src/wd2010.c

Sat, 17 Nov 2012 22:26:53 +0000

author
Philip Pemberton <philpem@philpem.me.uk>
date
Sat, 17 Nov 2012 22:26:53 +0000
changeset 116
21521e62007f
parent 115
da3d10af0711
child 122
b214cf455ff2
permissions
-rw-r--r--

Add support for MSR2, partial reads from GENSTAT

* GENSTAT is sometimes read in 8bit mode. Handle this properly.

* Add support for the MSR2 register (additional HDD head select bit only at
the moment)

philpem@112 1 #include <stdint.h>
philpem@112 2 #include <stdbool.h>
philpem@112 3 #include <malloc.h>
philpem@112 4 #include "SDL.h"
philpem@112 5 #include "musashi/m68k.h"
philpem@112 6 #include "wd2010.h"
philpem@112 7
philpem@112 8 #define WD2010_DEBUG
philpem@112 9
philpem@112 10 #ifndef WD2010_DEBUG
philpem@112 11 #define NDEBUG
philpem@112 12 #endif
philpem@112 13 #include "utils.h"
philpem@112 14
philpem@112 15 #define SEEK_DELAY 30
philpem@112 16
philpem@112 17 #define CMD_ENABLE_RETRY 0x01
philpem@112 18 #define CMD_LONG_MODE 0x02
philpem@112 19 #define CMD_MULTI_SECTOR 0x04
philpem@112 20 #define CMD_INTRQ_WHEN_COMPLETE 0x08
philpem@112 21
philpem@112 22 #define ER_BAD_BLOCK 0x80
philpem@112 23 #define ER_CRC 0x40
philpem@112 24 #define ER_ID_NOT_FOUND 0x10
philpem@112 25 #define ER_ABORTED_COMMAND 0x04
philpem@112 26 #define ER_NO_TK0 0x02
philpem@112 27 #define ER_NO_ADDRESS_MARK 0x01
philpem@112 28
philpem@112 29 #define SR_BUSY 0x80
philpem@112 30 #define SR_READY 0x40
philpem@112 31 #define SR_WRITE_FAULT 0x20
philpem@112 32 #define SR_SEEK_COMPLETE 0x10
philpem@112 33 #define SR_DRQ 0x08
philpem@112 34 #define SR_CORRECTED 0x04
philpem@112 35 #define SR_COMMAND_IN_PROGRESS 0x02
philpem@112 36 #define SR_ERROR 0x01
philpem@112 37
philpem@112 38 extern int cpu_log_enabled;
philpem@112 39
philpem@112 40 /// WD2010 command constants
philpem@112 41 enum {
philpem@112 42 CMD_MASK = 0xF0, ///< Bit mask to detect command bits
philpem@112 43 CMD_2010_EXT = 0x00, ///< WD2010 extended commands (compute correction, set parameter)
philpem@112 44 CMD_RESTORE = 0x10, ///< Restore (recalibrate, seek to track 0)
philpem@112 45 CMD_READ_SECTOR = 0x20, ///< Read sector
philpem@112 46 CMD_WRITE_SECTOR = 0x30, ///< Write sector
philpem@112 47 CMD_SCAN_ID = 0x40, ///< Scan ID
philpem@112 48 CMD_WRITE_FORMAT = 0x50, ///< Write format
philpem@112 49 CMD_SEEK = 0x70, ///< Seek to given track
philpem@112 50 };
philpem@112 51
philpem@112 52 int wd2010_init(WD2010_CTX *ctx, FILE *fp, int secsz, int spt, int heads)
philpem@112 53 {
philpem@112 54 long filesize;
philpem@112 55 wd2010_reset(ctx);
philpem@112 56 // Start by finding out how big the image file is
philpem@112 57 fseek(fp, 0, SEEK_END);
philpem@112 58 filesize = ftell(fp);
philpem@112 59 fseek(fp, 0, SEEK_SET);
philpem@112 60
philpem@112 61 // Now figure out how many tracks it contains
philpem@112 62 int tracks = filesize / secsz / spt / heads;
philpem@112 63 // Confirm...
