emit2_tx_exec";
+ case INSTR_HDR_EMIT3_TX: return "__instr_hdr_emit3_tx_exec";
+ case INSTR_HDR_EMIT4_TX: return "__instr_hdr_emit4_tx_exec";
+ case INSTR_HDR_EMIT5_TX: return "__instr_hdr_emit5_tx_exec";
+ case INSTR_HDR_EMIT6_TX: return "__instr_hdr_emit6_tx_exec";
+ case INSTR_HDR_EMIT7_TX: return "__instr_hdr_emit7_tx_exec";
+ case INSTR_HDR_EMIT8_TX: return "__instr_hdr_emit8_tx_exec";
+
+ case INSTR_HDR_VALIDATE: return "__instr_hdr_validate_exec";
+ case INSTR_HDR_INVALIDATE: return "__instr_hdr_invalidate_exec";
+
+ case INSTR_MOV: return "__instr_mov_exec";
+ case INSTR_MOV_MH: return "__instr_mov_mh_exec";
+ case INSTR_MOV_HM: return "__instr_mov_hm_exec";
+ case INSTR_MOV_HH: return "__instr_mov_hh_exec";
+ case INSTR_MOV_I: return "__instr_mov_i_exec";
+
+ case INSTR_DMA_HT: return "__instr_dma_ht_exec";
+ case INSTR_DMA_HT2: return "__instr_dma_ht2_exec";
+ case INSTR_DMA_HT3: return "__instr_dma_ht3_exec";
+ case INSTR_DMA_HT4: return "__instr_dma_ht4_exec";
+ case INSTR_DMA_HT5: return "__instr_dma_ht5_exec";
+ case INSTR_DMA_HT6: return "__instr_dma_ht6_exec";
+ case INSTR_DMA_HT7: return "__instr_dma_ht7_exec";
+ case INSTR_DMA_HT8: return "__instr_dma_ht8_exec";
+
+ case INSTR_ALU_ADD: return "__instr_alu_add_exec";
+ case INSTR_ALU_ADD_MH: return "__instr_alu_add_mh_exec";
+ case INSTR_ALU_ADD_HM: return "__instr_alu_add_hm_exec";
+ case INSTR_ALU_ADD_HH: return "__instr_alu_add_hh_exec";
+ case INSTR_ALU_ADD_MI: return "__instr_alu_add_mi_exec";
+ case INSTR_ALU_ADD_HI: return "__instr_alu_add_hi_exec";
+
+ case INSTR_ALU_SUB: return "__instr_alu_sub_exec";
+ case INSTR_ALU_SUB_MH: return "__instr_alu_sub_mh_exec";
+ case INSTR_ALU_SUB_HM: return "__instr_alu_sub_hm_exec";
+ case INSTR_ALU_SUB_HH: return "__instr_alu_sub_hh_exec";
+ case INSTR_ALU_SUB_MI: return "__instr_alu_sub_mi_exec";
+ case INSTR_ALU_SUB_HI: return "__instr_alu_sub_hi_exec";
+
+ case INSTR_ALU_CKADD_FIELD: return "__instr_alu_ckadd_field_exec";
+ case INSTR_ALU_CKADD_STRUCT20: return "__instr_alu_ckadd_struct20_exec";
+ case INSTR_ALU_CKADD_STRUCT: return "__instr_alu_ckadd_struct_exec";
+ case INSTR_ALU_CKSUB_FIELD: return "__instr_alu_cksub_field_exec";
+
+ case INSTR_ALU_AND: return "__instr_alu_and_exec";
+ case INSTR_ALU_AND_MH: return "__instr_alu_and_mh_exec";
+ case INSTR_ALU_AND_HM: return "__instr_alu_and_hm_exec";
+ case INSTR_ALU_AND_HH: return "__instr_alu_and_hh_exec";
+ case INSTR_ALU_AND_I: return "__instr_alu_and_i_exec";
+
+ case INSTR_ALU_OR: return "__instr_alu_or_exec";
+ case INSTR_ALU_OR_MH: return "__instr_alu_or_mh_exec";
+ case INSTR_ALU_OR_HM: return "__instr_alu_or_hm_exec";
+ case INSTR_ALU_OR_HH: return "__instr_alu_or_hh_exec";
+ case INSTR_ALU_OR_I: return "__instr_alu_or_i_exec";
+
+ case INSTR_ALU_XOR: return "__instr_alu_xor_exec";
+ case INSTR_ALU_XOR_MH: return "__instr_alu_xor_mh_exec";
+ case INSTR_ALU_XOR_HM: return "__instr_alu_xor_hm_exec";
+ case INSTR_ALU_XOR_HH: return "__instr_alu_xor_hh_exec";
+ case INSTR_ALU_XOR_I: return "__instr_alu_xor_i_exec";
+
+ case INSTR_ALU_SHL: return "__instr_alu_shl_exec";
+ case INSTR_ALU_SHL_MH: return "__instr_alu_shl_mh_exec";
+ case INSTR_ALU_SHL_HM: return "__instr_alu_shl_hm_exec";
+ case INSTR_ALU_SHL_HH: return "__instr_alu_shl_hh_exec";
+ case INSTR_ALU_SHL_MI: return "__instr_alu_shl_mi_exec";
+ case INSTR_ALU_SHL_HI: return "__instr_alu_shl_hi_exec";
+
+ case INSTR_ALU_SHR: return "__instr_alu_shr_exec";
+ case INSTR_ALU_SHR_MH: return "__instr_alu_shr_mh_exec";
+ case INSTR_ALU_SHR_HM: return "__instr_alu_shr_hm_exec";
+ case INSTR_ALU_SHR_HH: return "__instr_alu_shr_hh_exec";
+ case INSTR_ALU_SHR_MI: return "__instr_alu_shr_mi_exec";
+ case INSTR_ALU_SHR_HI: return "__instr_alu_shr_hi_exec";
+
+ case INSTR_REGPREFETCH_RH: return "__instr_regprefetch_rh_exec";
+ case INSTR_REGPREFETCH_RM: return "__instr_regprefetch_rm_exec";
+ case INSTR_REGPREFETCH_RI: return "__instr_regprefetch_ri_exec";
+
+ case INSTR_REGRD_HRH: return "__instr_regrd_hrh_exec";
+ case INSTR_REGRD_HRM: return "__instr_regrd_hrm_exec";
+ case INSTR_REGRD_HRI: return "__instr_regrd_hri_exec";
+ case INSTR_REGRD_MRH: return "__instr_regrd_mrh_exec";
+ case INSTR_REGRD_MRM: return "__instr_regrd_mrm_exec";
+ case INSTR_REGRD_MRI: return "__instr_regrd_mri_exec";
+
+ case INSTR_REGWR_RHH: return "__instr_regwr_rhh_exec";
+ case INSTR_REGWR_RHM: return "__instr_regwr_rhm_exec";
