sim-core.h revision 1.1.1.5
1/* The common simulator framework for GDB, the GNU Debugger. 2 3 Copyright 2002-2016 Free Software Foundation, Inc. 4 5 Contributed by Andrew Cagney and Red Hat. 6 7 This file is part of GDB. 8 9 This program is free software; you can redistribute it and/or modify 10 it under the terms of the GNU General Public License as published by 11 the Free Software Foundation; either version 3 of the License, or 12 (at your option) any later version. 13 14 This program is distributed in the hope that it will be useful, 15 but WITHOUT ANY WARRANTY; without even the implied warranty of 16 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 17 GNU General Public License for more details. 18 19 You should have received a copy of the GNU General Public License 20 along with this program. If not, see <http://www.gnu.org/licenses/>. */ 21 22 23#ifndef SIM_CORE_H 24#define SIM_CORE_H 25 26 27/* core signals (error conditions) 28 Define SIM_CORE_SIGNAL to catch these signals - see sim-core.c for 29 details. */ 30 31typedef enum { 32 sim_core_unmapped_signal, 33 sim_core_unaligned_signal, 34 nr_sim_core_signals, 35} sim_core_signals; 36 37/* Type of SIM_CORE_SIGNAL handler. */ 38typedef void (SIM_CORE_SIGNAL_FN) 39 (SIM_DESC sd, sim_cpu *cpu, sim_cia cia, unsigned map, int nr_bytes, 40 address_word addr, transfer_type transfer, sim_core_signals sig); 41 42extern SIM_CORE_SIGNAL_FN sim_core_signal; 43 44 45/* basic types */ 46 47typedef struct _sim_core_mapping sim_core_mapping; 48struct _sim_core_mapping { 49 /* common */ 50 int level; 51 int space; 52 unsigned_word base; 53 unsigned_word bound; 54 unsigned_word nr_bytes; 55 unsigned mask; 56 /* memory map */ 57 void *free_buffer; 58 void *buffer; 59 /* callback map */ 60 struct hw *device; 61 /* tracing */ 62 int trace; 63 /* growth */ 64 sim_core_mapping *next; 65}; 66 67typedef struct _sim_core_map sim_core_map; 68struct _sim_core_map { 69 sim_core_mapping *first; 70}; 71 72 73typedef struct _sim_core_common { 74 sim_core_map map[nr_maps]; 75} sim_core_common; 76 77 78/* Main core structure */ 79 80typedef struct _sim_core sim_core; 81struct _sim_core { 82 sim_core_common common; 83 address_word byte_xor; /* apply xor universally */ 84}; 85 86 87/* Per CPU distributed component of the core. At present this is 88 mostly a clone of the global core data structure. */ 89 90typedef struct _sim_cpu_core { 91 sim_core_common common; 92 address_word xor[WITH_XOR_ENDIAN + 1]; /* +1 to avoid zero-sized array */ 93} sim_cpu_core; 94 95 96/* Install the "core" module. */ 97 98extern SIM_RC sim_core_install (SIM_DESC sd); 99 100 101 102/* Create a memory region within the core. 103 104 CPU - when non NULL, specifes the single processor that the memory 105 space is to be attached to. (INIMPLEMENTED). 106 107 LEVEL - specifies the ordering of the memory region. Lower regions 108 are searched first. Within a level, memory regions can not 109 overlap. 110 111 MAPMASK - Bitmask specifying the memory maps that the region is to 112 be attached to. Typically the enums sim-basics.h:access_* are used. 113 114 ADDRESS_SPACE - For device regions, a MAP:ADDRESS pair is 115 translated into ADDRESS_SPACE:OFFSET before being passed to the 116 client device. 117 118 MODULO - Specifies that accesses to the region [ADDR .. ADDR+NR_BYTES) 119 should be mapped onto the sub region [ADDR .. ADDR+MODULO). The modulo 120 value must be a power of two. 121 122 DEVICE - When non NULL, indicates that this is a callback memory 123 space and specified device's memory callback handler should be 124 called. 