| /* This file is part of the program psim. |
| |
| Copyright 1994, 1995, 1996, 1997, 2003 Andrew Cagney |
| |
| This program is free software; you can redistribute it and/or modify |
| it under the terms of the GNU General Public License as published by |
| the Free Software Foundation; either version 3 of the License, or |
| (at your option) any later version. |
| |
| This program is distributed in the hope that it will be useful, |
| but WITHOUT ANY WARRANTY; without even the implied warranty of |
| MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
| GNU General Public License for more details. |
| |
| You should have received a copy of the GNU General Public License |
| along with this program; if not, see <http://www.gnu.org/licenses/>. |
| |
| */ |
| |
| #include "misc.h" |
| #include "lf.h" |
| #include "table.h" |
| |
| #include "filter.h" |
| |
| #include "ld-decode.h" |
| #include "ld-cache.h" |
| #include "ld-insn.h" |
| |
| #include "igen.h" |
| |
| #include "gen-idecode.h" |
| #include "gen-icache.h" |
| #include "gen-semantics.h" |
| |
| |
| |
| static void |
| lf_print_opcodes(lf *file, |
| insn_table *table) |
| { |
| if (table != NULL) { |
| while (1) { |
| ASSERT(table->opcode != NULL); |
| lf_printf(file, "_%d_%d", |
| table->opcode->first, |
| table->opcode->last); |
| if (table->parent == NULL) break; |
| lf_printf(file, "__%d", table->opcode_nr); |
| table = table->parent; |
| } |
| } |
| } |
| |
| /****************************************************************/ |
| |
| |
| static void |
| lf_print_table_name(lf *file, |
| insn_table *table) |
| { |
| lf_printf(file, "idecode_table"); |
| lf_print_opcodes(file, table); |
| } |
| |
| |
| |
| static void |
| print_idecode_table(lf *file, |
| insn_table *entry, |
| const char *result) |
| { |
| lf_printf(file, "/* prime the search */\n"); |
| lf_printf(file, "idecode_table_entry *table = "); |
| lf_print_table_name(file, entry); |
| lf_printf(file, ";\n"); |
| lf_printf(file, "int opcode = EXTRACTED32(instruction, %d, %d);\n", |
| i2target(hi_bit_nr, entry->opcode->first), |
| i2target(hi_bit_nr, entry->opcode->last)); |
| lf_printf(file, "idecode_table_entry *table_entry = table + opcode;\n"); |
| |
| lf_printf(file, "\n"); |
| lf_printf(file, "/* iterate until a leaf */\n"); |
| lf_printf(file, "while (1) {\n"); |
| lf_printf(file, " signed shift = table_entry->shift;\n"); |
| lf_printf(file, "if (shift == function_entry) break;\n"); |
| lf_printf(file, " if (shift >= 0) {\n"); |
| lf_printf(file, " table = ((idecode_table_entry*)\n"); |
| lf_printf(file, " table_entry->function_or_table);\n"); |
| lf_printf(file, " opcode = ((instruction & table_entry->mask)\n"); |
| lf_printf(file, " >> shift);\n"); |
| lf_printf(file, " table_entry = table + opcode;\n"); |
| lf_printf(file, " }\n"); |
| lf_printf(file, " else {\n"); |
| lf_printf(file, " /* must be a boolean */\n"); |
| lf_printf(file, " ASSERT(table_entry->shift == boolean_entry);\n"); |
| lf_printf(file, " opcode = ((instruction & table_entry->mask)\n"); |
| lf_printf(file, " != table_entry->value);\n"); |
| lf_printf(file, " table = ((idecode_table_entry*)\n"); |
| lf_printf(file, " table_entry->function_or_table);\n"); |
| lf_printf(file, " table_entry = table + opcode;\n"); |
| lf_printf(file, " }\n"); |
| lf_printf(file, "}\n"); |
| |
| lf_printf(file, "\n"); |
| lf_printf(file, "/* call the leaf code */\n"); |
| if ((code & generate_jumps)) { |
| lf_printf(file, "goto *table_entry->function_or_table;\n"); |
| } |
| else { |
| lf_printf(file, "%s ", result); |
| if ((code & generate_with_icache)) { |
| lf_printf(file, "(((idecode_icache*)table_entry->function_or_table)\n"); |
| lf_printf(file, " (%s));\n", ICACHE_FUNCTION_ACTUAL); |
| } |
| else { |
| lf_printf(file, "((idecode_semantic*)table_entry->function_or_table)\n"); |
| lf_printf(file, " (%s);\n", SEMANTIC_FUNCTION_ACTUAL); |
| } |
| } |
| } |
| |
| |
| static void |
| print_idecode_table_start(insn_table *table, |
| lf *file, |
| void *data, |
| int depth) |
| { |
| ASSERT(depth == 0); |
| /* start of the table */ |
| if (table->opcode_rule->gen == array_gen) { |
| lf_printf(file, "\n"); |
| lf_printf(file, "static idecode_table_entry "); |
| lf_print_table_name(file, table); |
| lf_printf(file, "[] = {\n"); |
| } |
| } |
| |
| static void |
| print_idecode_table_leaf(insn_table *entry, |
| lf *file, |
| void *data, |
| insn *instruction, |
| int depth) |
| { |
| ASSERT(entry->parent != NULL); |
| ASSERT(depth == 0); |
| |
| /* add an entry to the table */ |
| if (entry->parent->opcode_rule->gen == array_gen) { |
| lf_printf(file, " /*%d*/ { ", entry->opcode_nr); |
| if (entry->opcode == NULL) { |
| /* table leaf entry */ |
| lf_printf(file, "function_entry, 0, 0, "); |
| if ((code & generate_jumps)) |
| lf_printf(file, "&&"); |
| print_function_name(file, |
| entry->insns->file_entry->fields[insn_name], |
| entry->expanded_bits, |
| ((code & generate_with_icache) |
| ? function_name_prefix_icache |
| : function_name_prefix_semantics)); |
| } |
| else if (entry->opcode_rule->gen == switch_gen |
| || entry->opcode_rule->gen == goto_switch_gen |
| || entry->opcode_rule->gen == padded_switch_gen) { |
| /* table calling switch statement */ |
| lf_printf(file, "function_entry, 0, 0, "); |
| if ((code & generate_jumps)) |
| lf_printf(file, "&&"); |
| lf_print_table_name(file, entry); |
| } |
| else if (entry->opcode->is_boolean) { |
| /* table `calling' boolean table */ |
| lf_printf(file, "boolean_entry, "); |
| lf_printf(file, "MASK32(%d, %d), ", |
| i2target(hi_bit_nr, entry->opcode->first), |
| i2target(hi_bit_nr, entry->opcode->last)); |
| lf_printf(file, "INSERTED32(%d, %d, %d), ", |
| entry->opcode->boolean_constant, |
| i2target(hi_bit_nr, entry->opcode->first), |
| i2target(hi_bit_nr, entry->opcode->last)); |
| lf_print_table_name(file, entry); |
| } |
| else { |
| /* table `calling' another table */ |
| lf_printf(file, "%d, ", insn_bit_size - entry->opcode->last - 1); |