+ case INSTR_REGWR_RHI: return "__instr_regwr_rhi_exec";
+ case INSTR_REGWR_RMH: return "__instr_regwr_rmh_exec";
+ case INSTR_REGWR_RMM: return "__instr_regwr_rmm_exec";
+ case INSTR_REGWR_RMI: return "__instr_regwr_rmi_exec";
+ case INSTR_REGWR_RIH: return "__instr_regwr_rih_exec";
+ case INSTR_REGWR_RIM: return "__instr_regwr_rim_exec";
+ case INSTR_REGWR_RII: return "__instr_regwr_rii_exec";
+
+ case INSTR_REGADD_RHH: return "__instr_regadd_rhh_exec";
+ case INSTR_REGADD_RHM: return "__instr_regadd_rhm_exec";
+ case INSTR_REGADD_RHI: return "__instr_regadd_rhi_exec";
+ case INSTR_REGADD_RMH: return "__instr_regadd_rmh_exec";
+ case INSTR_REGADD_RMM: return "__instr_regadd_rmm_exec";
+ case INSTR_REGADD_RMI: return "__instr_regadd_rmi_exec";
+ case INSTR_REGADD_RIH: return "__instr_regadd_rih_exec";
+ case INSTR_REGADD_RIM: return "__instr_regadd_rim_exec";
+ case INSTR_REGADD_RII: return "__instr_regadd_rii_exec";
+
+ case INSTR_METPREFETCH_H: return "__instr_metprefetch_h_exec";
+ case INSTR_METPREFETCH_M: return "__instr_metprefetch_m_exec";
+ case INSTR_METPREFETCH_I: return "__instr_metprefetch_i_exec";
+
+ case INSTR_METER_HHM: return "__instr_meter_hhm_exec";
+ case INSTR_METER_HHI: return "__instr_meter_hhi_exec";
+ case INSTR_METER_HMM: return "__instr_meter_hmm_exec";
+ case INSTR_METER_HMI: return "__instr_meter_hmi_exec";
+ case INSTR_METER_MHM: return "__instr_meter_mhm_exec";
+ case INSTR_METER_MHI: return "__instr_meter_mhi_exec";
+ case INSTR_METER_MMM: return "__instr_meter_mmm_exec";
+ case INSTR_METER_MMI: return "__instr_meter_mmi_exec";
+ case INSTR_METER_IHM: return "__instr_meter_ihm_exec";
+ case INSTR_METER_IHI: return "__instr_meter_ihi_exec";
+ case INSTR_METER_IMM: return "__instr_meter_imm_exec";
+ case INSTR_METER_IMI: return "__instr_meter_imi_exec";
+
+ case INSTR_TABLE: return NULL;
+ case INSTR_TABLE_AF: return NULL;
+ case INSTR_SELECTOR: return NULL;
+ case INSTR_LEARNER: return NULL;
+ case INSTR_LEARNER_AF: return NULL;
+
+ case INSTR_LEARNER_LEARN: return "__instr_learn_exec";
+ case INSTR_LEARNER_FORGET: return "__instr_forget_exec";
+
+ case INSTR_EXTERN_OBJ: return NULL;
+ case INSTR_EXTERN_FUNC: return NULL;
+
+ case INSTR_JMP: return NULL;
+ case INSTR_JMP_VALID: return NULL;
+ case INSTR_JMP_INVALID: return NULL;
+ case INSTR_JMP_HIT: return NULL;
+ case INSTR_JMP_MISS: return NULL;
+ case INSTR_JMP_ACTION_HIT: return NULL;
+ case INSTR_JMP_ACTION_MISS: return NULL;
+ case INSTR_JMP_EQ: return NULL;
+ case INSTR_JMP_EQ_MH: return NULL;
+ case INSTR_JMP_EQ_HM: return NULL;
+ case INSTR_JMP_EQ_HH: return NULL;
+ case INSTR_JMP_EQ_I: return NULL;
+ case INSTR_JMP_NEQ: return NULL;
+ case INSTR_JMP_NEQ_MH: return NULL;
+ case INSTR_JMP_NEQ_HM: return NULL;
+ case INSTR_JMP_NEQ_HH: return NULL;
+ case INSTR_JMP_NEQ_I: return NULL;
+ case INSTR_JMP_LT: return NULL;
+ case INSTR_JMP_LT_MH: return NULL;
+ case INSTR_JMP_LT_HM: return NULL;
+ case INSTR_JMP_LT_HH: return NULL;
+ case INSTR_JMP_LT_MI: return NULL;
+ case INSTR_JMP_LT_HI: return NULL;
+ case INSTR_JMP_GT: return NULL;
+ case INSTR_JMP_GT_MH: return NULL;
+ case INSTR_JMP_GT_HM: return NULL;
+ case INSTR_JMP_GT_HH: return NULL;
+ case INSTR_JMP_GT_MI: return NULL;
+ case INSTR_JMP_GT_HI: return NULL;
+
+ case INSTR_RETURN: return NULL;
+
+ default: return NULL;
+ }
+}
+
+static void
+action_instr_does_tx_codegen(struct action *a,
+ uint32_t instr_pos,
+ struct instruction *instr,
+ FILE *f)
+{
+ fprintf(f,
+ "%s(p, t, &action_%s_instructions[%u]);\n"
+ "\tthread_ip_reset(p, t);\n"
+ "\tinstr_rx_exec(p);\n"
+ "\treturn;\n",
+ instr_type_to_func(instr),
+ a->name,
+ instr_pos);
+}
+
+static void
+action_instr_extern_obj_codegen(struct action *a,
+ uint32_t instr_pos,
+ FILE *f)
+{
+ fprintf(f,
+ "while (!__instr_extern_obj_exec(p, t, &action_%s_instructions[%u]));\n",
+ a->name,
+ instr_pos);
+}
+
+static void
+action_instr_extern_func_codegen(struct action *a,
+ uint32_t instr_pos,
+ FILE *f)
+{
+ fprintf(f,
+ "while (!__instr_extern_func_exec(p, t, &action_%s_instructions[%u]));\n",
+ a->name,
+ instr_pos);
+}
+
+static void
+action_instr_jmp_codegen(struct action *a,
+ uint32_t instr_pos,
+ struct instruction *instr,
+ struct instruction_data *data,
+ FILE *f)
+{
+ switch (instr->type) {
+ case INSTR_JMP:
+ fprintf(f,
+ "goto %s;\n",
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_VALID:
+ fprintf(f,