125 126 OPTIONAL_BUFFER - when non NULL, specifies the buffer to use for 127 data read & written to the region. Normally a more efficient 128 internal structure is used. It is assumed that buffer is allocated 129 such that the byte alignmed of OPTIONAL_BUFFER matches ADDR vis 130 (OPTIONAL_BUFFER % 8) == (ADDR % 8)). It is defined to be a sub-optimal 131 hook that allows clients to do nasty things that the interface doesn't 132 accomodate. */ 133 134extern void sim_core_attach 135(SIM_DESC sd, 136 sim_cpu *cpu, 137 int level, 138 unsigned mapmask, 139 int address_space, 140 address_word addr, 141 address_word nr_bytes, 142 unsigned modulo, 143 struct hw *client, 144 void *optional_buffer); 145 146 147/* Delete a memory section within the core. 148 149 */ 150 151extern void sim_core_detach 152(SIM_DESC sd, 153 sim_cpu *cpu, 154 int level, 155 int address_space, 156 address_word addr); 157 158 159/* Variable sized read/write 160 161 Transfer a variable sized block of raw data between the host and 162 target. Should any problems occur, the number of bytes 163 successfully transfered is returned. 164 165 No host/target byte endian conversion is performed. No xor-endian 166 conversion is performed. 167 168 If CPU argument, when non NULL, specifies the processor specific 169 address map that is to be used in the transfer. */ 170 171 172extern unsigned sim_core_read_buffer 173(SIM_DESC sd, 174 sim_cpu *cpu, 175 unsigned map, 176 void *buffer, 177 address_word addr, 178 unsigned nr_bytes); 179 180extern unsigned sim_core_write_buffer 181(SIM_DESC sd, 182 sim_cpu *cpu, 183 unsigned map, 184 const void *buffer, 185 address_word addr, 186 unsigned nr_bytes); 187 188 189 190/* Configure the core's XOR endian transfer mode. Only applicable 191 when WITH_XOR_ENDIAN is enabled. 192 193 Targets suporting XOR endian, shall notify the core of any changes 194 in state via this call. 195 196 The CPU argument, when non NULL, specifes the single processor that 197 the xor-endian configuration is to be applied to. */ 198 199extern void sim_core_set_xor 200(SIM_DESC sd, 201 sim_cpu *cpu, 202 int is_xor); 203 204 205/* XOR version of variable sized read/write. 206 207 Transfer a variable sized block of raw data between the host and 208 target. Should any problems occur, the number of bytes 209 successfully transfered is returned. 210 211 No host/target byte endian conversion is performed. If applicable 212 (WITH_XOR_ENDIAN and xor-endian set), xor-endian conversion *is* 213 performed. 214 215 If CPU argument, when non NULL, specifies the processor specific 216 address map that is to be used in the transfer. */ 217 218extern unsigned sim_core_xor_read_buffer 219(SIM_DESC sd, 220 sim_cpu *cpu, 221 unsigned map, 222 void *buffer, 223 address_word addr, 224 unsigned nr_bytes); 225 226extern unsigned sim_core_xor_write_buffer 227(SIM_DESC sd, 228 sim_cpu *cpu, 229 unsigned map, 230 const void *buffer, 231 address_word addr, 232 unsigned nr_bytes); 233 234 235/* Translate an address based on a map. */ 236 237extern void *sim_core_trans_addr 238(SIM_DESC sd, 239 sim_cpu *cpu, 240 unsigned map, 241 address_word addr); 242 243 244/* Fixed sized, processor oriented, read/write. 245 246 Transfer a fixed amout of memory between the host and target. The 247 data transfered is translated from/to host to/from target byte 248 order (including xor endian). Should the transfer fail, the 249 operation shall abort (no return). 