| lf_printf(file, "MASK32(%d,%d), ", |
| i2target(hi_bit_nr, entry->opcode->first), |
| i2target(hi_bit_nr, entry->opcode->last)); |
| lf_printf(file, "0, "); |
| lf_print_table_name(file, entry); |
| } |
| lf_printf(file, " },\n"); |
| } |
| } |
| |
| static void |
| print_idecode_table_end(insn_table *table, |
| lf *file, |
| void *data, |
| int depth) |
| { |
| ASSERT(depth == 0); |
| if (table->opcode_rule->gen == array_gen) { |
| lf_printf(file, "};\n"); |
| } |
| } |
| |
| static void |
| print_idecode_table_padding(insn_table *table, |
| lf *file, |
| void *data, |
| int depth, |
| int opcode_nr) |
| { |
| ASSERT(depth == 0); |
| if (table->opcode_rule->gen == array_gen) { |
| lf_printf(file, " /*%d*/ { function_entry, 0, 0, ", opcode_nr); |
| if ((code & generate_jumps)) |
| lf_printf(file, "&&"); |
| lf_printf(file, "%s_illegal },\n", |
| ((code & generate_with_icache) ? "icache" : "semantic")); |
| } |
| } |
| |
| |
| /****************************************************************/ |
| |
| |
| static void |
| print_goto_switch_name(lf *file, |
| insn_table *entry) |
| { |
| lf_printf(file, "case_"); |
| if (entry->opcode == NULL) |
| print_function_name(file, |
| entry->insns->file_entry->fields[insn_name], |
| entry->expanded_bits, |
| ((code & generate_with_icache) |
| ? function_name_prefix_icache |
| : function_name_prefix_semantics)); |
| else |
| lf_print_table_name(file, entry); |
| } |
| |
| static void |
| print_goto_switch_table_leaf(insn_table *entry, |
| lf *file, |
| void *data, |
| insn *instruction, |
| int depth) |
| { |
| ASSERT(entry->parent != NULL); |
| ASSERT(depth == 0); |
| ASSERT(entry->parent->opcode_rule->gen == goto_switch_gen); |
| ASSERT(entry->parent->opcode); |
| |
| lf_printf(file, "&&"); |
| print_goto_switch_name(file, entry); |
| lf_printf(file, ",\n"); |
| } |
| |
| static void |
| print_goto_switch_table_padding(insn_table *table, |
| lf *file, |
| void *data, |
| int depth, |
| int opcode_nr) |
| { |
| ASSERT(depth == 0); |
| ASSERT(table->opcode_rule->gen == goto_switch_gen); |
| |
| lf_printf(file, "&&illegal_"); |
| lf_print_table_name(file, table); |
| lf_printf(file, ",\n"); |
| } |
| |
| static void |
| print_goto_switch_break(lf *file, |
| insn_table *entry) |
| { |
| lf_printf(file, "goto break_"); |
| lf_print_table_name(file, entry->parent); |
| lf_printf(file, ";\n"); |
| } |
| |
| |
| static void |
| print_goto_switch_table(lf *file, |
| insn_table *table) |
| { |
| lf_printf(file, "const static void *"); |
| lf_print_table_name(file, table); |
| lf_printf(file, "[] = {\n"); |
| lf_indent(file, +2); |
| insn_table_traverse_tree(table, |
| file, NULL/*data*/, |
| 0, |
| NULL/*start*/, |
| print_goto_switch_table_leaf, |
| NULL/*end*/, |
| print_goto_switch_table_padding); |
| lf_indent(file, -2); |
| lf_printf(file, "};\n"); |
| } |
| |
| |
| void print_idecode_switch |
| (lf *file, |
| insn_table *table, |
| const char *result); |
| |
| static void |
| idecode_switch_start(insn_table *table, |
| lf *file, |
| void *data, |
| int depth) |
| { |
| /* const char *result = data; */ |
| ASSERT(depth == 0); |
| ASSERT(table->opcode_rule->gen == switch_gen |
| || table->opcode_rule->gen == goto_switch_gen |
| || table->opcode_rule->gen == padded_switch_gen); |
| |
| if (table->opcode->is_boolean |
| || table->opcode_rule->gen == switch_gen |
| || table->opcode_rule->gen == padded_switch_gen) { |
| lf_printf(file, "switch (EXTRACTED32(instruction, %d, %d)) {\n", |
| i2target(hi_bit_nr, table->opcode->first), |
| i2target(hi_bit_nr, table->opcode->last)); |
| } |
| else if (table->opcode_rule->gen == goto_switch_gen) { |
| if (table->parent != NULL |
| && (table->parent->opcode_rule->gen == switch_gen |
| || table->parent->opcode_rule->gen == goto_switch_gen |
| || table->parent->opcode_rule->gen == padded_switch_gen)) { |
| lf_printf(file, "{\n"); |
| lf_indent(file, +2); |
| } |
| print_goto_switch_table(file, table); |
| lf_printf(file, "ASSERT(EXTRACTED32(instruction, %d, %d)\n", |
| i2target(hi_bit_nr, table->opcode->first), |
| i2target(hi_bit_nr, table->opcode->last)); |
| lf_printf(file, " < (sizeof("); |
| lf_print_table_name(file, table); |
| lf_printf(file, ") / sizeof(void*)));\n"); |
| lf_printf(file, "goto *"); |
| lf_print_table_name(file, table); |
| lf_printf(file, "[EXTRACTED32(instruction, %d, %d)];\n", |
| i2target(hi_bit_nr, table->opcode->first), |
| i2target(hi_bit_nr, table->opcode->last)); |
| } |
| else { |
| ASSERT("bad switch" == NULL); |
| } |
| } |
| |
| |
| static void |
| idecode_switch_leaf(insn_table *entry, |
| lf *file, |
| void *data, |
| insn *instruction, |
| int depth) |
| { |
| const char *result = data; |
| ASSERT(entry->parent != NULL); |
| ASSERT(depth == 0); |
| ASSERT(entry->parent->opcode_rule->gen == switch_gen |
| || entry->parent->opcode_rule->gen == goto_switch_gen |
| || entry->parent->opcode_rule->gen == padded_switch_gen); |
| ASSERT(entry->parent->opcode); |
| |
| if (entry->parent->opcode->is_boolean |
| && entry->opcode_nr == 0) { |
| /* boolean false target */ |
| lf_printf(file, "case %d:\n", entry->parent->opcode->boolean_constant); |
| } |
| else if (entry->parent->opcode->is_boolean |
| && entry->opcode_nr != 0) { |
| /* boolean true case */ |
| lf_printf(file, "default:\n"); |
| } |
| else if (entry->parent->opcode_rule->gen == switch_gen |
| || entry->parent->opcode_rule->gen == padded_switch_gen) { |
| /* normal goto */ |
| lf_printf(file, "case %d:\n", entry->opcode_nr); |
| } |
| else if (entry->parent->opcode_rule->gen == goto_switch_gen) { |
| /* lf_indent(file, -1); */ |
| print_goto_switch_name(file, entry); |
| lf_printf(file, ":\n"); |
| /* lf_indent(file, +1); */ |
| } |
| else { |
| ASSERT("bad switch" == NULL); |
| } |
| lf_indent(file, +2); |
| { |
| if (entry->opcode == NULL) { |
| /* switch calling leaf */ |
| if ((code & generate_jumps)) |
| lf_printf(file, "goto "); |
| if ((code & generate_calls)) |
| lf_printf(file, "%s ", result); |
| print_function_name(file, |