+ "if (HEADER_VALID(t, action_%s_instructions[%u].jmp.header_id))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_INVALID:
+ fprintf(f,
+ "if (!HEADER_VALID(t, action_%s_instructions[%u].jmp.header_id))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_HIT:
+ fprintf(f,
+ "if (t->hit)\n"
+ "\t\tgoto %s;\n",
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_MISS:
+ fprintf(f,
+ "if (!t->hit)\n"
+ "\t\tgoto %s;\n",
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_ACTION_HIT:
+ fprintf(f,
+ "if (t->action_id == action_%s_instructions[%u].jmp.action_id)\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_ACTION_MISS:
+ fprintf(f,
+ "if (t->action_id != action_%s_instructions[%u].jmp.action_id)\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_EQ:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &action_%s_instructions[%u].jmp.a) == "
+ "instr_operand_hbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_EQ_MH:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &action_%s_instructions[%u].jmp.a) == "
+ "instr_operand_nbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_EQ_HM:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &action_%s_instructions[%u].jmp.a) == "
+ "instr_operand_hbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_EQ_HH:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &action_%s_instructions[%u].jmp.a) == "
+ "instr_operand_nbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_EQ_I:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &action_%s_instructions[%u].jmp.a) == "
+ "action_%s_instructions[%u].jmp.b_val)\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_NEQ:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &action_%s_instructions[%u].jmp.a) != "
+ "instr_operand_hbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_NEQ_MH:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &action_%s_instructions[%u].jmp.a) != "
+ "instr_operand_nbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_NEQ_HM:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &action_%s_instructions[%u].jmp.a) != "
+ "instr_operand_hbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_NEQ_HH:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &action_%s_instructions[%u].jmp.a) != "
+ "instr_operand_nbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_NEQ_I:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &action_%s_instructions[%u].jmp.a) != "
+ "action_%s_instructions[%u].jmp.b_val)\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_LT:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &action_%s_instructions[%u].jmp.a) < "
+ "instr_operand_hbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_LT_MH:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &action_%s_instructions[%u].jmp.a) < "
+ "instr_operand_nbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_LT_HM:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &action_%s_instructions[%u].jmp.a) < "
+ "instr_operand_hbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_LT_HH:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &action_%s_instructions[%u].jmp.a) < "
+ "instr_operand_nbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_LT_MI:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &action_%s_instructions[%u].jmp.a) < "
+ "action_%s_instructions[%u].jmp.b_val)\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_LT_HI:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &action_%s_instructions[%u].jmp.a) < "
+ "action_%s_instructions[%u].jmp.b_val)\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_GT:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &action_%s_instructions[%u].jmp.a) > "
+ "instr_operand_hbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_GT_MH:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &action_%s_instructions[%u].jmp.a) > "
+ "instr_operand_nbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_GT_HM:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &action_%s_instructions[%u].jmp.a) > "
+ "instr_operand_hbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_GT_HH:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &action_%s_instructions[%u].jmp.a) > "
+ "instr_operand_nbo(t, &action_%s_instructions[%u].jmp.b))\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_GT_MI:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &action_%s_instructions[%u].jmp.a) > "