philpem@112 64 if (tracks < 1) {
philpem@112 65 return WD2010_ERR_BAD_GEOM;
philpem@112 66 }
philpem@112 67
philpem@112 68 // Allocate enough memory to store one disc track
philpem@112 69 if (ctx->data) {
philpem@112 70 free(ctx->data);
philpem@112 71 }
philpem@112 72 ctx->data = malloc(secsz * spt);
philpem@112 73 if (!ctx->data)
philpem@112 74 return WD2010_ERR_NO_MEMORY;
philpem@112 75
philpem@112 76 // Load the image and the geometry data
philpem@112 77 ctx->disc_image = fp;
philpem@112 78 ctx->geom_tracks = tracks;
philpem@112 79 ctx->geom_secsz = secsz;
philpem@112 80 ctx->geom_heads = heads;
philpem@112 81 ctx->geom_spt = spt;
philpem@112 82 return WD2010_ERR_OK;
philpem@112 83
philpem@112 84 }
philpem@112 85
philpem@112 86 void wd2010_reset(WD2010_CTX *ctx)
philpem@112 87 {
philpem@112 88 // track, head and sector unknown
philpem@112 89 ctx->track = ctx->head = ctx->sector = 0;
philpem@112 90
philpem@112 91 // no IRQ pending
philpem@112 92 ctx->irq = false;
philpem@112 93
philpem@112 94 // no data available
philpem@112 95 ctx->data_pos = ctx->data_len = 0;
philpem@112 96
philpem@112 97 // Status register clear, not busy
philpem@112 98 ctx->status = 0;
philpem@112 99
philpem@112 100 ctx->sector_count = 0;
philpem@112 101 ctx->sector_number = 0;
philpem@112 102 ctx->cylinder_low_reg = 0;
philpem@112 103 ctx->cylinder_high_reg = 0;
philpem@112 104 ctx->sdh = 0;
philpem@116 105 ctx->mcr2_hdsel3 = 0;
philpem@116 106 ctx->mcr2_ddrive1 = 0;
philpem@112 107 }
philpem@112 108
philpem@112 109 void wd2010_done(WD2010_CTX *ctx)
philpem@112 110 {
philpem@112 111 // Reset the WD2010
philpem@112 112 wd2010_reset(ctx);
philpem@112 113
philpem@112 114 // Free any allocated memory
philpem@112 115 if (ctx->data) {
philpem@112 116 free(ctx->data);
philpem@112 117 ctx->data = NULL;
philpem@112 118 }
philpem@112 119 }
philpem@112 120
philpem@112 121
philpem@112 122 bool wd2010_get_irq(WD2010_CTX *ctx)
philpem@112 123 {
philpem@112 124 return ctx->irq;
philpem@112 125 }
philpem@112 126
philpem@112 127 bool wd2010_get_drq(WD2010_CTX *ctx)
philpem@112 128 {
philpem@112 129 return (ctx->drq && ctx->data_pos < ctx->data_len);
philpem@112 130 }
philpem@112 131
philpem@112 132 void wd2010_dma_miss(WD2010_CTX *ctx)
philpem@112 133 {
philpem@112 134 ctx->data_pos = ctx->data_len;
philpem@112 135 ctx->write_pos = 0;
philpem@112 136 ctx->status = SR_READY | SR_SEEK_COMPLETE;
philpem@112 137 ctx->irq = true;
philpem@112 138 }
philpem@112 139
philpem@112 140 uint8_t wd2010_read_data(WD2010_CTX *ctx)
philpem@112 141 {
philpem@112 142 // If there's data in the buffer, return it. Otherwise return 0xFF.
philpem@112 143 if (ctx->data_pos < ctx->data_len) {
philpem@112 144 if (ctx->multi_sector && ctx->data_pos & !(ctx->data_pos & ~(ctx->geom_secsz - 1))){
philpem@112 145 ctx->sector_count--;
philpem@112 146 ctx->sector_number++;
philpem@112 147 }
philpem@112 148 // set IRQ if this is the last data byte
philpem@112 149 if (ctx->data_pos == (ctx->data_len-1)) {
philpem@112 150 ctx->status = SR_READY | SR_SEEK_COMPLETE;
philpem@112 151 // Set IRQ
philpem@112 152 ctx->irq = true;
philpem@112 153 ctx->drq = false;
philpem@112 154 }
philpem@112 155 // return data byte and increment pointer
philpem@112 156 return ctx->data[ctx->data_pos++];
philpem@112 157 } else {
philpem@112 158 // empty buffer (this shouldn't happen)
philpem@115 159 LOGS("WD2010: attempt to read from empty data buffer");
philpem@112 160 return 0xff;
philpem@112 161 }
philpem@112 162 }
philpem@112 163
philpem@112 164 void wd2010_write_data(WD2010_CTX *ctx, uint8_t val)
philpem@112 165 {
philpem@112 166 // If we're processing a write command, and there's space in the
philpem@112 167 // buffer, allow the write.