| entry->insns->file_entry->fields[insn_name], |
| entry->expanded_bits, |
| ((code & generate_with_icache) |
| ? function_name_prefix_icache |
| : function_name_prefix_semantics)); |
| if ((code & generate_calls)) |
| lf_printf(file, "(%s)", SEMANTIC_FUNCTION_ACTUAL); |
| lf_printf(file, ";\n"); |
| } |
| else if (entry->opcode_rule->gen == switch_gen |
| || entry->opcode_rule->gen == goto_switch_gen |
| || entry->opcode_rule->gen == padded_switch_gen) { |
| /* switch calling switch */ |
| print_idecode_switch(file, entry, result); |
| } |
| else { |
| /* switch looking up a table */ |
| lf_printf(file, "{\n"); |
| lf_indent(file, -2); |
| print_idecode_table(file, entry, result); |
| lf_indent(file, -2); |
| lf_printf(file, "}\n"); |
| } |
| if (entry->parent->opcode->is_boolean |
| || entry->parent->opcode_rule->gen == switch_gen |
| || entry->parent->opcode_rule->gen == padded_switch_gen) { |
| lf_printf(file, "break;\n"); |
| } |
| else if (entry->parent->opcode_rule->gen == goto_switch_gen) { |
| print_goto_switch_break(file, entry); |
| } |
| else { |
| ASSERT("bad switch" == NULL); |
| } |
| } |
| lf_indent(file, -2); |
| } |
| |
| |
| static void |
| print_idecode_switch_illegal(lf *file, |
| const char *result) |
| { |
| lf_indent(file, +2); |
| print_idecode_illegal(file, result); |
| lf_printf(file, "break;\n"); |
| lf_indent(file, -2); |
| } |
| |
| static void |
| idecode_switch_end(insn_table *table, |
| lf *file, |
| void *data, |
| int depth) |
| { |
| const char *result = data; |
| ASSERT(depth == 0); |
| ASSERT(table->opcode_rule->gen == switch_gen |
| || table->opcode_rule->gen == goto_switch_gen |
| || table->opcode_rule->gen == padded_switch_gen); |
| ASSERT(table->opcode); |
| |
| if (table->opcode->is_boolean) { |
| lf_printf(file, "}\n"); |
| } |
| else if (table->opcode_rule->gen == switch_gen |
| || table->opcode_rule->gen == padded_switch_gen) { |
| lf_printf(file, "default:\n"); |
| switch (table->opcode_rule->gen) { |
| case switch_gen: |
| print_idecode_switch_illegal(file, result); |
| break; |
| case padded_switch_gen: |
| lf_printf(file, " error(\"Internal error - bad switch generated\\n\");\n"); |
| lf_printf(file, " break;\n"); |
| break; |
| default: |
| ASSERT("bad switch" == NULL); |
| } |
| lf_printf(file, "}\n"); |
| } |
| else if (table->opcode_rule->gen == goto_switch_gen) { |
| lf_printf(file, "illegal_"); |
| lf_print_table_name(file, table); |
| lf_printf(file, ":\n"); |
| print_idecode_illegal(file, result); |
| lf_printf(file, "break_"); |
| lf_print_table_name(file, table); |
| lf_printf(file, ":;\n"); |
| if (table->parent != NULL |
| && (table->parent->opcode_rule->gen == switch_gen |
| || table->parent->opcode_rule->gen == goto_switch_gen |
| || table->parent->opcode_rule->gen == padded_switch_gen)) { |
| lf_indent(file, -2); |
| lf_printf(file, "}\n"); |
| } |
| } |
| else { |
| ASSERT("bad switch" == NULL); |
| } |
| } |
| |
| static void |
| idecode_switch_padding(insn_table *table, |
| lf *file, |
| void *data, |
| int depth, |
| int opcode_nr) |
| { |
| const char *result = data; |
| ASSERT(depth == 0); |
| ASSERT(table->opcode_rule->gen == switch_gen |
| || table->opcode_rule->gen == goto_switch_gen |
| || table->opcode_rule->gen == padded_switch_gen); |
| |
| switch (table->opcode_rule->gen) { |
| case switch_gen: |
| break; |
| case padded_switch_gen: |
| lf_printf(file, "case %d:\n", opcode_nr); |
| print_idecode_switch_illegal(file, result); |
| break; |
| case goto_switch_gen: |
| /* no padding needed */ |
| break; |
| default: |
| ASSERT("bad switch" != NULL); |
| } |
| } |
| |
| |
| void |
| print_idecode_switch(lf *file, |
| insn_table *table, |
| const char *result) |
| { |
| insn_table_traverse_tree(table, |
| file, (void*)result, |
| 0, |
| idecode_switch_start, |
| idecode_switch_leaf, |
| idecode_switch_end, |
| idecode_switch_padding); |
| } |
| |
| |
| static void |
| print_idecode_switch_function_header(lf *file, |
| insn_table *table, |
| int is_function_definition) |
| { |
| lf_printf(file, "\n"); |
| if ((code & generate_calls)) { |
| lf_printf(file, "static "); |
| if ((code & generate_with_icache)) |
| lf_printf(file, "idecode_semantic *"); |
| else |
| lf_printf(file, "unsigned_word"); |
| if (is_function_definition) |
| lf_printf(file, "\n"); |
| else |
| lf_printf(file, " "); |
| lf_print_table_name(file, table); |
| lf_printf(file, "\n(%s)", ICACHE_FUNCTION_FORMAL); |
| if (!is_function_definition) |
| lf_printf(file, ";"); |
| lf_printf(file, "\n"); |
| } |
| if ((code & generate_jumps) && is_function_definition) { |
| lf_indent(file, -1); |
| lf_print_table_name(file, table); |
| lf_printf(file, ":\n"); |
| lf_indent(file, +1); |
| } |
| } |
| |
| |
| static void |
| idecode_declare_if_switch(insn_table *table, |
| lf *file, |
| void *data, |
| int depth) |
| { |
| if ((table->opcode_rule->gen == switch_gen |
| || table->opcode_rule->gen == goto_switch_gen |
| || table->opcode_rule->gen == padded_switch_gen) |
| && table->parent != NULL /* don't declare the top one yet */ |
| && table->parent->opcode_rule->gen == array_gen) { |
| print_idecode_switch_function_header(file, |
| table, |
| 0/*isnt function definition*/); |
| } |
| } |
| |
| |
| static void |
| idecode_expand_if_switch(insn_table *table, |
| lf *file, |
| void *data, |
| int depth) |
| { |
| if ((table->opcode_rule->gen == switch_gen |
| || table->opcode_rule->gen == goto_switch_gen |
| || table->opcode_rule->gen == padded_switch_gen) |
| && table->parent != NULL /* don't expand the top one yet */ |
| && table->parent->opcode_rule->gen == array_gen) { |
| print_idecode_switch_function_header(file, |
| table, |
| 1/*is function definition*/); |
| if ((code & generate_calls)) { |
| lf_printf(file, "{\n"); |
| lf_indent(file, +2); |
| } |
| print_idecode_switch(file, table, "return"); |
| if ((code & generate_calls)) { |
| lf_indent(file, -2); |
| lf_printf(file, "}\n"); |
| } |
| } |
| } |
| |
| |
| /****************************************************************/ |
