diff --git a/hw/block/fdc.c b/hw/block/fdc.c index d8a8edd936f42d4b1d801c996932668e456b5896..6e794597dc70a7798e1f66a310447928427014a8 100644 --- a/hw/block/fdc.c +++ b/hw/block/fdc.c @@ -324,7 +324,7 @@ static void fd_revalidate(FDrive *drv) /* Intel 82078 floppy disk controller emulation */ static void fdctrl_reset(FDCtrl *fdctrl, int do_irq); -static void fdctrl_reset_fifo(FDCtrl *fdctrl); +static void fdctrl_to_command_phase(FDCtrl *fdctrl); static int fdctrl_transfer_handler (void *opaque, int nchan, int dma_pos, int dma_len); static void fdctrl_raise_irq(FDCtrl *fdctrl); @@ -495,6 +495,33 @@ enum { FD_DIR_DSKCHG = 0x80, }; +/* + * See chapter 5.0 "Controller phases" of the spec: + * + * Command phase: + * The host writes a command and its parameters into the FIFO. The command + * phase is completed when all parameters for the command have been supplied, + * and execution phase is entered. + * + * Execution phase: + * Data transfers, either DMA or non-DMA. For non-DMA transfers, the FIFO + * contains the payload now, otherwise it's unused. When all bytes of the + * required data have been transferred, the state is switched to either result + * phase (if the command produces status bytes) or directly back into the + * command phase for the next command. + * + * Result phase: + * The host reads out the FIFO, which contains one or more result bytes now. + */ +enum { + /* Only for migration: reconstruct phase from registers like qemu 2.3 */ + FD_PHASE_RECONSTRUCT = 0, + + FD_PHASE_COMMAND = 1, + FD_PHASE_EXECUTION = 2, + FD_PHASE_RESULT = 3, +}; + #define FD_MULTI_TRACK(state) ((state) & FD_STATE_MULTI) #define FD_FORMAT_CMD(state) ((state) & FD_STATE_FORMAT) @@ -504,6 +531,7 @@ struct FDCtrl { /* Controller state */ QEMUTimer *result_timer; int dma_chann; + uint8_t phase; /* Controller's identification */ uint8_t version; /* HW */ @@ -744,6 +772,28 @@ static const VMStateDescription vmstate_fdrive = { } }; +/* + * Reconstructs the phase from register values according to the logic that was + * implemented in qemu 2.3. This is the default value that is used if the phase + * subsection is not present on migration. + * + * Don't change this function to reflect newer qemu versions, it is part of + * the migration ABI. + */ +static int reconstruct_phase(FDCtrl *fdctrl) +{ + if (fdctrl->msr & FD_MSR_NONDMA) { + return FD_PHASE_EXECUTION; + } else if ((fdctrl->msr & FD_MSR_RQM) == 0) { + /* qemu 2.3 disabled RQM only during DMA transfers */ + return FD_PHASE_EXECUTION; + } else if (fdctrl->msr & FD_MSR_DIO) { + return FD_PHASE_RESULT; + } else { + return FD_PHASE_COMMAND; + } +} + static void fdc_pre_save(void *opaque) { FDCtrl *s = opaque; @@ -751,12 +801,24 @@ static void fdc_pre_save(void *opaque) s->dor_vmstate = s->dor | GET_CUR_DRV(s); } +static int fdc_pre_load(void *opaque) +{ + FDCtrl *s = opaque; + s->phase = FD_PHASE_RECONSTRUCT; + return 0; +} + static int fdc_post_load(void *opaque, int version_id) { FDCtrl *s = opaque; SET_CUR_DRV(s, s->dor_vmstate & FD_DOR_SELMASK); s->dor = s->dor_vmstate & ~FD_DOR_SELMASK; + + if (s->phase == FD_PHASE_RECONSTRUCT) { + s->phase = reconstruct_phase(s); + } + return 0; } @@ -794,11 +856,29 @@ static const VMStateDescription vmstate_fdc_result_timer = { } }; +static bool fdc_phase_needed(void *opaque) +{ + FDCtrl *fdctrl = opaque; + + return reconstruct_phase(fdctrl) != fdctrl->phase; +} + +static const VMStateDescription vmstate_fdc_phase = { + .name = "fdc/phase", + .version_id = 1, + .minimum_version_id = 1, + .fields = (VMStateField[]) { + VMSTATE_UINT8(phase, FDCtrl), + VMSTATE_END_OF_LIST() + } +}; + static const VMStateDescription vmstate_fdc = { .name = "fdc", .version_id = 2, .minimum_version_id = 2, .pre_save = fdc_pre_save, + .pre_load = fdc_pre_load, .post_load = fdc_post_load, .fields = (VMStateField[]) { /* Controller State */ @@ -838,6 +918,9 @@ static const VMStateDescription vmstate_fdc = { } , { .vmsd = &vmstate_fdc_result_timer, .needed = fdc_result_timer_needed, + } , { + .vmsd = &vmstate_fdc_phase, + .needed = fdc_phase_needed, } , { /* empty */ } @@ -918,7 +1001,7 @@ static void fdctrl_reset(FDCtrl *fdctrl, int do_irq) fdctrl->data_dir = FD_DIR_WRITE; for (i = 0; i < MAX_FD; i++) fd_recalibrate(&fdctrl->drives[i]); - fdctrl_reset_fifo(fdctrl); + fdctrl_to_command_phase(fdctrl); if (do_irq) { fdctrl->status0 |= FD_SR0_RDYCHG; fdctrl_raise_irq(fdctrl); @@ -1134,17 +1217,22 @@ static uint32_t fdctrl_read_dir(FDCtrl *fdctrl) return retval; } -/* FIFO state control */ -static void fdctrl_reset_fifo(FDCtrl *fdctrl) +/* Clear the FIFO and update the state for receiving the next command */ +static void fdctrl_to_command_phase(FDCtrl *fdctrl) { + fdctrl->phase = FD_PHASE_COMMAND; fdctrl->data_dir = FD_DIR_WRITE; fdctrl->data_pos = 0; + fdctrl->data_len = 1; /* Accept command byte, adjust for params later */ fdctrl->msr &= ~(FD_MSR_CMDBUSY | FD_MSR_DIO); + fdctrl->msr |= FD_MSR_RQM; } -/* Set FIFO status for the host to read */ -static void fdctrl_set_fifo(FDCtrl *fdctrl, int fifo_len) +/* Update the state to allow the guest to read out the command status. + * @fifo_len is the number of result bytes to be read out. */ +static void fdctrl_to_result_phase(FDCtrl *fdctrl, int fifo_len) { + fdctrl->phase = FD_PHASE_RESULT; fdctrl->data_dir = FD_DIR_READ; fdctrl->data_len = fifo_len; fdctrl->data_pos = 0; @@ -1157,7 +1245,7 @@ static void fdctrl_unimplemented(FDCtrl *fdctrl, int direction) qemu_log_mask(LOG_UNIMP, "fdc: unimplemented command 0x%02x\n", fdctrl->fifo[0]); fdctrl->fifo[0] = FD_SR0_INVCMD; - fdctrl_set_fifo(fdctrl, 1); + fdctrl_to_result_phase(fdctrl, 1); } /* Seek to next sector @@ -1238,7 +1326,7 @@ static void fdctrl_stop_transfer(FDCtrl *fdctrl, uint8_t status0, fdctrl->msr |= FD_MSR_RQM | FD_MSR_DIO; fdctrl->msr &= ~FD_MSR_NONDMA; - fdctrl_set_fifo(fdctrl, 7); + fdctrl_to_result_phase(fdctrl, 7); fdctrl_raise_irq(fdctrl); } @@ -1352,7 +1440,7 @@ static void fdctrl_start_transfer(FDCtrl *fdctrl, int direction) } } FLOPPY_DPRINTF("start non-DMA transfer\n"); - fdctrl->msr |= FD_MSR_NONDMA; + fdctrl->msr |= FD_MSR_NONDMA | FD_MSR_RQM; if (direction != FD_DIR_WRITE) fdctrl->msr |= FD_MSR_DIO; /* IO based transfer: calculate len */ @@ -1505,9 +1593,16 @@ static uint32_t fdctrl_read_data(FDCtrl *fdctrl) FLOPPY_DPRINTF("error: controller not ready for reading\n"); return 0; } + + /* If data_len spans multiple sectors, the current position in the FIFO + * wraps around while fdctrl->data_pos is the real position in the whole + * request. */ pos = fdctrl->data_pos; pos %= FD_SECTOR_LEN; - if (fdctrl->msr & FD_MSR_NONDMA) { + + switch (fdctrl->phase) { + case FD_PHASE_EXECUTION: + assert(fdctrl->msr & FD_MSR_NONDMA); if (pos == 0) { if (fdctrl->data_pos != 0) if (!fdctrl_seek_to_next_sect(fdctrl, cur_drv)) { @@ -1523,20 +1618,28 @@ static uint32_t fdctrl_read_data(FDCtrl *fdctrl) memset(fdctrl->fifo, 0, FD_SECTOR_LEN); } } - } - retval = fdctrl->fifo[pos]; - if (++fdctrl->data_pos == fdctrl->data_len) { - fdctrl->data_pos = 0; - /* Switch from transfer mode to status mode - * then from status mode to command mode - */ - if (fdctrl->msr & FD_MSR_NONDMA) { + + if (++fdctrl->data_pos == fdctrl->data_len) { + fdctrl->msr &= ~FD_MSR_RQM; fdctrl_stop_transfer(fdctrl, 0x00, 0x00, 0x00); - } else { - fdctrl_reset_fifo(fdctrl); + } + break; + + case FD_PHASE_RESULT: + assert(!(fdctrl->msr & FD_MSR_NONDMA)); + if (++fdctrl->data_pos == fdctrl->data_len) { + fdctrl->msr &= ~FD_MSR_RQM; + fdctrl_to_command_phase(fdctrl); fdctrl_reset_irq(fdctrl); } + break; + + case FD_PHASE_COMMAND: + default: + abort(); } + + retval = fdctrl->fifo[pos]; FLOPPY_DPRINTF("data register: 0x%02x\n", retval); return retval; @@ -1606,7 +1709,7 @@ static void fdctrl_handle_lock(FDCtrl *fdctrl, int direction) { fdctrl->lock = (fdctrl->fifo[0] & 0x80) ? 1 : 0; fdctrl->fifo[0] = fdctrl->lock << 4; - fdctrl_set_fifo(fdctrl, 1); + fdctrl_to_result_phase(fdctrl, 1); } static void fdctrl_handle_dumpreg(FDCtrl *fdctrl, int direction) @@ -1631,20 +1734,20 @@ static void fdctrl_handle_dumpreg(FDCtrl *fdctrl, int direction) (cur_drv->perpendicular << 2); fdctrl->fifo[8] = fdctrl->config; fdctrl->fifo[9] = fdctrl->precomp_trk; - fdctrl_set_fifo(fdctrl, 10); + fdctrl_to_result_phase(fdctrl, 10); } static void fdctrl_handle_version(FDCtrl *fdctrl, int direction) { /* Controller's version */ fdctrl->fifo[0] = fdctrl->version; - fdctrl_set_fifo(fdctrl, 1); + fdctrl_to_result_phase(fdctrl, 1); } static