philpem@112 168 if (ctx->write_pos >= 0 && ctx->data_pos < ctx->data_len) {
philpem@112 169 // store data byte and increment pointer
philpem@112 170 if (ctx->multi_sector && ctx->data_pos & !(ctx->data_pos & ~(ctx->geom_secsz - 1))){
philpem@112 171 ctx->sector_count--;
philpem@112 172 ctx->sector_number++;
philpem@112 173 }
philpem@112 174 ctx->data[ctx->data_pos++] = val;
philpem@112 175 // set IRQ and write data if this is the last data byte
philpem@112 176 if (ctx->data_pos == ctx->data_len) {
philpem@112 177 if (!ctx->formatting){
philpem@112 178 fseek(ctx->disc_image, ctx->write_pos, SEEK_SET);
philpem@112 179 fwrite(ctx->data, 1, ctx->data_len, ctx->disc_image);
philpem@112 180 fflush(ctx->disc_image);
philpem@112 181 }
philpem@112 182 ctx->formatting = false;
philpem@112 183 ctx->status = SR_READY | SR_SEEK_COMPLETE;
philpem@112 184 // Set IRQ and reset write pointer
philpem@112 185 ctx->irq = true;
philpem@112 186 ctx->write_pos = -1;
philpem@112 187 ctx->drq = false;
philpem@112 188 }
philpem@112 189 }else{
philpem@115 190 LOGS("WD2010: attempt to write to data buffer without a write command in progress");
philpem@112 191 }
philpem@112 192 }
philpem@112 193
philpem@112 194 uint32_t seek_complete(uint32_t interval, WD2010_CTX *ctx)
philpem@112 195 {
philpem@112 196 /*m68k_end_timeslice();*/
philpem@112 197 ctx->status = SR_READY | SR_SEEK_COMPLETE;
philpem@112 198 ctx->irq = true;
philpem@112 199 return (0);
philpem@112 200 }
philpem@112 201
philpem@112 202 uint32_t transfer_seek_complete(uint32_t interval, WD2010_CTX *ctx)
philpem@112 203 {
philpem@112 204 /*m68k_end_timeslice();*/
philpem@112 205 ctx->drq = true;
philpem@112 206 return (0);
philpem@112 207 }
philpem@112 208
philpem@112 209 uint8_t wd2010_read_reg(WD2010_CTX *ctx, uint8_t addr)
philpem@112 210 {
philpem@112 211 uint8_t temp = 0;
philpem@112 212
philpem@112 213 /*cpu_log_enabled = 1;*/
philpem@112 214
philpem@112 215 switch (addr & 0x07) {
philpem@112 216 case WD2010_REG_ERROR:
philpem@112 217 return ctx->error_reg;
philpem@112 218 case WD2010_REG_SECTOR_COUNT:
philpem@112 219 return ctx->sector_count;
philpem@112 220 case WD2010_REG_SECTOR_NUMBER:
philpem@112 221 return ctx->sector_number;
philpem@112 222 case WD2010_REG_CYLINDER_HIGH: // High byte of cylinder
philpem@112 223 return ctx->cylinder_high_reg;
philpem@112 224 case WD2010_REG_CYLINDER_LOW: // Low byte of cylinder
philpem@112 225 return ctx->cylinder_low_reg;
philpem@112 226 case WD2010_REG_SDH:
philpem@112 227 return ctx->sdh;
philpem@112 228 case WD2010_REG_STATUS: // Status register
philpem@112 229 // Read from status register clears IRQ
philpem@112 230 ctx->irq = false;
philpem@112 231 // Get current status flags (set by last command)
philpem@112 232 // DRQ bit
philpem@112 233 if (ctx->cmd_has_drq) {
philpem@112 234 temp = ctx->status & ~(SR_BUSY & SR_DRQ);
philpem@112 235 temp |= (ctx->data_pos < ctx->data_len) ? SR_DRQ : 0;
philpem@112 236 LOG("\tWDFDC rd sr, has drq, pos=%lu len=%lu, sr=0x%02X", ctx->data_pos, ctx->data_len, temp);
philpem@112 237 } else {
philpem@112 238 temp = ctx->status & ~0x80;
philpem@112 239 }
philpem@112 240 /*XXX: where should 0x02 (command in progress) be set? should it be set here instead of 0x80 (busy)?*/
philpem@112 241 // HDC is busy if there is still data in the buffer
philpem@112 242 temp |= (ctx->data_pos < ctx->data_len) ? SR_BUSY : 0; // if data in buffer, then DMA hasn't copied it yet, and we're still busy!