+ "action_%s_instructions[%u].jmp.b_val)\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ case INSTR_JMP_GT_HI:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &action_%s_instructions[%u].jmp.a) > "
+ "action_%s_instructions[%u].jmp.b_val)\n"
+ "\t\tgoto %s;\n",
+ a->name,
+ instr_pos,
+ a->name,
+ instr_pos,
+ data->jmp_label);
+ return;
+
+ default:
+ return;
+ }
+}
+
+static void
+action_instr_return_codegen(FILE *f)
+{
+ fprintf(f,
+ "return;\n");
+}
+
+static void
+action_instr_codegen(struct action *a, FILE *f)
+{
+ uint32_t i;
+
+ fprintf(f,
+ "void\n"
+ "action_%s_run(struct rte_swx_pipeline *p)\n"
+ "{\n"
+ "\tstruct thread *t = &p->threads[p->thread_id];\n"
+ "\n",
+ a->name);
+
+ for (i = 0; i < a->n_instructions; i++) {
+ struct instruction *instr = &a->instructions[i];
+ struct instruction_data *data = &a->instruction_data[i];
+
+ /* Label, if present. */
+ if (data->label[0])
+ fprintf(f, "\n%s : ", data->label);
+ else
+ fprintf(f, "\n\t");
+
+ /* TX instruction type. */
+ if (instruction_does_tx(instr)) {
+ action_instr_does_tx_codegen(a, i, instr, f);
+ continue;
+ }
+
+ /* Extern object/function instruction type. */
+ if (instr->type == INSTR_EXTERN_OBJ) {
+ action_instr_extern_obj_codegen(a, i, f);
+ continue;
+ }
+
+ if (instr->type == INSTR_EXTERN_FUNC) {
+ action_instr_extern_func_codegen(a, i, f);
+ continue;
+ }
+
+ /* Jump instruction type. */
+ if (instruction_is_jmp(instr)) {
+ action_instr_jmp_codegen(a, i, instr, data, f);
+ continue;
+ }
+
+ /* Return instruction type. */
+ if (instr->type == INSTR_RETURN) {
+ action_instr_return_codegen(f);
+ continue;
+ }
+
+ /* Any other instruction type. */
+ fprintf(f,
+ "%s(p, t, &action_%s_instructions[%u]);\n",
+ instr_type_to_func(instr),
+ a->name,
+ i);
+ }
+
+ fprintf(f, "}\n\n");
+}
+
+struct instruction_group {
+ TAILQ_ENTRY(instruction_group) node;
+
+ uint32_t group_id;
+
+ uint32_t first_instr_id;
+
+ uint32_t last_instr_id;
+
+ instr_exec_t func;
+};
+
+TAILQ_HEAD(instruction_group_list, instruction_group);
+
+static struct instruction_group *
+instruction_group_list_group_find(struct instruction_group_list *igl, uint32_t instruction_id)
+{
+ struct instruction_group *g;
+
+ TAILQ_FOREACH(g, igl, node)
+ if ((g->first_instr_id <= instruction_id) && (instruction_id <= g->last_instr_id))
+ return g;
+
+ return NULL;
+}
+
+static void
+instruction_group_list_free(struct instruction_group_list *igl)
+{
+ if (!igl)
+ return;
+
+ for ( ; ; ) {
+ struct instruction_group *g;
+
+ g = TAILQ_FIRST(igl);
+ if (!g)
+ break;
+
+ TAILQ_REMOVE(igl, g, node);
+ free(g);
+ }
+
+ free(igl);
+}
+
+static struct instruction_group_list *
+instruction_group_list_create(struct rte_swx_pipeline *p)
+{
+ struct instruction_group_list *igl = NULL;
+ struct instruction_group *g = NULL;
+ uint32_t n_groups = 0, i;
+
+ if (!p || !p->instructions || !p->instruction_data || !p->n_instructions)
+ goto error;
+
+ /* List init. */
+ igl = calloc(1, sizeof(struct instruction_group_list));
+ if (!igl)
+ goto error;
+
+ TAILQ_INIT(igl);
+
+ /* Allocate the first group. */
+ g = calloc(1, sizeof(struct instruction_group));
+ if (!g)
+ goto error;
+
+ /* Iteration 1: Separate the instructions into groups based on the thread yield
+ * instructions. Do not worry about the jump instructions at this point.
+ */
+ for (i = 0; i < p->n_instructions; i++) {
+ struct instruction *instr = &p->instructions[i];
+
+ /* Check for thread yield instructions. */
+ if (!instruction_does_thread_yield(instr))
+ continue;
+
+ /* If the current group contains at least one instruction, then finalize it (with
+ * the previous instruction), add it to the list and allocate a new group (that
+ * starts with the current instruction).
+ */
+ if (i - g->first_instr_id) {
+ /* Finalize the group. */
+ g->last_instr_id = i - 1;
+
+ /* Add the group to the list. Advance the number of groups. */
+ TAILQ_INSERT_TAIL(igl, g, node);
+ n_groups++;
+
+ /* Allocate a new group. */
+ g = calloc(1, sizeof(struct instruction_group));
+ if (!g)
+ goto error;
+
+ /* Initialize the new group. */
+ g->group_id = n_groups;
+ g->first_instr_id = i;
+ }
+
+ /* Finalize the current group (with the current instruction, therefore this group
+ * contains just the current thread yield instruction), add it to the list and
+ * allocate a new group (that starts with the next instruction).