| |
| |
| static void |
| print_idecode_lookups(lf *file, |
| insn_table *table, |
| cache_table *cache_rules) |
| { |
| int depth; |
| |
| /* output switch function declarations where needed by tables */ |
| insn_table_traverse_tree(table, |
| file, NULL, |
| 1, |
| idecode_declare_if_switch, /* START */ |
| NULL, NULL, NULL); |
| |
| /* output tables where needed */ |
| for (depth = insn_table_depth(table); |
| depth > 0; |
| depth--) { |
| insn_table_traverse_tree(table, |
| file, NULL, |
| 1-depth, |
| print_idecode_table_start, |
| print_idecode_table_leaf, |
| print_idecode_table_end, |
| print_idecode_table_padding); |
| } |
| |
| /* output switch functions where needed */ |
| insn_table_traverse_tree(table, |
| file, NULL, |
| 1, |
| idecode_expand_if_switch, /* START */ |
| NULL, NULL, NULL); |
| } |
| |
| |
| static void |
| print_idecode_body(lf *file, |
| insn_table *table, |
| const char *result) |
| { |
| if (table->opcode_rule->gen == switch_gen |
| || table->opcode_rule->gen == goto_switch_gen |
| || table->opcode_rule->gen == padded_switch_gen) |
| print_idecode_switch(file, table, result); |
| else |
| print_idecode_table(file, table, result); |
| } |
| |
| |
| /****************************************************************/ |
| |
| |
| static void |
| print_run_until_stop_body(lf *file, |
| insn_table *table, |
| int can_stop) |
| { |
| /* Output the function to execute real code: |
| |
| Unfortunatly, there are multiple cases to consider vis: |
| |
| <icache> X <smp> X <events> X <keep-running-flag> X ... |
| |
| Consequently this function is written in multiple different ways */ |
| |
| lf_putstr(file, "{\n"); |
| lf_indent(file, +2); |
| lf_putstr(file, "jmp_buf halt;\n"); |
| lf_putstr(file, "jmp_buf restart;\n"); |
| if (!generate_smp) { |
| lf_putstr(file, "cpu *processor = NULL;\n"); |
| lf_putstr(file, "unsigned_word cia = -1;\n"); |
| } |
| lf_putstr(file, "int last_cpu;\n"); |
| if (generate_smp) { |
| lf_putstr(file, "int current_cpu;\n"); |
| } |
| |
| if ((code & generate_with_icache)) { |
| lf_putstr(file, "int cpu_nr;\n"); |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "/* flush the icache of a possible break insn */\n"); |
| lf_putstr(file, "for (cpu_nr = 0; cpu_nr < nr_cpus; cpu_nr++)\n"); |
| lf_putstr(file, " cpu_flush_icache(processors[cpu_nr]);\n"); |
| } |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "/* set the halt target initially */\n"); |
| lf_putstr(file, "psim_set_halt_and_restart(system, &halt, NULL);\n"); |
| lf_putstr(file, "if (setjmp(halt))\n"); |
| lf_putstr(file, " return;\n"); |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "/* where were we before the halt? */\n"); |
| lf_putstr(file, "last_cpu = psim_last_cpu(system);\n"); |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "/* check for need to force event processing first */\n"); |
| lf_putstr(file, "if (WITH_EVENTS) {\n"); |
| lf_putstr(file, " if (last_cpu == nr_cpus) {\n"); |
| lf_putstr(file, " /* halted during event processing */\n"); |
| lf_putstr(file, " event_queue_process(events);\n"); |
| lf_putstr(file, " last_cpu = -1;\n"); |
| lf_putstr(file, " }\n"); |
| lf_putstr(file, " else if (last_cpu == nr_cpus - 1) {\n"); |
| lf_putstr(file, " /* last cpu did halt */\n"); |
| lf_putstr(file, " if (event_queue_tick(events)) {\n"); |
| lf_putstr(file, " event_queue_process(events);\n"); |
| lf_putstr(file, " }\n"); |
| lf_putstr(file, " last_cpu = -1;\n"); |
| lf_putstr(file, " }\n"); |
| lf_putstr(file, "}\n"); |
| lf_putstr(file, "else {\n"); |
| lf_putstr(file, " if (last_cpu == nr_cpus - 1)\n"); |
| lf_putstr(file, " /* cpu zero is next */\n"); |
| lf_putstr(file, " last_cpu = -1;\n"); |
| lf_putstr(file, "}\n"); |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "/* have ensured that the event queue can not be first */\n"); |
| lf_putstr(file, "ASSERT(last_cpu >= -1 && last_cpu < nr_cpus - 1);\n"); |
| |
| if (!generate_smp) { |
| |
| lf_putstr(file, "\n\ |
| /* CASE 1: NO SMP (with or with out instruction cache).\n\ |
| \n\ |
| In this case, we can take advantage of the fact that the current\n\ |
| instruction address does not need to be returned to the cpu object\n\ |
| after every execution of an instruction. Instead it only needs to\n\ |
| be saved when either A. the main loop exits or B. A cpu-halt or\n\ |
| cpu-restart call forces the loop to be re-enered. The later\n\ |
| functions always save the current cpu instruction address.\n\ |
| \n\ |
| Two subcases also exist that with and that without an instruction\n\ |
| cache.\n\ |
| \n\ |
| An additional complexity is the need to ensure that a 1:1 ratio\n\ |
| is maintained between the execution of an instruction and the\n\ |
| incrementing of the simulation clock */"); |
| |
| lf_putstr(file, "\n"); |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "/* now add restart target as ready to run */\n"); |
| lf_putstr(file, "psim_set_halt_and_restart(system, &halt, &restart);\n"); |
| lf_putstr(file, "if (setjmp(restart)) {\n"); |
| lf_putstr(file, " if (WITH_EVENTS) {\n"); |
| lf_putstr(file, " /* when restart, cpu must have been last, clock next */\n"); |
| lf_putstr(file, " if (event_queue_tick(events)) {\n"); |
| lf_putstr(file, " event_queue_process(events);\n"); |
| lf_putstr(file, " }\n"); |
| lf_putstr(file, " }\n"); |
| lf_putstr(file, "}\n"); |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "/* prime the main loop */\n"); |
| lf_putstr(file, "processor = processors[0];\n"); |
| lf_putstr(file, "cia = cpu_get_program_counter(processor);\n"); |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "while (1) {\n"); |
| lf_indent(file, +2); |
| |
| if (!(code & generate_with_icache)) { |
| lf_putstr(file, "instruction_word instruction =\n"); |
| lf_putstr(file, " vm_instruction_map_read(cpu_instruction_map(processor), processor, cia);\n"); |
| lf_putstr(file, "\n"); |
| print_idecode_body(file, table, "cia =");; |
| } |
| |