void fdctrl_handle_partid(FDCtrl *fdctrl, int direction) { fdctrl->fifo[0] = 0x41; /* Stepping 1 */ - fdctrl_set_fifo(fdctrl, 1); + fdctrl_to_result_phase(fdctrl, 1); } static void fdctrl_handle_restore(FDCtrl *fdctrl, int direction) @@ -1667,7 +1770,7 @@ static void fdctrl_handle_restore(FDCtrl *fdctrl, int direction) fdctrl->config = fdctrl->fifo[11]; fdctrl->precomp_trk = fdctrl->fifo[12]; fdctrl->pwrd = fdctrl->fifo[13]; - fdctrl_reset_fifo(fdctrl); + fdctrl_to_command_phase(fdctrl); } static void fdctrl_handle_save(FDCtrl *fdctrl, int direction) @@ -1697,7 +1800,7 @@ static void fdctrl_handle_save(FDCtrl *fdctrl, int direction) fdctrl->fifo[12] = fdctrl->pwrd; fdctrl->fifo[13] = 0; fdctrl->fifo[14] = 0; - fdctrl_set_fifo(fdctrl, 15); + fdctrl_to_result_phase(fdctrl, 15); } static void fdctrl_handle_readid(FDCtrl *fdctrl, int direction) @@ -1746,7 +1849,7 @@ static void fdctrl_handle_specify(FDCtrl *fdctrl, int direction) else fdctrl->dor |= FD_DOR_DMAEN; /* No result back */ - fdctrl_reset_fifo(fdctrl); + fdctrl_to_command_phase(fdctrl); } static void fdctrl_handle_sense_drive_status(FDCtrl *fdctrl, int direction) @@ -1762,7 +1865,7 @@ static void fdctrl_handle_sense_drive_status(FDCtrl *fdctrl, int direction) (cur_drv->head << 2) | GET_CUR_DRV(fdctrl) | 0x28; - fdctrl_set_fifo(fdctrl, 1); + fdctrl_to_result_phase(fdctrl, 1); } static void fdctrl_handle_recalibrate(FDCtrl *fdctrl, int direction) @@ -1772,7 +1875,7 @@ static void fdctrl_handle_recalibrate(FDCtrl *fdctrl, int direction) SET_CUR_DRV(fdctrl, fdctrl->fifo[1] & FD_DOR_SELMASK); cur_drv = get_cur_drv(fdctrl); fd_recalibrate(cur_drv); - fdctrl_reset_fifo(fdctrl); + fdctrl_to_command_phase(fdctrl); /* Raise Interrupt */ fdctrl->status0 |= FD_SR0_SEEK; fdctrl_raise_irq(fdctrl); @@ -1788,7 +1891,7 @@ static void fdctrl_handle_sense_interrupt_status(FDCtrl *fdctrl, int direction) fdctrl->reset_sensei--; } else if (!(fdctrl->sra & FD_SRA_INTPEND)) { fdctrl->fifo[0] = FD_SR0_INVCMD; - fdctrl_set_fifo(fdctrl, 1); + fdctrl_to_result_phase(fdctrl, 1); return; } else { fdctrl->fifo[0] = @@ -1797,7 +1900,7 @@ static void fdctrl_handle_sense_interrupt_status(FDCtrl *fdctrl, int direction) } fdctrl->fifo[1] = cur_drv->track; - fdctrl_set_fifo(fdctrl, 2); + fdctrl_to_result_phase(fdctrl, 2); fdctrl_reset_irq(fdctrl); fdctrl->status0 = FD_SR0_RDYCHG; } @@ -1808,7 +1911,7 @@ static void fdctrl_handle_seek(FDCtrl *fdctrl, int direction) SET_CUR_DRV(fdctrl, fdctrl->fifo[1] & FD_DOR_SELMASK); cur_drv = get_cur_drv(fdctrl); - fdctrl_reset_fifo(fdctrl); + fdctrl_to_command_phase(fdctrl); /* The seek command just sends step pulses to the drive and doesn't care if * there is a medium inserted of if it's banging the head against the drive. */ @@ -1825,7 +1928,7 @@ static void fdctrl_handle_perpendicular_mode(FDCtrl *fdctrl, int direction) if (fdctrl->fifo[1] & 0x80) cur_drv->perpendicular = fdctrl->fifo[1] & 0x7; /* No result back */ - fdctrl_reset_fifo(fdctrl); + fdctrl_to_command_phase(fdctrl); } static void fdctrl_handle_configure(FDCtrl *fdctrl, int direction) @@ -1833,20 +1936,20 @@ static void fdctrl_handle_configure(FDCtrl *fdctrl, int direction) fdctrl->config = fdctrl->fifo[2]; fdctrl->precomp_trk = fdctrl->fifo[3]; /* No result back */ - fdctrl_reset_fifo(fdctrl); + fdctrl_to_command_phase(fdctrl); } static void fdctrl_handle_powerdown_mode(FDCtrl *fdctrl, int direction) { fdctrl->pwrd = fdctrl->fifo[1]; fdctrl->fifo[0] = fdctrl->fifo[1]; - fdctrl_set_fifo(fdctrl, 1); + fdctrl_to_result_phase(fdctrl, 1); } static void fdctrl_handle_option(FDCtrl *fdctrl, int direction) { /* No result back */ - fdctrl_reset_fifo(fdctrl); + fdctrl_to_command_phase(fdctrl); } static void fdctrl_handle_drive_specification_command(FDCtrl *fdctrl, int direction) @@ -1862,15 +1965,15 @@ static void fdctrl_handle_drive_specification_command(FDCtrl *fdctrl, int direct fdctrl->fifo[0] = fdctrl->fifo[1]; fdctrl->fifo[2] = 0; fdctrl->fifo[3] = 0; - fdctrl_set_fifo(fdctrl, 4); + fdctrl_to_result_phase(fdctrl, 4); } else { - fdctrl_reset_fifo(fdctrl); + fdctrl_to_command_phase(fdctrl); } } else if (fdctrl->data_len > 7) { /* ERROR */ fdctrl->fifo[0] = 0x80 | (cur_drv->head << 2) | GET_CUR_DRV(fdctrl); - fdctrl_set_fifo(fdctrl, 