philpem@112 243 // TODO: also if seek delay / read delay hasn't passed (but that's for later)
philpem@112 244 /*XXX: should anything else be set here?*/
philpem@112 245 return temp;
philpem@112 246 default:
philpem@112 247 // shut up annoying compilers which don't recognise unreachable code when they see it
philpem@112 248 // (here's looking at you, gcc!)
philpem@112 249 return 0xff;
philpem@112 250 }
philpem@112 251 }
philpem@112 252
philpem@112 253
philpem@112 254 void wd2010_write_reg(WD2010_CTX *ctx, uint8_t addr, uint8_t val)
philpem@112 255 {
philpem@112 256 uint8_t cmd = val & CMD_MASK;
philpem@112 257 size_t lba;
philpem@112 258 int new_track;
philpem@112 259 int sector_count;
philpem@112 260
philpem@112 261 m68k_end_timeslice();
philpem@112 262
philpem@112 263 /*cpu_log_enabled = 1;*/
philpem@112 264
philpem@116 265 if (addr == UNIXPC_REG_MCR2) {
philpem@116 266 // The UNIX PC has an "MCR2" register with the following format:
philpem@116 267 // [ 7..2 ][1][0]
philpem@116 268 // Bits 7..2: Not used
philpem@116 269 // Bit 1: DDRIVE1 (hard disk drive 1 select - not used?)
philpem@116 270 // Bit 0: HDSEL3 (head-select bit 3)
philpem@116 271 ctx->mcr2_hdsel3 = ((val & 1) == 1);
philpem@116 272 ctx->mcr2_ddrive1 = ((val & 2) == 2);
philpem@116 273 return;
philpem@116 274 }
philpem@116 275
philpem@112 276 switch (addr & 0x07) {
philpem@112 277 case WD2010_REG_WRITE_PRECOMP_CYLINDER:
philpem@112 278 break;
philpem@112 279 case WD2010_REG_SECTOR_COUNT:
philpem@112 280 ctx->sector_count = val;
philpem@112 281 break;
philpem@112 282 case WD2010_REG_SECTOR_NUMBER:
philpem@112 283 ctx->sector_number = val;
philpem@112 284 break;
philpem@112 285 case WD2010_REG_CYLINDER_HIGH: // High byte of cylinder
philpem@112 286 ctx->cylinder_high_reg = val;
philpem@112 287 break;
philpem@112 288 case WD2010_REG_CYLINDER_LOW: // Low byte of cylinder
philpem@112 289 ctx->cylinder_low_reg = val;
philpem@112 290 break;
philpem@112 291 case WD2010_REG_SDH:
philpem@112 292 /*XXX: remove this once the DMA page fault test passes (unless this is actually the correct behavior here)*/
philpem@112 293 ctx->data_pos = ctx->data_len = 0;
philpem@112 294 ctx->sdh = val;
philpem@112 295 break;
philpem@112 296 case WD2010_REG_COMMAND: // Command register
philpem@112 297 // write to command register clears interrupt request
philpem@112 298 ctx->irq = false;
philpem@112 299 ctx->error_reg = 0;
philpem@112 300
philpem@112 301 /*cpu_log_enabled = 1;*/
philpem@112 302 switch (cmd) {
philpem@112 303 case CMD_RESTORE:
philpem@112 304 // Restore. Set track to 0 and throw an IRQ.