| if ((code & generate_with_icache)) { |
| lf_putstr(file, "idecode_cache *cache_entry =\n"); |
| lf_putstr(file, " cpu_icache_entry(processor, cia);\n"); |
| lf_putstr(file, "if (cache_entry->address == cia) {\n"); |
| lf_putstr(file, " /* cache hit */\n"); |
| lf_putstr(file, " idecode_semantic *const semantic = cache_entry->semantic;\n"); |
| lf_putstr(file, " cia = semantic(processor, cache_entry, cia);\n"); |
| /* tail */ |
| if (can_stop) { |
| lf_putstr(file, "if (keep_running != NULL && !*keep_running)\n"); |
| lf_putstr(file, " cpu_halt(processor, cia, was_continuing, 0/*ignore*/);\n"); |
| } |
| lf_putstr(file, "}\n"); |
| lf_putstr(file, "else {\n"); |
| lf_putstr(file, " /* cache miss */\n"); |
| if (!(code & generate_with_semantic_icache)) { |
| lf_indent(file, +2); |
| lf_putstr(file, "idecode_semantic *semantic;\n"); |
| lf_indent(file, -2); |
| } |
| lf_putstr(file, " instruction_word instruction =\n"); |
| lf_putstr(file, " vm_instruction_map_read(cpu_instruction_map(processor), processor, cia);\n"); |
| lf_putstr(file, " if (WITH_MON != 0)\n"); |
| lf_putstr(file, " mon_event(mon_event_icache_miss, processor, cia);\n"); |
| if ((code & generate_with_semantic_icache)) { |
| lf_putstr(file, "{\n"); |
| lf_indent(file, +2); |
| print_idecode_body(file, table, "cia ="); |
| lf_indent(file, -2); |
| lf_putstr(file, "}\n"); |
| } |
| else { |
| print_idecode_body(file, table, "semantic ="); |
| lf_putstr(file, " cia = semantic(processor, cache_entry, cia);\n"); |
| } |
| lf_putstr(file, "}\n"); |
| } |
| |
| /* events */ |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "/* process any events */\n"); |
| lf_putstr(file, "if (WITH_EVENTS) {\n"); |
| lf_putstr(file, " if (event_queue_tick(events)) {\n"); |
| lf_putstr(file, " cpu_set_program_counter(processor, cia);\n"); |
| lf_putstr(file, " event_queue_process(events);\n"); |
| lf_putstr(file, " cia = cpu_get_program_counter(processor);\n"); |
| lf_putstr(file, " }\n"); |
| lf_putstr(file, "}\n"); |
| |
| /* tail */ |
| if (can_stop) { |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "/* abort if necessary */\n"); |
| lf_putstr(file, "if (keep_running != NULL && !*keep_running)\n"); |
| lf_putstr(file, " cpu_halt(processor, cia, was_continuing, 0/*not important*/);\n"); |
| } |
| |
| lf_indent(file, -2); |
| lf_putstr(file, "}\n"); |
| } |
| |
| if (generate_smp) { |
| |
| lf_putstr(file, "\n\ |
| /* CASE 2: SMP (With or without ICACHE)\n\ |
| \n\ |
| The complexity here comes from needing to correctly restart the\n\ |
| system when it is aborted. In particular if cpu0 requests a\n\ |
| restart, the next cpu is still cpu1. Cpu0 being restarted after\n\ |
| all the other CPU's and the event queue have been processed */"); |
| |
| lf_putstr(file, "\n"); |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "/* now establish the restart target */\n"); |
| lf_putstr(file, "psim_set_halt_and_restart(system, &halt, &restart);\n"); |
| lf_putstr(file, "if (setjmp(restart)) {\n"); |
| lf_putstr(file, " current_cpu = psim_last_cpu(system);\n"); |
| lf_putstr(file, " ASSERT(current_cpu >= 0 && current_cpu < nr_cpus);\n"); |
| lf_putstr(file, "}\n"); |
| lf_putstr(file, "else {\n"); |
| lf_putstr(file, " current_cpu = last_cpu;\n"); |
| lf_putstr(file, " ASSERT(current_cpu >= -1 && current_cpu < nr_cpus);\n"); |
| lf_putstr(file, "}\n"); |
| |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "while (1) {\n"); |
| lf_indent(file, +2); |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "if (WITH_EVENTS) {\n"); |
| lf_putstr(file, " current_cpu += 1;\n"); |
| lf_putstr(file, " if (current_cpu == nr_cpus) {\n"); |
| lf_putstr(file, " if (event_queue_tick(events)) {\n"); |
| lf_putstr(file, " event_queue_process(events);\n"); |
| lf_putstr(file, " }\n"); |
| lf_putstr(file, " current_cpu = 0;\n"); |
| lf_putstr(file, " }\n"); |
| lf_putstr(file, "}\n"); |
| lf_putstr(file, "else {\n"); |
| lf_putstr(file, " current_cpu = (current_cpu + 1) % nr_cpus;\n"); |
| lf_putstr(file, "}\n"); |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "{\n"); |
| lf_indent(file, +2); |
| lf_putstr(file, "cpu *processor = processors[current_cpu];\n"); |
| lf_putstr(file, "unsigned_word cia =\n"); |
| lf_putstr(file, " cpu_get_program_counter(processor);\n"); |
| |
| if (!(code & generate_with_icache)) { |
| lf_putstr(file, "instruction_word instruction =\n"); |
| lf_putstr(file, " vm_instruction_map_read(cpu_instruction_map(processor), processor, cia);\n"); |
| print_idecode_body(file, table, "cia ="); |
| if (can_stop) { |
| lf_putstr(file, "if (keep_running != NULL && !*keep_running)\n"); |
| lf_putstr(file, " cpu_halt(processor, cia, was_continuing, 0/*ignore*/);\n"); |
| } |
| lf_putstr(file, "cpu_set_program_counter(processor, cia);\n"); |
| } |
| |
| if ((code & generate_with_icache)) { |
| lf_putstr(file, "idecode_cache *cache_entry =\n"); |
| lf_putstr(file, " cpu_icache_entry(processor, cia);\n"); |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "if (cache_entry->address == cia) {\n"); |
| { |
| lf_indent(file, +2); |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "/* cache hit */\n"); |
| lf_putstr(file, "idecode_semantic *semantic = cache_entry->semantic;\n"); |
| lf_putstr(file, "cia = semantic(processor, cache_entry, cia);\n"); |
| /* tail */ |
| if (can_stop) { |
| lf_putstr(file, "if (keep_running != NULL && !*keep_running)\n"); |
| lf_putstr(file, " cpu_halt(processor, cia, was_continuing, 0/*ignore-signal*/);\n"); |
| } |
| lf_putstr(file, "cpu_set_program_counter(processor, cia);\n"); |
| lf_putstr(file, "\n"); |
| lf_indent(file, -2); |
| } |
| lf_putstr(file, "}\n"); |
| lf_putstr(file, "else {\n"); |
| { |
| lf_indent(file, +2); |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "/* cache miss */\n"); |
| if (!(code & generate_with_semantic_icache)) { |
| lf_putstr(file, "idecode_semantic *semantic;\n"); |
| } |
| lf_putstr(file, "instruction_word instruction =\n"); |
| lf_putstr(file, " vm_instruction_map_read(cpu_instruction_map(processor), processor, cia);\n"); |