+ */
+
+ /* Finalize the group. */
+ g->last_instr_id = i;
+
+ /* Add the group to the list. Advance the number of groups. */
+ TAILQ_INSERT_TAIL(igl, g, node);
+ n_groups++;
+
+ /* Allocate a new group. */
+ g = calloc(1, sizeof(struct instruction_group));
+ if (!g)
+ goto error;
+
+ /* Initialize the new group. */
+ g->group_id = n_groups;
+ g->first_instr_id = i + 1;
+ }
+
+ /* Handle the last group. */
+ if (i - g->first_instr_id) {
+ /* Finalize the group. */
+ g->last_instr_id = i - 1;
+
+ /* Add the group to the list. Advance the number of groups. */
+ TAILQ_INSERT_TAIL(igl, g, node);
+ n_groups++;
+ } else
+ free(g);
+
+ g = NULL;
+
+ /* Iteration 2: Handle jumps. If the current group contains an instruction which represents
+ * the destination of a jump instruction located in a different group ("far jump"), then the
+ * current group has to be split, so that the instruction representing the far jump
+ * destination is at the start of its group.
+ */
+ for ( ; ; ) {
+ int is_modified = 0;
+
+ for (i = 0; i < p->n_instructions; i++) {
+ struct instruction_data *data = &p->instruction_data[i];
+ struct instruction_group *g;
+ uint32_t j;
+
+ /* Continue when the current instruction is not a jump destination. */
+ if (!data->n_users)
+ continue;
+
+ g = instruction_group_list_group_find(igl, i);
+ if (!g)
+ goto error;
+
+ /* Find out all the jump instructions with this destination. */
+ for (j = 0; j < p->n_instructions; j++) {
+ struct instruction *jmp_instr = &p->instructions[j];
+ struct instruction_data *jmp_data = &p->instruction_data[j];
+ struct instruction_group *jmp_g, *new_g;
+
+ /* Continue when not a jump instruction. Even when jump instruction,
+ * continue when the jump destination is not this instruction.
+ */
+ if (!instruction_is_jmp(jmp_instr) ||
+ strcmp(jmp_data->jmp_label, data->label))
+ continue;
+
+ jmp_g = instruction_group_list_group_find(igl, j);
+ if (!jmp_g)
+ goto error;
+
+ /* Continue when both the jump instruction and the jump destination
+ * instruction are in the same group. Even when in different groups,
+ * still continue if the jump destination instruction is already the
+ * first instruction of its group.
+ */
+ if ((jmp_g->group_id == g->group_id) || (g->first_instr_id == i))
+ continue;
+
+ /* Split the group of the current jump destination instruction to
+ * make this instruction the first instruction of a new group.
+ */
+ new_g = calloc(1, sizeof(struct instruction_group));
+ if (!new_g)
+ goto error;
+
+ new_g->group_id = n_groups;
+ new_g->first_instr_id = i;
+ new_g->last_instr_id = g->last_instr_id;
+
+ g->last_instr_id = i - 1;
+
+ TAILQ_INSERT_AFTER(igl, g, new_g, node);
+ n_groups++;
+ is_modified = 1;
+
+ /* The decision to split this group (to make the current instruction
+ * the first instruction of a new group) is already taken and fully
+ * implemented, so no need to search for more reasons to do it.
+ */
+ break;
+ }
+ }
+
+ /* Re-evaluate everything, as at least one group got split, so some jumps that were
+ * previously considered local (i.e. the jump destination is in the same group as
+ * the jump instruction) can now be "far jumps" (i.e. the jump destination is in a
+ * different group than the jump instruction). Wost case scenario: each instruction
+ * that is a jump destination ends up as the first instruction of its group.