1); + fdctrl_to_result_phase(fdctrl, 1); } } @@ -1887,7 +1990,7 @@ static void fdctrl_handle_relative_seek_in(FDCtrl *fdctrl, int direction) fd_seek(cur_drv, cur_drv->head, cur_drv->track + fdctrl->fifo[2], cur_drv->sect, 1); } - fdctrl_reset_fifo(fdctrl); + fdctrl_to_command_phase(fdctrl); /* Raise Interrupt */ fdctrl->status0 |= FD_SR0_SEEK; fdctrl_raise_irq(fdctrl); @@ -1905,20 +2008,25 @@ static void fdctrl_handle_relative_seek_out(FDCtrl *fdctrl, int direction) fd_seek(cur_drv, cur_drv->head, cur_drv->track - fdctrl->fifo[2], cur_drv->sect, 1); } - fdctrl_reset_fifo(fdctrl); + fdctrl_to_command_phase(fdctrl); /* Raise Interrupt */ fdctrl->status0 |= FD_SR0_SEEK; fdctrl_raise_irq(fdctrl); } -static const struct { +/* + * Handlers for the execution phase of each command + */ +typedef struct FDCtrlCommand { uint8_t value; uint8_t mask; const char* name; int parameters; void (*handler)(FDCtrl *fdctrl, int direction); int direction; -} handlers[] = { +} FDCtrlCommand; + +static const FDCtrlCommand handlers[] = { { FD_CMD_READ, 0x1f, "READ", 8, fdctrl_start_transfer, FD_DIR_READ }, { FD_CMD_WRITE, 0x3f, "WRITE", 8, fdctrl_start_transfer, FD_DIR_WRITE }, { FD_CMD_SEEK, 0xff, "SEEK", 2, fdctrl_handle_seek }, @@ -1955,9 +2063,19 @@ static const struct { /* Associate command to an index in the 'handlers' array */ static uint8_t command_to_handler[256]; +static const FDCtrlCommand *get_command(uint8_t cmd) +{ + int idx; + + idx = command_to_handler[cmd]; + FLOPPY_DPRINTF("%s command\n", handlers[idx].name); + return &handlers[idx]; +} + static void fdctrl_write_data(FDCtrl *fdctrl, uint32_t value) { FDrive *cur_drv; + const FDCtrlCommand *cmd; uint32_t pos; /* Reset mode */ @@ -1970,12 +2088,27 @@ static void fdctrl_write_data(FDCtrl *fdctrl, uint32_t value) return; } fdctrl->dsr &= ~FD_DSR_PWRDOWN; - /* Is it write command time ? */ - if (fdctrl->msr & FD_MSR_NONDMA) { + + FLOPPY_DPRINTF("%s: %02x\n", __func__, value); + + /* If data_len spans multiple sectors, the current position in the FIFO + * wraps around while fdctrl->data_pos is the real position in the whole + * request. */ + pos = fdctrl->data_pos++; + pos %= FD_SECTOR_LEN; + fdctrl->fifo[pos] = value; + + if (fdctrl->data_pos == fdctrl->data_len) { + fdctrl->msr &= ~FD_MSR_RQM; + } + + switch (fdctrl->phase) { + case FD_PHASE_EXECUTION: + /* For DMA requests, RQM should be cleared during execution phase, so + * we would have errored out above. */ + assert(fdctrl->msr & FD_MSR_NONDMA); + /* FIFO data write */ - pos = fdctrl->data_pos++; - pos %= FD_SECTOR_LEN; - fdctrl->fifo[pos] = value; if (pos == FD_SECTOR_LEN - 1 || fdctrl->data_pos == fdctrl->data_len) { cur_drv = get_cur_drv(fdctrl); @@ -1983,45 +2116,54 @@ static void fdctrl_write_data(FDCtrl *fdctrl, uint32_t value) < 0) { FLOPPY_DPRINTF("error writing sector %d\n", fd_sector(cur_drv)); - return; + break; } if (!fdctrl_seek_to_next_sect(fdctrl, cur_drv)) { FLOPPY_DPRINTF("error seeking to next sector %d\n", fd_sector(cur_drv)); - return; + break; } } - /* Switch from transfer mode to status mode - * then from status mode to command mode - */ - if (fdctrl->data_pos == fdctrl->data_len) + + /* Switch to result phase when done with the transfer */ + if (fdctrl->data_pos == fdctrl->data_len) { fdctrl_stop_transfer(fdctrl, 0x00, 0x00, 0x00); - return; - } - if (fdctrl->data_pos == 0) { - /* Command */ - pos = command_to_handler[value & 0xff]; - FLOPPY_DPRINTF("%s command\n", handlers[pos].name); - fdctrl->data_len = handlers[pos].parameters + 1; - fdctrl->msr |= FD_MSR_CMDBUSY; - } + } + break; - FLOPPY_DPRINTF("%s: %02x\n", __func__, value); - pos = fdctrl->data_pos++; - pos %= FD_SECTOR_LEN; - fdctrl->fifo[pos] = value; - if (fdctrl->data_pos == fdctrl->data_len) { - /* We now have all parameters - * and will be able to treat the command - */ - if (fdctrl->data_state & FD_STATE_FORMAT) { - fdctrl_format_sector(fdctrl); - return; + case FD_PHASE_COMMAND: + assert(!