| lf_putstr(file, "if (WITH_MON != 0)\n"); |
| lf_putstr(file, " mon_event(mon_event_icache_miss, processors[current_cpu], cia);\n"); |
| if ((code & generate_with_semantic_icache)) { |
| lf_putstr(file, "{\n"); |
| lf_indent(file, +2); |
| print_idecode_body(file, table, "cia ="); |
| lf_indent(file, -2); |
| lf_putstr(file, "}\n"); |
| } |
| else { |
| print_idecode_body(file, table, "semantic = "); |
| lf_putstr(file, "cia = semantic(processor, cache_entry, cia);\n"); |
| } |
| /* tail */ |
| if (can_stop) { |
| lf_putstr(file, "if (keep_running != NULL && !*keep_running)\n"); |
| lf_putstr(file, " cpu_halt(processor, cia, was_continuing, 0/*ignore-signal*/);\n"); |
| } |
| lf_putstr(file, "cpu_set_program_counter(processor, cia);\n"); |
| lf_putstr(file, "\n"); |
| lf_indent(file, -2); |
| } |
| lf_putstr(file, "}\n"); |
| } |
| |
| /* close */ |
| lf_indent(file, -2); |
| lf_putstr(file, "}\n"); |
| |
| /* tail */ |
| lf_indent(file, -2); |
| lf_putstr(file, "}\n"); |
| } |
| |
| |
| lf_indent(file, -2); |
| lf_putstr(file, "}\n"); |
| } |
| |
| |
| /****************************************************************/ |
| |
| static void |
| print_jump(lf *file, |
| int is_tail) |
| { |
| if (is_tail) { |
| lf_putstr(file, "if (keep_running != NULL && !*keep_running)\n"); |
| lf_putstr(file, " cpu_halt(processor, nia, was_continuing, 0/*na*/);\n"); |
| } |
| |
| if (!generate_smp) { |
| lf_putstr(file, "if (WITH_EVENTS) {\n"); |
| lf_putstr(file, " if (event_queue_tick(events)) {\n"); |
| lf_putstr(file, " cpu_set_program_counter(processor, nia);\n"); |
| lf_putstr(file, " event_queue_process(events);\n"); |
| lf_putstr(file, " nia = cpu_get_program_counter(processor);\n"); |
| lf_putstr(file, " }\n"); |
| lf_putstr(file, "}\n"); |
| } |
| |
| if (generate_smp) { |
| if (is_tail) |
| lf_putstr(file, "cpu_set_program_counter(processor, nia);\n"); |
| lf_putstr(file, "if (WITH_EVENTS) {\n"); |
| lf_putstr(file, " current_cpu += 1;\n"); |
| lf_putstr(file, " if (current_cpu >= nr_cpus) {\n"); |
| lf_putstr(file, " if (event_queue_tick(events)) {\n"); |
| lf_putstr(file, " event_queue_process(events);\n"); |
| lf_putstr(file, " }\n"); |
| lf_putstr(file, " current_cpu = 0;\n"); |
| lf_putstr(file, " }\n"); |
| lf_putstr(file, "}\n"); |
| lf_putstr(file, "else {\n"); |
| lf_putstr(file, " current_cpu = (current_cpu + 1) % nr_cpus;\n"); |
| lf_putstr(file, "}\n"); |
| lf_putstr(file, "processor = processors[current_cpu];\n"); |
| lf_putstr(file, "nia = cpu_get_program_counter(processor);\n"); |
| } |
| |
| if ((code & generate_with_icache)) { |
| lf_putstr(file, "cache_entry = cpu_icache_entry(processor, nia);\n"); |
| lf_putstr(file, "if (cache_entry->address == nia) {\n"); |
| lf_putstr(file, " /* cache hit */\n"); |
| lf_putstr(file, " goto *cache_entry->semantic;\n"); |
| lf_putstr(file, "}\n"); |
| if (is_tail) { |
| lf_putstr(file, "goto cache_miss;\n"); |
| } |
| } |
| |
| if (!(code & generate_with_icache) && is_tail) { |
| lf_printf(file, "goto idecode;\n"); |
| } |
| |
| } |
| |
| |
| |
| |
| |
| static void |
| print_jump_insn(lf *file, |
| insn *instruction, |
| insn_bits *expanded_bits, |
| opcode_field *opcodes, |
| cache_table *cache_rules) |
| { |
| |
| /* what we are for the moment */ |
| lf_printf(file, "\n"); |
| print_my_defines(file, expanded_bits, instruction->file_entry); |
| |
| /* output the icache entry */ |
| if ((code & generate_with_icache)) { |
| lf_printf(file, "\n"); |
| lf_indent(file, -1); |
| print_function_name(file, |
| instruction->file_entry->fields[insn_name], |
| expanded_bits, |
| function_name_prefix_icache); |
| lf_printf(file, ":\n"); |
| lf_indent(file, +1); |
| lf_printf(file, "{\n"); |
| lf_indent(file, +2); |
| lf_putstr(file, "const unsigned_word cia = nia;\n"); |
| print_itrace(file, instruction->file_entry, 1/*putting-value-in-cache*/); |
| print_idecode_validate(file, instruction, opcodes); |
| lf_printf(file, "\n"); |
| lf_printf(file, "{\n"); |
| lf_indent(file, +2); |
| print_icache_body(file, |
| instruction, |
| expanded_bits, |
| cache_rules, |
| 0, /*use_defines*/ |
| put_values_in_icache); |
| lf_printf(file, "cache_entry->address = nia;\n"); |
| lf_printf(file, "cache_entry->semantic = &&"); |
| print_function_name(file, |
| instruction->file_entry->fields[insn_name], |
| expanded_bits, |
| function_name_prefix_semantics); |
| lf_printf(file, ";\n"); |
| if ((code & generate_with_semantic_icache)) { |
| print_semantic_body(file, |
| instruction, |
| expanded_bits, |
| opcodes); |
| print_jump(file, 1/*is-tail*/); |
| } |
| else { |
| lf_printf(file, "/* goto "); |
| print_function_name(file, |
| instruction->file_entry->fields[insn_name], |
| expanded_bits, |
| function_name_prefix_semantics); |
| lf_printf(file, "; */\n"); |
| } |
| lf_indent(file, -2); |
| lf_putstr(file, "}\n"); |
| lf_indent(file, -2); |
| lf_printf(file, "}\n"); |
| } |
| |
| /* print the semantics */ |
| lf_printf(file, "\n"); |
| lf_indent(file, -1); |
| print_function_name(file, |
| instruction->file_entry->fields[insn_name], |
| expanded_bits, |
| function_name_prefix_semantics); |
| lf_printf(file, ":\n"); |
| lf_indent(file, +1); |
| lf_printf(file, "{\n"); |
| lf_indent(file, +2); |
| lf_putstr(file, "const unsigned_word cia = nia;\n"); |
| print_icache_body(file, |
| instruction, |
| expanded_bits, |
| cache_rules, |
| ((code & generate_with_direct_access) |
| ? define_variables |
| : declare_variables), |
| ((code & generate_with_icache) |
| ? get_values_from_icache |
| : do_not_use_icache)); |
| print_semantic_body(file, |
| instruction, |
| expanded_bits, |
| opcodes); |
| if (code & generate_with_direct_access) |
| print_icache_body(file, |
| instruction, |
| expanded_bits, |
| cache_rules, |
| undef_variables, |
| ((code & generate_with_icache) |
| ? get_values_from_icache |
| : do_not_use_icache)); |
| print_jump(file, 1/*is tail*/); |
| lf_indent(file, -2); |
| lf_printf(file, "}\n"); |
| } |