+ */
+ if (!is_modified)
+ break;
+ }
+
+ /* Re-assign the group IDs to be in incremental order. */
+ i = 0;
+ TAILQ_FOREACH(g, igl, node) {
+ g->group_id = i;
+
+ i++;
+ }
+
+ return igl;
+
+error:
+ instruction_group_list_free(igl);
+
+ free(g);
+
+ return NULL;
+}
+
+static void
+pipeline_instr_does_tx_codegen(struct rte_swx_pipeline *p __rte_unused,
+ uint32_t instr_pos,
+ struct instruction *instr,
+ FILE *f)
+{
+ fprintf(f,
+ "%s(p, t, &pipeline_instructions[%u]);\n"
+ "\tthread_ip_reset(p, t);\n"
+ "\tinstr_rx_exec(p);\n"
+ "\treturn;\n",
+ instr_type_to_func(instr),
+ instr_pos);
+}
+
+static int
+pipeline_instr_jmp_codegen(struct rte_swx_pipeline *p,
+ struct instruction_group_list *igl,
+ uint32_t jmp_instr_id,
+ struct instruction *jmp_instr,
+ struct instruction_data *jmp_data,
+ FILE *f)
+{
+ struct instruction_group *jmp_g, *g;
+ struct instruction_data *data;
+ uint32_t instr_id;
+
+ switch (jmp_instr->type) {
+ case INSTR_JMP:
+ break;
+
+ case INSTR_JMP_VALID:
+ fprintf(f,
+ "if (HEADER_VALID(t, pipeline_instructions[%u].jmp.header_id))",
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_INVALID:
+ fprintf(f,
+ "if (!HEADER_VALID(t, pipeline_instructions[%u].jmp.header_id))",
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_HIT:
+ fprintf(f,
+ "if (t->hit)\n");
+ break;
+
+ case INSTR_JMP_MISS:
+ fprintf(f,
+ "if (!t->hit)\n");
+ break;
+
+ case INSTR_JMP_ACTION_HIT:
+ fprintf(f,
+ "if (t->action_id == pipeline_instructions[%u].jmp.action_id)",
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_ACTION_MISS:
+ fprintf(f,
+ "if (t->action_id != pipeline_instructions[%u].jmp.action_id)",
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_EQ:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &pipeline_instructions[%u].jmp.a) == "
+ "instr_operand_hbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_EQ_MH:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &pipeline_instructions[%u].jmp.a) == "
+ "instr_operand_nbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_EQ_HM:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &pipeline_instructions[%u].jmp.a) == "
+ "instr_operand_hbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_EQ_HH:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &pipeline_instructions[%u].jmp.a) == "
+ "instr_operand_nbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_EQ_I:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &pipeline_instructions[%u].jmp.a) == "
+ "pipeline_instructions[%u].jmp.b_val)",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_NEQ:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &pipeline_instructions[%u].jmp.a) != "
+ "instr_operand_hbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_NEQ_MH:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &pipeline_instructions[%u].jmp.a) != "
+ "instr_operand_nbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_NEQ_HM:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &pipeline_instructions[%u].jmp.a) != "
+ "instr_operand_hbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_NEQ_HH:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &pipeline_instructions[%u].jmp.a) != "
+ "instr_operand_nbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_NEQ_I:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &pipeline_instructions[%u].jmp.a) != "
+ "pipeline_instructions[%u].jmp.b_val)",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_LT:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &pipeline_instructions[%u].jmp.a) < "
+ "instr_operand_hbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_LT_MH:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &pipeline_instructions[%u].jmp.a) < "
+ "instr_operand_nbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_LT_HM:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &pipeline_instructions[%u].jmp.a) < "
+ "instr_operand_hbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_LT_HH:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &pipeline_instructions[%u].jmp.a) < "
+ "instr_operand_nbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_LT_MI:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &pipeline_instructions[%u].jmp.a) < "
+ "pipeline_instructions[%u].jmp.b_val)",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_LT_HI:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &pipeline_instructions[%u].jmp.a) < "
+ "pipeline_instructions[%u].jmp.b_val)",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_GT:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &pipeline_instructions[%u].jmp.a) > "
+ "instr_operand_hbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_GT_MH:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &pipeline_instructions[%u].jmp.a) > "
+ "instr_operand_nbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_GT_HM:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &pipeline_instructions[%u].jmp.a) > "
+ "instr_operand_hbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_GT_HH:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &pipeline_instructions[%u].jmp.a) > "
+ "instr_operand_nbo(t, &pipeline_instructions[%u].jmp.b))",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_GT_MI:
+ fprintf(f,
+ "if (instr_operand_hbo(t, &pipeline_instructions[%u].jmp.a) > "
+ "pipeline_instructions[%u].jmp.b_val)",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ case INSTR_JMP_GT_HI:
+ fprintf(f,
+ "if (instr_operand_nbo(t, &pipeline_instructions[%u].jmp.a) > "
+ "pipeline_instructions[%u].jmp.b_val)",
+ jmp_instr_id,
+ jmp_instr_id);
+ break;
+
+ default:
+ break;
+ }
+
+ /* Find the instruction group of the jump instruction. */
+ jmp_g = instruction_group_list_group_find(igl, jmp_instr_id);
+ if (!jmp_g)
+ return -EINVAL;
+
+ /* Find the instruction group of the jump destination instruction. */
+ data = label_find(p->instruction_data, p->n_instructions, jmp_data->jmp_label);
+ if (!data)
+ return -EINVAL;
+
+ instr_id = data - p->instruction_data;
+
+ g = instruction_group_list_group_find(igl, instr_id);
+ if (!g)
+ return -EINVAL;
+
+ /* Code generation for "near" jump (same instruction group) or "far" jump (different
+ * instruction group).
+ */
+ if (g->group_id == jmp_g->group_id)
+ fprintf(f,
+ "\n\t\tgoto %s;\n",
+ jmp_data->jmp_label);
+ else
+ fprintf(f,
+ " {\n"
+ "\t\tthread_ip_set(t, &p->instructions[%u]);\n"
+ "\t\treturn;\n"
+ "\t}\n\n",
+ g->group_id);
+
+ return 0;
+}
+
+static void
+instruction_group_list_codegen(struct instruction_group_list *igl,
+ struct rte_swx_pipeline *p,
+ FILE *f)
+{
+ struct instruction_group *g;
+ uint32_t i;
+ int is_required = 0;
+
+ /* Check if code generation is required. */
+ TAILQ_FOREACH(g, igl, node)
+ if (g->first_instr_id < g->last_instr_id)
+ is_required = 1;
+
+ if (!is_required)
+ return;
+
+ /* Generate the code for the pipeline instruction array. */
+ fprintf(f,
+ "static const struct instruction pipeline_instructions[] = {\n");
+
+ for (i = 0; i < p->n_instructions; i++) {
+ struct instruction *instr = &p->instructions[i];
+ instruction_export_t func = export_table[instr->type];
+
+ func(instr, f);
+ }
+
+ fprintf(f, "};\n\n");
+
+ /* Generate the code for the pipeline functions: one function for each instruction group
+ * that contains more than one instruction.