(fdctrl->msr & FD_MSR_NONDMA)); + assert(fdctrl->data_pos < FD_SECTOR_LEN); + + if (pos == 0) { + /* The first byte specifies the command. Now we start reading + * as many parameters as this command requires. */ + cmd = get_command(value); + fdctrl->data_len = cmd->parameters + 1; + if (cmd->parameters) { + fdctrl->msr |= FD_MSR_RQM; + } + fdctrl->msr |= FD_MSR_CMDBUSY; + } + + if (fdctrl->data_pos == fdctrl->data_len) { + /* We have all parameters now, execute the command */ + fdctrl->phase = FD_PHASE_EXECUTION; + + if (fdctrl->data_state & FD_STATE_FORMAT) { + fdctrl_format_sector(fdctrl); + break; + } + + cmd = get_command(fdctrl->fifo[0]); + FLOPPY_DPRINTF("Calling handler for '%s'\n", cmd->name); + cmd->handler(fdctrl, cmd->direction); } + break; - pos = command_to_handler[fdctrl->fifo[0] & 0xff]; - FLOPPY_DPRINTF("treat %s command\n", handlers[pos].name); - (*handlers[pos].handler)(fdctrl, handlers[pos].direction); + case FD_PHASE_RESULT: + default: + abort(); } } diff --git a/hw/ide/macio.c b/hw/ide/macio.c index 585a27bd6c7fd87b7cc9a9ca34cfc50d999f6230..dd52d5073240f8fa5fda9210771621b297605462 100644 --- a/hw/ide/macio.c +++ b/hw/ide/macio.c @@ -51,8 +51,15 @@ static const int debug_macio = 0; #define MACIO_PAGE_SIZE 4096 +/* + * Unaligned DMA read/write access functions required for OS X/Darwin which + * don't perform DMA transactions on sector boundaries. These functions are + * modelled on bdrv_co_do_preadv()/bdrv_co_do_pwritev() and so should be + * easy to remove if the unaligned block APIs are ever exposed. + */ + static void pmac_dma_read(BlockBackend *blk, - int64_t sector_num, int nb_sectors, + int64_t offset, unsigned int bytes, void (*cb)(void *opaque, int ret), void *opaque) { DBDMA_io *io = opaque; @@ -60,76 +67,48 @@ static void pmac_dma_read(BlockBackend *blk, IDEState *s = idebus_active_if(&m->bus); dma_addr_t dma_addr, dma_len; void *mem; - int nsector, remainder; + int64_t sector_num; + int nsector; + uint64_t align = BDRV_SECTOR_SIZE; + size_t head_bytes, tail_bytes; qemu_iovec_destroy(&io->iov); qemu_iovec_init(&io->iov, io->len / MACIO_PAGE_SIZE + 1); - if (io->remainder_len > 0) { - /* Return remainder of request */ - int transfer = MIN(io->remainder_len, io->len); + sector_num = (offset >> 9); + nsector = (io->len >> 9); - MACIO_DPRINTF("--- DMA read pop - bounce addr: %p addr: %" - HWADDR_PRIx " remainder_len: %x\n", - &io->remainder + (0x200 - transfer), io->addr, - io->remainder_len); + MACIO_DPRINTF("--- DMA read transfer (0x%" HWADDR_PRIx ",0x%x): " + "sector_num: %" PRId64 ", nsector: %d\n", io->addr, io->len, + sector_num, nsector); - cpu_physical_memory_write(io->addr, - &io->remainder + (0x200 - transfer), - transfer); + dma_addr = io->addr; + dma_len = io->len; + mem = dma_memory_map(&address_space_memory, dma_addr, &dma_len, + DMA_DIRECTION_FROM_DEVICE); - io->remainder_len -= transfer; - io->len -= transfer; - io->addr += transfer; + if (offset & (align - 1)) { + head_bytes = offset & (align - 1); - s->io_buffer_index += transfer; - s->io_buffer_size -= transfer; + MACIO_DPRINTF("--- DMA unaligned head: sector %" PRId64 ", " + "discarding %zu bytes\n", sector_num, head_bytes); - if (io->remainder_len != 0) { - /* Still waiting for remainder */ - return; - } + qemu_iovec_add(&io->iov, &io->head_remainder, head_bytes); - if (io->len == 0) { - MACIO_DPRINTF("--- finished all read processing; go and finish\n"); - cb(opaque, 0); - return; - } + bytes += offset & (align - 1); + offset = offset & ~(align - 1); } - if (s->drive_kind == IDE_CD) { - sector_num = (int64_t)(s->lba << 2) + (s->io_buffer_index >> 9); - } else { - sector_num = ide_get_sector(s) + (s->io_buffer_index >> 9); - } + qemu_iovec_add(&io->iov, mem, io->len); - nsector = ((io->len + 0x1ff) >> 9); - remainder = (nsector << 9) - io->len; + if ((offset + bytes) & (align - 1)) { + tail_bytes = (offset + bytes) & (align - 1); - MACIO_DPRINTF("--- DMA read transfer - addr: %" HWADDR_PRIx " len: %x\n", - io->addr, io->len); + MACIO_DPRINTF("--- DMA unaligned tail: sector %" PRId64 ", " + "discarding bytes %zu\n", sector_num, tail_bytes); - dma_addr = io->addr; - dma_len = io->len; - mem = dma_memory_map(&address_space_memory, dma_addr, &dma_len, - DMA_DIRECTION_FROM_DEVICE); - - if (!remainder) { - MACIO_DPRINTF("--- DMA read aligned - addr: %" HWADDR_PRIx - " len: %x\n", io->addr, io->len); - qemu_iovec_add(&io->iov, mem, io->len); - } else { - MACIO_DPRINTF("--- DMA read unaligned - addr: %" HWADDR_PRIx - " len: %x\n", io->addr, io->len); - qemu_iovec_add(&io->iov, mem, io->len); - - MACIO_DPRINTF("--- DMA read push - bounce addr: %p " - "remainder_len: %x\n", - &io->remainder + 0x200 - remainder, remainder); - qemu_iovec_add(&io->iov, &io->remainder + 0x200 - remainder, - remainder); - - io->remainder_len = remainder; + qemu_iovec_add(&io->iov, &io->tail_remainder, align - tail_bytes); + bytes = ROUND_UP(bytes, align); } s->io_buffer_size -= io->len; @@ -137,15 +116,15 @@ static void pmac_dma_read(BlockBackend *blk, io->len = 0; - MACIO_DPRINTF("--- Block read transfer - sector_num: %"PRIx64" " - "nsector: %x\n", - sector_num, nsector); + MACIO_DPRINTF("--- Block read transfer - sector_num: %" PRIx64 " " + "nsector: %x\n", (offset >> 9), (bytes >> 9)); - m->aiocb = blk_aio_readv(blk, sector_num, &io->iov, nsector, cb, io); + m->aiocb = blk_aio_readv(blk, (offset >> 9), &io->iov, (bytes >> 9), + cb, io); } static void pmac_dma_write(BlockBackend *blk, - int64_t sector_num, int nb_sectors, + int64_t offset, int bytes, void (*cb)(void *opaque, int ret), void *opaque) { DBDMA_io *io = opaque; @@ -153,90 +132,80 @@ static void pmac_dma_write(BlockBackend *blk, IDEState *s = idebus_active_if(&m->bus); dma_addr_t dma_addr, dma_len; void *mem; - int nsector, remainder; - int extra = 0; + int64_t sector_num; + int nsector; + uint64_t align = BDRV_SECTOR_SIZE; + size_t head_bytes, tail_bytes; + bool unaligned_head = false, unaligned_tail = false; qemu_iovec_destroy(&io->iov); qemu_iovec_init(&io->iov, io->len / MACIO_PAGE_SIZE + 1); - if (io->remainder_len > 0) { - /* Return remainder of request */ - int transfer = MIN(io->remainder_len, io->len); + sector_num = (offset >> 9); + nsector = (io->len >> 9); - MACIO_DPRINTF("--- processing write remainder %x\n", transfer); - cpu_physical_memory_read(io->addr, - &io->remainder + (0x200 - transfer), - transfer); + MACIO_DPRINTF("--- DMA write transfer (0x%" HWADDR_PRIx ",0x%x): " + "sector_num: %" PRId64 ", nsector: %d\n", io->addr, io->len, + sector_num, nsector); - io->remainder_len -= transfer; - io->len -= transfer; - io->addr += transfer; + dma_addr = io->addr; + dma_len = io->len; + mem = dma_memory_map(&address_space_memory, dma_addr, &dma_len, + DMA_DIRECTION_TO_DEVICE); - s->io_buffer_index += transfer; - s->io_buffer_size -= transfer; + if (offset & (align - 1)) { + head_bytes = offset & (align - 1); + sector_num = ((offset & ~(align - 1)) >> 9); - if (io->remainder_len != 0) { - /* Still waiting for remainder */ - return; - } + MACIO_DPRINTF("--- DMA unaligned head: pre-reading head sector %" + PRId64 "\n", sector_num); - MACIO_DPRINTF("--> prepending bounce buffer with size 0x200\n"); + blk_pread(s->blk, (sector_num << 9), &io->head_remainder, align); - /* Sector transfer complete - prepend to request */ - qemu_iovec_add(&io->iov, &io->remainder, 0x200); - extra = 1; - } + qemu_iovec_add(&io->iov, &io->head_remainder, head_bytes); + qemu_iovec_add(&io->iov, mem, io->len); - if (s->drive_kind == IDE_CD) { - sector_num = (int64_t)(s->lba << 2) + (s->io_buffer_index >> 9); - } else { - sector_num = ide_get_sector(s) + (s->io_buffer_index >> 9); + bytes += offset & (align - 1); + offset = offset & ~(align - 1); + + unaligned_head = true; } - nsector = (io->len >> 9); - remainder = io->len - (nsector << 9); + if ((offset + bytes) & (align - 1)) { + tail_bytes = (offset + bytes) & (align - 1); + sector_num = (((offset + bytes) & ~(align - 1)) >> 9); - MACIO_DPRINTF("--- DMA write transfer - addr: %" HWADDR_PRIx " len: %x\n", - io->addr, io->len); - MACIO_DPRINTF("xxx remainder: %x\n", remainder); - MACIO_DPRINTF("xxx sector_num: %"PRIx64" nsector: %x\n", - sector_num, nsector); + MACIO_DPRINTF("--- DMA unaligned tail: pre-reading tail sector %" + PRId64 "\n", sector_num); - dma_addr = io->addr; - dma_len = io->len; - mem = dma_memory_map(&address_space_memory, dma_addr, &dma_len, - DMA_DIRECTION_TO_DEVICE); + blk_pread(s->blk, (sector_num << 9), &io->tail_remainder, align); - if (!remainder) { - MACIO_DPRINTF("--- DMA write aligned - addr: %" HWADDR_PRIx - " len: %x\n", io->addr, io->len); - qemu_iovec_add(&io->iov, mem, io->len); - } else { - /* Write up to last complete sector */ - MACIO_DPRINTF("--- DMA write unaligned - addr: %" HWADDR_PRIx - " len: %x\n", io->addr, (nsector << 9)); - qemu_iovec_add(&io->iov, mem, (nsector << 9)); + if (!unaligned_head) { + qemu_iovec_add(&io->iov, mem, io->len); + } + + qemu_iovec_add(&io->iov, &io->tail_remainder + tail_bytes, + align - tail_bytes); - MACIO_DPRINTF("--- DMA write read - bounce addr: %p " - "remainder_len: %x\n", &io->remainder, remainder); - cpu_physical_memory_read(io->addr + (nsector << 9), &io->remainder, - remainder); + bytes = ROUND_UP(bytes, align); - io->remainder_len = 0x200 - remainder; + unaligned_tail = true; + } - MACIO_DPRINTF("xxx remainder_len: %x\n", io->remainder_len); + if (!unaligned_head && !unaligned_tail) { + qemu_iovec_add(&io->iov, mem, io->len); } - s->io_buffer_size -= ((nsector + extra) << 9); - s->io_buffer_index += ((nsector + extra) << 9); + s->io_buffer_size -= io->len; + s->io_buffer_index += io->len; io->len = 0; - MACIO_DPRINTF("--- Block write transfer - sector_num: %"PRIx64" " - "nsector: %x\n", sector_num, nsector + extra); + MACIO_DPRINTF("--- Block write transfer - sector_num: %" PRIx64 " " + "nsector: %x\n", (offset >> 9), (bytes >> 9)); - m->aiocb = blk_aio_writev(blk, sector_num, &io->iov, nsector + extra, cb, - io); + m->aiocb = blk_aio_writev(blk, (offset >> 9), &io->iov, (bytes >> 9), + cb, io); } static void pmac_ide_atapi_transfer_cb(void *opaque, int ret) @@ -244,19 +213,12 @@ static void pmac_ide_atapi_transfer_cb(void *opaque, int ret) DBDMA_io *io = opaque; MACIOIDEState *m = io->opaque; IDEState *s = idebus_active_if(&m->bus); - int64_t sector_num; - int nsector, remainder; + int64_t offset; - MACIO_DPRINTF("\ns is %p\n", s); - MACIO_DPRINTF("io_buffer_index: %x\n", s->io_buffer_index); - MACIO_DPRINTF("io_buffer_size: %x packet_transfer_size: %x\n", - s->io_buffer_size, s->packet_transfer_size); - MACIO_DPRINTF("lba: %x\n", s->lba); - MACIO_DPRINTF("io_addr: %" HWADDR_PRIx " io_len: %x\n", io->addr, - io->len); + MACIO_DPRINTF("pmac_ide_atapi_transfer_cb\n"); if (ret < 0) { - MACIO_DPRINTF("THERE WAS AN ERROR! %d\n", ret); + MACIO_DPRINTF("DMA error: %d\n", ret); ide_atapi_io_error(s, ret); goto done; } @@ -270,6 +232,7 @@ static void pmac_ide_atapi_transfer_cb(void *opaque, int ret) } if (s->io_buffer_size <= 0) { + MACIO_DPRINTF("End of IDE transfer\n"); ide_atapi_cmd_ok(s); m->dma_active = false; goto done; @@ -289,19 +252,13 @@ static void pmac_ide_atapi_transfer_cb(void *opaque, int ret) goto done; } - /* Calculate number of sectors */ - sector_num = (int64_t)(s->lba << 2) + (s->io_buffer_index >> 9); - nsector = (io->len + 0x1ff) >> 9; - remainder = io->len & 0x1ff; - - MACIO_DPRINTF("nsector: %d remainder: %x\n", nsector, remainder); - MACIO_DPRINTF("sector: %"PRIx64" %zx\n", sector_num, io->iov.size / 512); + /* Calculate current offset */ + offset = (int64_t)(s->lba << 11) + s->io_buffer_index; - pmac_dma_read(s->blk, sector_num, nsector, pmac_ide_atapi_transfer_cb, io); + pmac_dma_read(s->blk, offset, io->len, pmac_ide_atapi_transfer_cb, io); return; done: - MACIO_DPRINTF("done DMA\n\n"); block_acct_done(blk_get_stats(s->blk), &s->acct); io->dma_end(opaque); @@ -313,16 +270,14 @@ static void pmac_ide_transfer_cb(void *opaque, int ret) DBDMA_io *io = opaque; MACIOIDEState *m = io->opaque; IDEState *s = idebus_active_if(&m->bus); - int64_t sector_num; - int nsector, remainder; + int64_t offset; MACIO_DPRINTF("pmac_ide_transfer_cb\n"); if (ret < 0) { - MACIO_DPRINTF("DMA error\n"); + MACIO_DPRINTF("DMA error: %d\n", ret); m->aiocb = NULL; ide_dma_error(s); - io->remainder_len = 0; goto done; } @@ -335,7 +290,7 @@ static void pmac_ide_transfer_cb(void *opaque, int ret) } if (s->io_buffer_size <= 0) { - MACIO_DPRINTF("end of transfer\n"); + MACIO_DPRINTF("End of IDE transfer\n"); s->status = READY_STAT | SEEK_STAT; ide_set_irq(s->bus); m->dma_active = false; @@ -348,24 +303,16 @@ static void pmac_ide_transfer_cb(void *opaque, int ret) } /* Calculate number of sectors */ - sector_num = ide_get_sector(s) + (s->io_buffer_index >> 9); - nsector = (io->len + 0x1ff) >> 9; - remainder = io->len & 0x1ff; - - s->nsector -= nsector; - - MACIO_DPRINTF("nsector: %d remainder: %x\n", nsector, remainder); - MACIO_DPRINTF("sector: %"PRIx64" %x\n", sector_num, nsector); + offset = (ide_get_sector(s) << 