| |
| static void |
| print_jump_definition(insn_table *entry, |
| lf *file, |
| void *data, |
| insn *instruction, |
| int depth) |
| { |
| cache_table *cache_rules = (cache_table*)data; |
| if (generate_expanded_instructions) { |
| ASSERT(entry->nr_insn == 1 |
| && entry->opcode == NULL |
| && entry->parent != NULL |
| && entry->parent->opcode != NULL); |
| ASSERT(entry->nr_insn == 1 |
| && entry->opcode == NULL |
| && entry->parent != NULL |
| && entry->parent->opcode != NULL |
| && entry->parent->opcode_rule != NULL); |
| print_jump_insn(file, |
| entry->insns, |
| entry->expanded_bits, |
| entry->opcode, |
| cache_rules); |
| } |
| else { |
| print_jump_insn(file, |
| instruction, |
| NULL, |
| NULL, |
| cache_rules); |
| } |
| } |
| |
| |
| static void |
| print_jump_internal_function(insn_table *table, |
| lf *file, |
| void *data, |
| table_entry *function) |
| { |
| if (it_is("internal", function->fields[insn_flags])) { |
| lf_printf(file, "\n"); |
| table_entry_print_cpp_line_nr(file, function); |
| lf_indent(file, -1); |
| print_function_name(file, |
| function->fields[insn_name], |
| NULL, |
| ((code & generate_with_icache) |
| ? function_name_prefix_icache |
| : function_name_prefix_semantics)); |
| lf_printf(file, ":\n"); |
| lf_indent(file, +1); |
| lf_printf(file, "{\n"); |
| lf_indent(file, +2); |
| lf_printf(file, "const unsigned_word cia = nia;\n"); |
| lf_print__c_code(file, function->annex); |
| lf_print__internal_reference(file); |
| lf_printf(file, "error(\"Internal function must longjump\\n\");\n"); |
| lf_indent(file, -2); |
| lf_printf(file, "}\n"); |
| } |
| } |
| |
| static void |
| print_jump_until_stop_body(lf *file, |
| insn_table *table, |
| cache_table *cache_rules, |
| int can_stop) |
| { |
| lf_printf(file, "{\n"); |
| lf_indent(file, +2); |
| if (!can_stop) |
| lf_printf(file, "int *keep_running = NULL;\n"); |
| lf_putstr(file, "jmp_buf halt;\n"); |
| lf_putstr(file, "jmp_buf restart;\n"); |
| lf_putstr(file, "cpu *processor = NULL;\n"); |
| lf_putstr(file, "unsigned_word nia = -1;\n"); |
| lf_putstr(file, "instruction_word instruction = 0;\n"); |
| if ((code & generate_with_icache)) { |
| lf_putstr(file, "idecode_cache *cache_entry = NULL;\n"); |
| } |
| if (generate_smp) { |
| lf_putstr(file, "int current_cpu = -1;\n"); |
| } |
| |
| /* all the switches and tables - they know about jumping */ |
| print_idecode_lookups(file, table, cache_rules); |
| |
| /* start the simulation up */ |
| if ((code & generate_with_icache)) { |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "{\n"); |
| lf_putstr(file, " int cpu_nr;\n"); |
| lf_putstr(file, " for (cpu_nr = 0; cpu_nr < nr_cpus; cpu_nr++)\n"); |
| lf_putstr(file, " cpu_flush_icache(processors[cpu_nr]);\n"); |
| lf_putstr(file, "}\n"); |
| } |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "psim_set_halt_and_restart(system, &halt, &restart);\n"); |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "if (setjmp(halt))\n"); |
| lf_putstr(file, " return;\n"); |
| |
| lf_putstr(file, "\n"); |
| lf_putstr(file, "setjmp(restart);\n"); |
| |
| lf_putstr(file, "\n"); |
| if (!generate_smp) { |
| lf_putstr(file, "processor = processors[0];\n"); |
| lf_putstr(file, "nia = cpu_get_program_counter(processor);\n"); |
| } |
| else { |
| lf_putstr(file, "current_cpu = psim_last_cpu(system);\n"); |
| } |
| |
| if (!(code & generate_with_icache)) { |
| lf_printf(file, "\n"); |
| lf_indent(file, -1); |
| lf_printf(file, "idecode:\n"); |
| lf_indent(file, +1); |
| } |
| |
| print_jump(file, 0/*is_tail*/); |
| |
| if ((code & generate_with_icache)) { |
| lf_indent(file, -1); |
| lf_printf(file, "cache_miss:\n"); |
| lf_indent(file, +1); |
| } |
| |
| lf_putstr(file, "instruction\n"); |
| lf_putstr(file, " = vm_instruction_map_read(cpu_instruction_map(processor),\n"); |
| lf_putstr(file, " processor, nia);\n"); |
| print_idecode_body(file, table, "/*IGORE*/"); |
| |
| /* print out a table of all the internals functions */ |
| insn_table_traverse_function(table, |
| file, NULL, |
| print_jump_internal_function); |
| |
| /* print out a table of all the instructions */ |
| if (generate_expanded_instructions) |
| insn_table_traverse_tree(table, |
| file, cache_rules, |
| 1, |
| NULL, /* start */ |
| print_jump_definition, /* leaf */ |
| NULL, /* end */ |
| NULL); /* padding */ |
| else |
| insn_table_traverse_insn(table, |
| file, cache_rules, |
| print_jump_definition); |
| lf_indent(file, -2); |
| lf_printf(file, "}\n"); |
| } |
| |
| |
| /****************************************************************/ |
| |
| |
| |
| static void |
| print_idecode_floating_point_unavailable(lf *file) |
| { |
| if ((code & generate_jumps)) |
| lf_printf(file, "goto %s_floating_point_unavailable;\n", (code & generate_with_icache) ? "icache" : "semantic"); |
| else if ((code & generate_with_icache)) |
| lf_printf(file, "return icache_floating_point_unavailable(%s);\n", |
| ICACHE_FUNCTION_ACTUAL); |
| else |
| lf_printf(file, "return semantic_floating_point_unavailable(%s);\n", |
| SEMANTIC_FUNCTION_ACTUAL); |
| } |
| |
| |
| /* Output code to do any final checks on the decoded instruction. |
| This includes things like verifying any on decoded fields have the |
| correct value and checking that (for floating point) floating point |
| hardware isn't disabled */ |
| |
| void |
| print_idecode_validate(lf *file, |
| insn *instruction, |
| opcode_field *opcodes) |
| { |
| /* Validate: unchecked instruction fields |
| |
| If any constant fields in the instruction were not checked by the |
| idecode tables, output code to check that they have the correct |
| value here */ |
| { |
| unsigned check_mask = 0; |
| unsigned check_val = 0; |
| insn_field *field; |
| opcode_field *opcode; |
| |
| /* form check_mask/check_val containing what needs to be checked |
| in the instruction */ |
| for (field = instruction->fields->first; |
| field->first < insn_bit_size; |
| field = field->next) { |
| |
| check_mask <<= field->width; |