+ */
+ TAILQ_FOREACH(g, igl, node) {
+ struct instruction *last_instr;
+ uint32_t j;
+
+ /* Skip if group contains a single instruction. */
+ if (g->last_instr_id == g->first_instr_id)
+ continue;
+
+ /* Generate new pipeline function. */
+ fprintf(f,
+ "void\n"
+ "pipeline_func_%u(struct rte_swx_pipeline *p)\n"
+ "{\n"
+ "\tstruct thread *t = &p->threads[p->thread_id];\n"
+ "\n",
+ g->group_id);
+
+ /* Generate the code for each pipeline instruction. */
+ for (j = g->first_instr_id; j <= g->last_instr_id; j++) {
+ struct instruction *instr = &p->instructions[j];
+ struct instruction_data *data = &p->instruction_data[j];
+
+ /* Label, if present. */
+ if (data->label[0])
+ fprintf(f, "\n%s : ", data->label);
+ else
+ fprintf(f, "\n\t");
+
+ /* TX instruction type. */
+ if (instruction_does_tx(instr)) {
+ pipeline_instr_does_tx_codegen(p, j, instr, f);
+ continue;
+ }
+
+ /* Jump instruction type. */
+ if (instruction_is_jmp(instr)) {
+ pipeline_instr_jmp_codegen(p, igl, j, instr, data, f);
+ continue;
+ }
+
+ /* Any other instruction type. */
+ fprintf(f,
+ "%s(p, t, &pipeline_instructions[%u]);\n",
+ instr_type_to_func(instr),
+ j);
+ }
+
+ /* Finalize the generated pipeline function. For some instructions such as TX,
+ * emit-many-and-TX and unconditional jump, the next instruction has been already
+ * decided unconditionally and the instruction pointer of the current thread set
+ * accordingly; for all the other instructions, the instruction pointer must be
+ * incremented now.
+ */
+ last_instr = &p->instructions[g->last_instr_id];
+
+ if (!instruction_does_tx(last_instr) && (last_instr->type != INSTR_JMP))
+ fprintf(f,
+ "thread_ip_inc(p);\n");
+
+ fprintf(f,
+ "}\n"
+ "\n");
+ }
+}
+
+static uint32_t
+instruction_group_list_custom_instructions_count(struct instruction_group_list *igl)
+{
+ struct instruction_group *g;
+ uint32_t n_custom_instr = 0;
+
+ /* Groups with a single instruction: no function is generated for this group, the group
+ * keeps its current instruction. Groups with more than two instructions: one function and
+ * the associated custom instruction get generated for each such group.
+ */
+ TAILQ_FOREACH(g, igl, node) {
+ if (g->first_instr_id == g->last_instr_id)
+ continue;
+
+ n_custom_instr++;
+ }
+
+ return n_custom_instr;
+}
+
+static int
+pipeline_codegen(struct rte_swx_pipeline *p, struct instruction_group_list *igl)
+{
+ struct action *a;
+ FILE *f = NULL;
+
+ /* Create the .c file. */
+ f = fopen("/tmp/pipeline.c", "w");
+ if (!f)
+ return -EIO;
+
+ /* Include the .h file. */
+ fprintf(f, "#include \"rte_swx_pipeline_internal.h\"\n");
+
+ /* Add the code for each action. */
+ TAILQ_FOREACH(a, &p->actions, node) {
+ fprintf(f, "/**\n * Action %s\n */\n\n", a->name);
+
+ action_data_codegen(a, f);
+
+ fprintf(f, "\n");
+
+ action_instr_codegen(a, f);
+
+ fprintf(f, "\n");
+ }
+
+ /* Add the pipeline code. */
+ instruction_group_list_codegen(igl, p, f);
+
+ /* Close the .c file. */
+ fclose(f);
+
+ return 0;
+}
+
+#ifndef RTE_SWX_PIPELINE_CMD_MAX_SIZE
+#define RTE_SWX_PIPELINE_CMD_MAX_SIZE 4096
+#endif
+
+static int
+pipeline_libload(struct rte_swx_pipeline *p, struct instruction_group_list *igl)
+{
+ struct action *a;
+ struct instruction_group *g;
+ char *dir_in, *buffer = NULL;
+ const char *dir_out;
+ int status = 0;
+
+ /* Get the environment variables. */
+ dir_in = getenv("RTE_INSTALL_DIR");
+ if (!dir_in) {
+ status = -EINVAL;
+ goto free;
+ }
+
+ dir_out = "/tmp";
+
+ /* Memory allocation for the command buffer. */
+ buffer = malloc(RTE_SWX_PIPELINE_CMD_MAX_SIZE);
+ if (!buffer) {
+ status = -ENOMEM;
+ goto free;
+ }
+
+ snprintf(buffer,
+ RTE_SWX_PIPELINE_CMD_MAX_SIZE,
+ "gcc -c -O3 -fpic -Wno-deprecated-declarations -o %s/pipeline.o %s/pipeline.c "
+ "-I %s/lib/pipeline "
+ "-I %s/lib/eal/include "
+ "-I %s/lib/eal/x86/include "
+ "-I %s/lib/eal/include/generic "
+ "-I %s/lib/meter "
+ "-I %s/lib/port "
+ "-I %s/lib/table "
+ "-I %s/lib/pipeline "