9) + s->io_buffer_index; switch (s->dma_cmd) { case IDE_DMA_READ: - pmac_dma_read(s->blk, sector_num, nsector, pmac_ide_transfer_cb, io); + pmac_dma_read(s->blk, offset, io->len, pmac_ide_transfer_cb, io); break; case IDE_DMA_WRITE: - pmac_dma_write(s->blk, sector_num, nsector, pmac_ide_transfer_cb, io); + pmac_dma_write(s->blk, offset, io->len, pmac_ide_transfer_cb, io); break; case IDE_DMA_TRIM: - MACIO_DPRINTF("TRIM command issued!"); break; } @@ -561,15 +508,12 @@ static void ide_dbdma_start(IDEDMA *dma, IDEState *s, BlockCompletionFunc *cb) { MACIOIDEState *m = container_of(dma, MACIOIDEState, dma); - DBDMAState *dbdma = m->dbdma; - DBDMA_io *io; - int i; s->io_buffer_index = 0; if (s->drive_kind == IDE_CD) { s->io_buffer_size = s->packet_transfer_size; } else { - s->io_buffer_size = s->nsector * 0x200; + s->io_buffer_size = s->nsector * BDRV_SECTOR_SIZE; } MACIO_DPRINTF("\n\n------------ IDE transfer\n"); @@ -578,15 +522,6 @@ static void ide_dbdma_start(IDEDMA *dma, IDEState *s, MACIO_DPRINTF("lba: %x size: %x\n", s->lba, s->io_buffer_size); MACIO_DPRINTF("-------------------------\n"); - for (i = 0; i < DBDMA_CHANNELS; i++) { - io = &dbdma->channels[i].io; - - if (io->opaque == m) { - io->remainder_len = 0; - } - } - - MACIO_DPRINTF("\n"); m->dma_active = true; DBDMA_kick(m->dbdma); } diff --git a/include/hw/ppc/mac_dbdma.h b/include/hw/ppc/mac_dbdma.h index c5803279da6f763d5e788331611f7306a04659ee..c6870212e9aaef0072dbe45378cec37119c25e61 100644 --- a/include/hw/ppc/mac_dbdma.h +++ b/include/hw/ppc/mac_dbdma.h @@ -40,8 +40,8 @@ struct DBDMA_io { /* DMA is in progress, don't start another one */ bool processing; /* unaligned last sector of a request */ - uint8_t remainder[0x200]; - int remainder_len; + uint8_t head_remainder[0x200]; + uint8_t tail_remainder[0x200]; QEMUIOVector iov; }; diff --git a/tests/fdc-test.c b/tests/fdc-test.c index 3c6c83cac4e96217ccf76b20c20abf4491340aa3..416394fc770965b94dccbf456c8b6cbda7c89f4a 100644 --- a/tests/fdc-test.c +++ b/tests/fdc-test.c @@ -218,6 +218,10 @@ static uint8_t send_read_no_dma_command(int nb_sect, uint8_t expected_st0) inb(FLOPPY_BASE + reg_fifo); } + msr = inb(FLOPPY_BASE + reg_msr); + assert_bit_set(msr, BUSY | RQM | DIO); + g_assert(get_irq(FLOPPY_IRQ)); + st0 = floppy_recv(); if (st0 != expected_st0) { ret = 1; @@ -228,8 +232,15 @@ static uint8_t send_read_no_dma_command(int nb_sect, uint8_t expected_st0) floppy_recv(); floppy_recv(); floppy_recv(); + g_assert(get_irq(FLOPPY_IRQ)); floppy_recv(); + /* Check that we're back in command phase */ + msr = inb(FLOPPY_BASE + reg_msr); + assert_bit_clear(msr, BUSY | DIO); + assert_bit_set(msr, RQM); + g_assert(!get_irq(FLOPPY_IRQ)); + return ret; } @@ -403,6 +414,7 @@ static void test_read_id(void) uint8_t head = 0; uint8_t cyl; uint8_t st0; + uint8_t msr; /* Seek to track 0 and check with READ ID */ send_seek(0); @@ -411,18 +423,29 @@ static void test_read_id(void) g_assert(!get_irq(FLOPPY_IRQ)); floppy_send(head << 2 | drive); + msr = inb(FLOPPY_BASE + reg_msr); + if (!get_irq(FLOPPY_IRQ)) { + assert_bit_set(msr, BUSY); + assert_bit_clear(msr, RQM); + } + while (!get_irq(FLOPPY_IRQ)) { /* qemu involves a timer with READ ID... */ clock_step(1000000000LL / 50); } + msr = inb(FLOPPY_BASE + reg_msr); + assert_bit_set(msr, BUSY | RQM | DIO); + st0 = floppy_recv(); floppy_recv(); floppy_recv(); cyl = floppy_recv(); head = floppy_recv(); floppy_recv(); + g_assert(get_irq(FLOPPY_IRQ)); floppy_recv(); + g_assert(!get_irq(FLOPPY_IRQ)); g_assert_cmpint(cyl, ==, 0); g_assert_cmpint(head, ==, 0); @@ -443,18 +466,29 @@ static void test_read_id(void) g_assert(!get_irq(FLOPPY_IRQ)); floppy_send(head << 2 | drive); + msr = inb(FLOPPY_BASE + reg_msr); + if (!get_irq(FLOPPY_IRQ)) { + assert_bit_set(msr, BUSY); + assert_bit_clear(msr, RQM); + } + while (!get_irq(FLOPPY_IRQ)) { /* qemu involves a timer with READ ID... */ clock_step(1000000000LL / 50); } + msr = inb(FLOPPY_BASE + reg_msr); + assert_bit_set(msr, BUSY | RQM | DIO); + st0 = floppy_recv(); floppy_recv(); floppy_recv(); cyl = floppy_recv(); head = floppy_recv(); floppy_recv(); + g_assert(get_irq(FLOPPY_IRQ)); floppy_recv(); + g_assert(!get_irq(FLOPPY_IRQ)); g_assert_cmpint(cyl, ==, 8); g_assert_cmpint(head, ==, 1);