| check_val <<= field->width; |
| |
| /* is it a constant that could need validating? */ |
| if (!field->is_int && !field->is_slash) |
| continue; |
| |
| /* has it been checked by a table? */ |
| for (opcode = opcodes; opcode != NULL; opcode = opcode->parent) { |
| if (field->first >= opcode->first |
| && field->last <= opcode->last) |
| break; |
| } |
| if (opcode != NULL) |
| continue; |
| |
| check_mask |= (1 << field->width)-1; |
| check_val |= field->val_int; |
| } |
| |
| /* if any bits not checked by opcode tables, output code to check them */ |
| if (check_mask) { |
| lf_printf(file, "\n"); |
| lf_printf(file, "/* validate: %s */\n", |
| instruction->file_entry->fields[insn_format]); |
| lf_printf(file, "if (WITH_RESERVED_BITS && (instruction & 0x%x) != 0x%x)\n", |
| check_mask, check_val); |
| lf_indent(file, +2); |
| print_idecode_illegal(file, "return"); |
| lf_indent(file, -2); |
| } |
| } |
| |
| /* Validate floating point hardware |
| |
| If the simulator is being built with out floating point hardware |
| (different to it being disabled in the MSR) then floating point |
| instructions are invalid */ |
| { |
| if (it_is("f", instruction->file_entry->fields[insn_flags])) { |
| lf_printf(file, "\n"); |
| lf_printf(file, "/* Validate: FP hardware exists */\n"); |
| lf_printf(file, "if (CURRENT_FLOATING_POINT != HARD_FLOATING_POINT)\n"); |
| lf_indent(file, +2); |
| print_idecode_illegal(file, "return"); |
| lf_indent(file, -2); |
| } |
| } |
| |
| /* Validate: Floating Point available |
| |
| If floating point is not available, we enter a floating point |
| unavailable interrupt into the cache instead of the instruction |
| proper. |
| |
| The PowerPC spec requires a CSI after MSR[FP] is changed and when |
| ever a CSI occures we flush the instruction cache. */ |
| |
| { |
| if (it_is("f", instruction->file_entry->fields[insn_flags])) { |
| lf_printf(file, "\n"); |
| lf_printf(file, "/* Validate: FP available according to MSR[FP] */\n"); |
| lf_printf(file, "if (!IS_FP_AVAILABLE(processor))\n"); |
| lf_indent(file, +2); |
| print_idecode_floating_point_unavailable(file); |
| lf_indent(file, -2); |
| } |
| } |
| } |
| |
| |
| /****************************************************************/ |
| |
| |
| static void |
| print_idecode_run_function_header(lf *file, |
| int can_stop, |
| int is_definition) |
| { |
| int indent; |
| lf_printf(file, "\n"); |
| lf_print_function_type(file, "void", "PSIM_INLINE_IDECODE", (is_definition ? " " : "\n")); |
| indent = lf_putstr(file, (can_stop ? "idecode_run_until_stop" : "idecode_run")); |
| if (is_definition) |
| lf_putstr(file, "\n"); |
| else |
| lf_indent(file, +indent); |
| lf_putstr(file, "(psim *system,\n"); |
| if (can_stop) |
| lf_putstr(file, " volatile int *keep_running,\n"); |
| lf_printf(file, " event_queue *events,\n"); |
| lf_putstr(file, " cpu *const processors[],\n"); |
| lf_putstr(file, " const int nr_cpus)"); |
| if (is_definition) |
| lf_putstr(file, ";"); |
| else |
| lf_indent(file, -indent); |
| lf_putstr(file, "\n"); |
| } |
| |
| |
| void |
| gen_idecode_h(lf *file, |
| insn_table *table, |
| cache_table *cache_rules) |
| { |
| lf_printf(file, "/* The idecode_*.h functions shall move to support */\n"); |
| lf_printf(file, "#include \"idecode_expression.h\"\n"); |
| lf_printf(file, "#include \"idecode_fields.h\"\n"); |
| lf_printf(file, "#include \"idecode_branch.h\"\n"); |
| lf_printf(file, "\n"); |
| print_icache_struct(table, cache_rules, file); |
| lf_printf(file, "\n"); |
| lf_printf(file, "#define WITH_IDECODE_SMP %d\n", generate_smp); |
| lf_printf(file, "\n"); |
| print_idecode_run_function_header(file, 0/*can stop*/, 1/*is definition*/); |
| print_idecode_run_function_header(file, 1/*can stop*/, 1/*is definition*/); |
| } |
| |
| |
| void |
| gen_idecode_c(lf *file, |
| insn_table *table, |
| cache_table *cache_rules) |
| { |
| /* the intro */ |
| lf_printf(file, "#include \"inline.c\"\n"); |
| lf_printf(file, "\n"); |
| lf_printf(file, "#include \"cpu.h\"\n"); |
| lf_printf(file, "#include \"idecode.h\"\n"); |
| lf_printf(file, "#include \"semantics.h\"\n"); |
| lf_printf(file, "#include \"icache.h\"\n"); |
| lf_printf(file, "#ifdef HAVE_COMMON_FPU\n"); |
| lf_printf(file, "#include \"sim-inline.h\"\n"); |
| lf_printf(file, "#include \"sim-fpu.h\"\n"); |
| lf_printf(file, "#endif\n"); |
| lf_printf(file, "#include \"support.h\"\n"); |
| lf_printf(file, "\n"); |
| lf_printf(file, "#include <setjmp.h>\n"); |
| lf_printf(file, "\n"); |
| lf_printf(file, "enum {\n"); |
| lf_printf(file, " /* greater or equal to zero => table */\n"); |
| lf_printf(file, " function_entry = -1,\n"); |
| lf_printf(file, " boolean_entry = -2,\n"); |
| lf_printf(file, "};\n"); |
| lf_printf(file, "\n"); |
| lf_printf(file, "typedef struct _idecode_table_entry {\n"); |
| lf_printf(file, " int shift;\n"); |
| lf_printf(file, " instruction_word mask;\n"); |
| lf_printf(file, " instruction_word value;"); |
| lf_printf(file, " void *function_or_table;\n"); |
| lf_printf(file, "} idecode_table_entry;\n"); |
| lf_printf(file, "\n"); |
| lf_printf(file, "\n"); |
| |
| if ((code & generate_calls)) { |
| |
| print_idecode_lookups(file, table, cache_rules); |
| |
| /* output the main idecode routine */ |
| print_idecode_run_function_header(file, 0/*can stop*/, 0/*is definition*/); |
| print_run_until_stop_body(file, table, 0/* have stop argument */); |
| |
| print_idecode_run_function_header(file, 1/*can stop*/, 0/*is definition*/); |
| print_run_until_stop_body(file, table, 1/* no stop argument */); |
| |
| } |
| else if ((code & generate_jumps)) { |
| |
| print_idecode_run_function_header(file, 0/*can stop*/, 0/*is definition*/); |
| print_jump_until_stop_body(file, table, cache_rules, 0 /* have stop argument */); |
| |
| print_idecode_run_function_header(file, 1/*can stop*/, 0/*is definition*/); |
| print_jump_until_stop_body(file, table, cache_rules, 1/* have stop argument */); |
| |
| } |
| else { |
| error("Something is wrong!\n"); |
| } |
| } |