philpem@112 305 ctx->track = 0;
philpem@112 306 SDL_AddTimer(SEEK_DELAY, (SDL_NewTimerCallback)seek_complete, ctx);
philpem@112 307 break;
philpem@112 308 case CMD_SCAN_ID:
philpem@112 309 ctx->cylinder_high_reg = (ctx->track >> 8) & 0xff;
philpem@112 310 ctx->cylinder_low_reg = ctx->track & 0xff;
philpem@112 311 ctx->sector_number = ctx->sector;
philpem@112 312 ctx->sdh = (ctx->sdh & ~7) | (ctx->head & 7);
philpem@112 313 case CMD_WRITE_FORMAT:
philpem@112 314 case CMD_SEEK:
philpem@112 315 case CMD_READ_SECTOR:
philpem@112 316 case CMD_WRITE_SECTOR:
philpem@112 317 // Seek. Seek to the track specced in the cylinder
philpem@112 318 // registers.
philpem@112 319 new_track = (ctx->cylinder_high_reg << 8) | ctx->cylinder_low_reg;
philpem@112 320 if (new_track < ctx->geom_tracks) {
philpem@112 321 ctx->track = new_track;
philpem@112 322 } else {
philpem@112 323 // Seek error. :(
philpem@112 324 ctx->status = SR_ERROR;
philpem@112 325 ctx->error_reg = ER_ID_NOT_FOUND;
philpem@112 326 ctx->irq = true;
philpem@112 327 break;
philpem@112 328 }
philpem@116 329 // The SDH register provides 3 head select bits; the 4th comes from MCR2.
philpem@116 330 ctx->head = (ctx->sdh & 0x07) + (ctx->mcr2_hdsel3 ? 8 : 0);
philpem@112 331 ctx->sector = ctx->sector_number;
philpem@112 332
philpem@112 333 ctx->formatting = cmd == CMD_WRITE_FORMAT;
philpem@112 334 switch (cmd){
philpem@112 335 case CMD_SEEK:
philpem@112 336 SDL_AddTimer(SEEK_DELAY, (SDL_NewTimerCallback)seek_complete, ctx);
philpem@112 337 break;
philpem@112 338 case CMD_READ_SECTOR:
philpem@112 339 /*XXX: does a separate function to set the head have to be added?*/
philpem@112 340 LOG("WD2010: READ SECTOR cmd=%02X chs=%d:%d:%d", cmd, ctx->track, ctx->head, ctx->sector);
philpem@112 341
philpem@112 342 // Read Sector
philpem@112 343
philpem@112 344 // Check to see if the cyl, hd and sec are valid
philpem@112 345 if ((ctx->track > (ctx->geom_tracks-1)) || (ctx->head > (ctx->geom_heads-1)) || (ctx->sector > ctx->geom_spt - 1)) {
philpem@112 346 LOG("*** WD2010 ALERT: CHS parameter limit exceeded! CHS=%d:%d:%d, maxCHS=%d:%d:%d",
philpem@112 347 ctx->track, ctx->head, ctx->sector,
philpem@112 348 ctx->geom_tracks-1, ctx->geom_heads-1, ctx->geom_spt-1);
philpem@112 349 // CHS parameters exceed limits
philpem@112 350 ctx->status = SR_ERROR;
philpem@112 351 ctx->error_reg = ER_ID_NOT_FOUND;
philpem@112 352 // Set IRQ
philpem@112 353 ctx->irq = true;
philpem@112 354 break;
philpem@112 355 }
philpem@112 356
philpem@112 357 // reset data pointers
philpem@112 358 ctx->data_pos = ctx->data_len = 0;
philpem@112 359
philpem@112 360 if (val & CMD_MULTI_SECTOR){
philpem@112 361 ctx->multi_sector = 1;
philpem@112 362 sector_count = ctx->sector_count;
philpem@112 363 }else{
philpem@112 364 ctx->multi_sector = 0;
philpem@112 365 sector_count = 1;
philpem@112 366 }
philpem@112 367 for (int i=0; i<sector_count; i++) {
philpem@112 368 // Calculate the LBA address of the required sector
philpem@112 369 // LBA = (C * nHeads * nSectors) + (H * nSectors) + S - 1
philpem@112 370 lba = (((ctx->track * ctx->geom_heads * ctx->geom_spt) + (ctx->head * ctx->geom_spt) + ctx->sector) + i);
philpem@112 371 // convert LBA to byte address
philpem@112 372 lba *= ctx->geom_secsz;
philpem@112 373 LOG("\tREAD lba = %lu", lba);