+ "-I %s/config "
+ "-I %s/build "
+ "-I %s/lib/eal/linux/include "
+ ">%s/pipeline.log 2>&1 "
+ "&& "
+ "gcc -shared %s/pipeline.o -o %s/libpipeline.so "
+ ">>%s/pipeline.log 2>&1",
+ dir_out,
+ dir_out,
+ dir_in,
+ dir_in,
+ dir_in,
+ dir_in,
+ dir_in,
+ dir_in,
+ dir_in,
+ dir_in,
+ dir_in,
+ dir_in,
+ dir_in,
+ dir_out,
+ dir_out,
+ dir_out,
+ dir_out);
+
+ /* Build the shared object library. */
+ status = system(buffer);
+ if (status)
+ goto free;
+
+ /* Open library. */
+ snprintf(buffer,
+ RTE_SWX_PIPELINE_CMD_MAX_SIZE,
+ "%s/libpipeline.so",
+ dir_out);
+
+ p->lib = dlopen(buffer, RTLD_LAZY);
+ if (!p->lib) {
+ status = -EIO;
+ goto free;
+ }
+
+ /* Get the action function symbols. */
+ TAILQ_FOREACH(a, &p->actions, node) {
+ snprintf(buffer, RTE_SWX_PIPELINE_CMD_MAX_SIZE, "action_%s_run", a->name);
+
+ p->action_funcs[a->id] = dlsym(p->lib, buffer);
+ if (!p->action_funcs[a->id]) {
+ status = -EINVAL;
+ goto free;
+ }
+ }
+
+ /* Get the pipeline function symbols. */
+ TAILQ_FOREACH(g, igl, node) {
+ if (g->first_instr_id == g->last_instr_id)
+ continue;
+
+ snprintf(buffer, RTE_SWX_PIPELINE_CMD_MAX_SIZE, "pipeline_func_%u", g->group_id);
+
+ g->func = dlsym(p->lib, buffer);
+ if (!g->func) {
+ status = -EINVAL;
+ goto free;
+ }
+ }
+
+free:
+ if (status && p->lib) {
+ dlclose(p->lib);
+ p->lib = NULL;
+ }
+
+ free(buffer);
+
+ return status;
+}
+
+static int
+pipeline_adjust_check(struct rte_swx_pipeline *p __rte_unused,
+ struct instruction_group_list *igl)
+{
+ uint32_t n_custom_instr = instruction_group_list_custom_instructions_count(igl);
+
+ /* Check that enough space is available within the pipeline instruction table to store all
+ * the custom instructions.
+ */
+ if (INSTR_CUSTOM_0 + n_custom_instr > RTE_SWX_PIPELINE_INSTRUCTION_TABLE_SIZE_MAX)
+ return -ENOSPC;
+
+ return 0;
+}
+
+static void
+pipeline_adjust(struct rte_swx_pipeline *p, struct instruction_group_list *igl)
+{
+ struct instruction_group *g;
+ uint32_t i;
+
+ /* Pipeline table instructions. */
+ for (i = 0; i < p->n_instructions; i++) {
+ struct instruction *instr = &p->instructions[i];
+
+ if (instr->type == INSTR_TABLE)
+ instr->type = INSTR_TABLE_AF;
+
+ if (instr->type == INSTR_LEARNER)
+ instr->type = INSTR_LEARNER_AF;
+ }
+
+ /* Pipeline custom instructions. */
+ i = 0;
+ TAILQ_FOREACH(g, igl, node) {
+ struct instruction *instr = &p->instructions[g->first_instr_id];
+ uint32_t j;
+
+ if (g->first_instr_id == g->last_instr_id)
+ continue;
+
+ /* Install a new custom instruction. */
+ p->instruction_table[INSTR_CUSTOM_0 + i] = g->func;
+
+ /* First instruction of the group: change its type to the new custom instruction. */
+ instr->type = INSTR_CUSTOM_0 + i;
+
+ /* All the subsequent instructions of the group: invalidate. */
+ for (j = g->first_instr_id + 1; j <= g->last_instr_id; j++) {
+ struct instruction_data *data = &p->instruction_data[j];
+
+ data->invalid = 1;
+ }
+
+ i++;
+ }
+
+ /* Remove the invalidated instructions. */
+ p->n_instructions = instr_compact(p->instructions, p->instruction_data, p->n_instructions);
+
+ /* Resolve the jump destination for any "standalone" jump instructions (i.e. those jump
+ * instructions that are the only instruction within their group, so they were left
+ * unmodified).
+ */
+ instr_jmp_resolve(p->instructions, p->instruction_data, p->n_instructions);
+}
+
+static int
+pipeline_compile(struct rte_swx_pipeline *p)
+{
+ struct instruction_group_list *igl = NULL;
+ int status = 0;
+
+ igl = instruction_group_list_create(p);
+ if (!igl) {
+ status = -ENOMEM;
+ goto free;
+ }
+
+ /* Code generation. */
+ status = pipeline_codegen(p, igl);
+ if (status)
+ goto free;
+
+ /* Build and load the shared object library. */
+ status = pipeline_libload(p, igl);
+ if (status)
+ goto free;
+
+ /* Adjust instructions. */
+ status = pipeline_adjust_check(p, igl);
+ if (status)
+ goto free;
+
+ pipeline_adjust(p, igl);
+
+free:
+ instruction_group_list_free(igl);
+
+ return status;
+}