250 251 ALIGNED assumes yhat the specified ADDRESS is correctly alligned 252 for an N byte transfer (no alignment checks are made). Passing an 253 incorrectly aligned ADDRESS is erroneous. 254 255 UNALIGNED checks/modifies the ADDRESS according to the requirements 256 of an N byte transfer. Action, as defined by WITH_ALIGNMENT, being 257 taken should the check fail. 258 259 MISSALIGNED transfers the data regardless. 260 261 Misaligned xor-endian accesses are broken into a sequence of 262 transfers each <= WITH_XOR_ENDIAN bytes */ 263 264 265#define DECLARE_SIM_CORE_WRITE_N(ALIGNMENT,N,M) \ 266INLINE_SIM_CORE\ 267(void) sim_core_write_##ALIGNMENT##_##N \ 268(sim_cpu *cpu, \ 269 sim_cia cia, \ 270 unsigned map, \ 271 address_word addr, \ 272 unsigned_##M val); 273 274DECLARE_SIM_CORE_WRITE_N(aligned,1,1) 275DECLARE_SIM_CORE_WRITE_N(aligned,2,2) 276DECLARE_SIM_CORE_WRITE_N(aligned,4,4) 277DECLARE_SIM_CORE_WRITE_N(aligned,8,8) 278DECLARE_SIM_CORE_WRITE_N(aligned,16,16) 279 280#define sim_core_write_unaligned_1 sim_core_write_aligned_1 281DECLARE_SIM_CORE_WRITE_N(unaligned,2,2) 282DECLARE_SIM_CORE_WRITE_N(unaligned,4,4) 283DECLARE_SIM_CORE_WRITE_N(unaligned,8,8) 284DECLARE_SIM_CORE_WRITE_N(unaligned,16,16) 285 286DECLARE_SIM_CORE_WRITE_N(misaligned,3,4) 287DECLARE_SIM_CORE_WRITE_N(misaligned,5,8) 288DECLARE_SIM_CORE_WRITE_N(misaligned,6,8) 289DECLARE_SIM_CORE_WRITE_N(misaligned,7,8) 290 291#define sim_core_write_1 sim_core_write_aligned_1 292#define sim_core_write_2 sim_core_write_aligned_2 293#define sim_core_write_4 sim_core_write_aligned_4 294#define sim_core_write_8 sim_core_write_aligned_8 295#define sim_core_write_16 sim_core_write_aligned_16 296 297#define sim_core_write_unaligned_word XCONCAT2(sim_core_write_unaligned_,WITH_TARGET_WORD_BITSIZE) 298#define sim_core_write_aligned_word XCONCAT2(sim_core_write_aligned_,WITH_TARGET_WORD_BITSIZE) 299#define sim_core_write_word XCONCAT2(sim_core_write_,WITH_TARGET_WORD_BITSIZE) 300 301#undef DECLARE_SIM_CORE_WRITE_N 302 303 304#define DECLARE_SIM_CORE_READ_N(ALIGNMENT,N,M) \ 305INLINE_SIM_CORE\ 306(unsigned_##M) sim_core_read_##ALIGNMENT##_##N \ 307(sim_cpu *cpu, \ 308 sim_cia cia, \ 309 unsigned map, \ 310 address_word addr); 311 312DECLARE_SIM_CORE_READ_N(aligned,1,1) 313DECLARE_SIM_CORE_READ_N(aligned,2,2) 314DECLARE_SIM_CORE_READ_N(aligned,4,4) 315DECLARE_SIM_CORE_READ_N(aligned,8,8) 316DECLARE_SIM_CORE_READ_N(aligned,16,16) 317 318#define sim_core_read_unaligned_1 sim_core_read_aligned_1 319DECLARE_SIM_CORE_READ_N(unaligned,2,2) 320DECLARE_SIM_CORE_READ_N(unaligned,4,4) 321DECLARE_SIM_CORE_READ_N(unaligned,8,8) 322DECLARE_SIM_CORE_READ_N(unaligned,16,16) 323 324DECLARE_SIM_CORE_READ_N(misaligned,3,4) 325DECLARE_SIM_CORE_READ_N(misaligned,5,8) 326DECLARE_SIM_CORE_READ_N(misaligned,6,8) 327DECLARE_SIM_CORE_READ_N(misaligned,7,8) 328 329 330#define sim_core_read_1 sim_core_read_aligned_1 331#define sim_core_read_2 sim_core_read_aligned_2 332#define sim_core_read_4 sim_core_read_aligned_4 333#define sim_core_read_8 sim_core_read_aligned_8 334#define sim_core_read_16 sim_core_read_aligned_16 335 336#define sim_core_read_unaligned_word XCONCAT2(sim_core_read_unaligned_,WITH_TARGET_WORD_BITSIZE) 337#define sim_core_read_aligned_word XCONCAT2(sim_core_read_aligned_,WITH_TARGET_WORD_BITSIZE) 338#define sim_core_read_word XCONCAT2(sim_core_read_,WITH_TARGET_WORD_BITSIZE) 339 340#undef DECLARE_SIM_CORE_READ_N 341 342#endif 343