philpem@112 374
philpem@112 375 // Read the sector from the file
philpem@112 376 fseek(ctx->disc_image, lba, SEEK_SET);
philpem@112 377 // TODO: check fread return value! if < secsz, BAIL! (call it a crc error or secnotfound maybe? also log to stderr)
philpem@112 378 ctx->data_len += fread(&ctx->data[ctx->data_len], 1, ctx->geom_secsz, ctx->disc_image);
philpem@112 379 LOG("\tREAD len=%lu, pos=%lu, ssz=%d", ctx->data_len, ctx->data_pos, ctx->geom_secsz);
philpem@112 380 }
philpem@112 381
philpem@112 382 ctx->status = 0;
philpem@112 383 ctx->status |= (ctx->data_pos < ctx->data_len) ? SR_DRQ | SR_COMMAND_IN_PROGRESS | SR_BUSY : 0x00;
philpem@112 384 SDL_AddTimer(SEEK_DELAY, (SDL_NewTimerCallback)transfer_seek_complete, ctx);
philpem@112 385
philpem@112 386 break;
philpem@112 387 case CMD_WRITE_FORMAT:
philpem@112 388 ctx->sector = 0;
philpem@112 389 case CMD_WRITE_SECTOR:
philpem@112 390 LOG("WD2010: WRITE SECTOR cmd=%02X chs=%d:%d:%d", cmd, ctx->track, ctx->head, ctx->sector);
philpem@112 391 // Read Sector
philpem@112 392
philpem@112 393 // Check to see if the cyl, hd and sec are valid
philpem@112 394 if ((ctx->track > (ctx->geom_tracks-1)) || (ctx->head > (ctx->geom_heads-1)) || (ctx->sector > ctx->geom_spt-1)) {
philpem@112 395 LOG("*** WD2010 ALERT: CHS parameter limit exceeded! CHS=%d:%d:%d, maxCHS=%d:%d:%d",
philpem@112 396 ctx->track, ctx->head, ctx->sector,
philpem@112 397 ctx->geom_tracks-1, ctx->geom_heads-1, ctx->geom_spt);
philpem@112 398 // CHS parameters exceed limits
philpem@112 399 ctx->status = SR_ERROR;
philpem@112 400 ctx->error_reg = ER_ID_NOT_FOUND;
philpem@112 401 // Set IRQ
philpem@112 402 ctx->irq = true;
philpem@112 403 break;
philpem@112 404 }
philpem@112 405
philpem@112 406 // reset data pointers
philpem@112 407 ctx->data_pos = ctx->data_len = 0;
philpem@112 408
philpem@112 409 if (val & CMD_MULTI_SECTOR){
philpem@112 410 ctx->multi_sector = 1;
philpem@112 411 sector_count = ctx->sector_count;
philpem@112 412 }else{
philpem@112 413 ctx->multi_sector = 0;
philpem@112 414 sector_count = 1;
philpem@112 415 }
philpem@112 416 ctx->data_len = ctx->geom_secsz * sector_count;
philpem@112 417 lba = (((ctx->track * ctx->geom_heads * ctx->geom_spt) + (ctx->head * ctx->geom_spt) + ctx->sector));
philpem@112 418 // convert LBA to byte address
philpem@112 419 ctx->write_pos = lba * ctx->geom_secsz;
philpem@112 420 LOG("\tWRITE lba = %lu", lba);
philpem@112 421
philpem@112 422 ctx->status = 0;
philpem@112 423 ctx->status |= (ctx->data_pos < ctx->data_len) ? SR_DRQ | SR_COMMAND_IN_PROGRESS | SR_BUSY : 0x00;
philpem@112 424 SDL_AddTimer(SEEK_DELAY, (SDL_NewTimerCallback)transfer_seek_complete, ctx);
philpem@112 425
philpem@112 426 break;
philpem@112 427 default:
philpem@112 428 LOG("WD2010: invalid seeking command %x (this shouldn't happen!)\n", cmd);
philpem@112 429 break;
philpem@112 430 }
philpem@112 431 break;
philpem@112 432 case CMD_2010_EXT: /* not implemented */
philpem@112 433 default:
philpem@112 434 LOG("WD2010: unknown command %x\n", cmd);
philpem@112 435 ctx->status = SR_ERROR;
philpem@112 436 ctx->error_reg = ER_ABORTED_COMMAND;
philpem@112 437 ctx->irq = true;
philpem@112 438 break;
philpem@112 439 }
philpem@112 440 break;
philpem@112 441
philpem@112 442 }
philpem@112 443 }
philpem@112 444