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[/] [openrisc/] [trunk/] [or1ksim/] [peripheral/] [atahost.c] - Rev 304
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/* atahost.c -- ATA Host code simulation Copyright (C) 2002 Richard Herveille, rherveille@opencores.org Copyright (C) 2008 Embecosm Limited Contributor Jeremy Bennett <jeremy.bennett@embecosm.com> This file is part of Or1ksim, the OpenRISC 1000 Architectural Simulator. 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/>. */ /* This program is commented throughout in a fashion suitable for processing with Doxygen. */ /* Autoconf and/or portability configuration */ #include "config.h" #include "port.h" /* System includes */ #include <stdlib.h> /* Package includes */ #include "atahost.h" #include "sim-config.h" #include "abstract.h" #include "pic.h" #include "toplevel-support.h" #include "sim-cmd.h" /* default timing reset values */ #define PIO_MODE0_T1 6 #define PIO_MODE0_T2 28 #define PIO_MODE0_T4 2 #define PIO_MODE0_TEOC 23 #define DMA_MODE0_TM 4 #define DMA_MODE0_TD 21 #define DMA_MODE0_TEOC 21 /* reset and initialize ATA host core(s) */ static void ata_reset (void *dat) { struct ata_host *ata = dat; // reset the core registers ata->regs.ctrl = 0x0001; ata->regs.stat = (ata->dev_id << 28) | (ata->rev << 24); ata->regs.pctr = (ata->pio_mode0_teoc << ATA_TEOC) | (ata->pio_mode0_t4 << ATA_T4) | (ata->pio_mode0_t2 << ATA_T2) | (ata->pio_mode0_t1 << ATA_T1); ata->regs.pftr0 = ata->regs.pctr; ata->regs.pftr1 = ata->regs.pctr; ata->regs.dtr0 = (ata->dma_mode0_teoc << ATA_TEOC) | (ata->dma_mode0_td << ATA_TD) | (ata->dma_mode0_tm << ATA_TM); ata->regs.dtr1 = ata->regs.dtr0; ata->regs.txb = 0; // inform simulator about new read/write delay timings adjust_rw_delay (ata->mem, ata_pio_delay (ata->regs.pctr), ata_pio_delay (ata->regs.pctr)); /* the reset bit in the control register 'ctrl' is set, reset connect ata-devices */ ata_devices_hw_reset (&ata->devices, 1); } /* ========================================================================= */ /* Assert interrupt */ void ata_int (void *dat) { struct ata_host *ata = dat; if (!(ata->regs.stat & ATA_IDEIS)) { ata->regs.stat |= ATA_IDEIS; report_interrupt (ata->irq); } } /* ========================================================================= */ /* Read a register */ static uint32_t ata_read32 (oraddr_t addr, void *dat) { struct ata_host *ata = dat; /* determine if ata_host or ata_device addressed */ if (is_ata_hostadr (addr)) { // Accesses to internal register take 2cycles adjust_rw_delay (ata->mem, 2, 2); switch (addr) { case ATA_CTRL: return ata->regs.ctrl; case ATA_STAT: return ata->regs.stat; case ATA_PCTR: return ata->regs.pctr; case ATA_PFTR0: return ata->dev_id > 1 ? ata->regs.pftr0 : 0; case ATA_PFTR1: return ata->dev_id > 1 ? ata->regs.pftr1 : 0; case ATA_DTR0: return ata->dev_id > 2 ? ata->regs.dtr0 : 0; case ATA_DTR1: return ata->dev_id > 2 ? ata->regs.dtr1 : 0; case ATA_RXB: return ata->dev_id > 2 ? ata->regs.rxb : 0; default: return 0; } } /* check if the controller is enabled */ if (ata->regs.ctrl & ATA_IDE_EN) { // make sure simulator uses correct read/write delay timings if (((addr & 0x7f) == ATA_DR) && ata->dev_id > 1) { if (ata->dev_sel) adjust_rw_delay (ata->mem, ata_pio_delay (ata->regs.pftr1), ata_pio_delay (ata->regs.pftr1)); else adjust_rw_delay (ata->mem, ata_pio_delay (ata->regs.pftr0), ata_pio_delay (ata->regs.pftr0)); } else adjust_rw_delay (ata->mem, ata_pio_delay (ata->regs.pctr), ata_pio_delay (ata->regs.pctr)); return ata_devices_read (&ata->devices, addr & 0x7f); } return 0; } /* ========================================================================= */ /* Write a register */ static void ata_write32 (oraddr_t addr, uint32_t value, void *dat) { struct ata_host *ata = dat; /* determine if ata_host or ata_device addressed */ if (is_ata_hostadr (addr)) { // Accesses to internal register take 2cycles adjust_rw_delay (ata->mem, 2, 2); switch (addr) { case ATA_CTRL: ata->regs.ctrl = value; /* check if reset bit set, if so reset ata-devices */ if (value & ATA_RST) ata_devices_hw_reset (&ata->devices, 1); else ata_devices_hw_reset (&ata->devices, 0); break; case ATA_STAT: if (!(value & ATA_IDEIS) && (ata->regs.stat & ATA_IDEIS)) { clear_interrupt (ata->irq); ata->regs.stat &= ~ATA_IDEIS; } break; case ATA_PCTR: ata->regs.pctr = value; break; case ATA_PFTR0: ata->regs.pftr0 = value; break; case ATA_PFTR1: ata->regs.pftr1 = value; break; case ATA_DTR0: ata->regs.dtr0 = value; break; case ATA_DTR1: ata->regs.dtr1 = value; break; case ATA_TXB: ata->regs.txb = value; break; default: /* ERROR-macro currently only supports simple strings. */ /* fprintf(stderr, "ERROR : Unknown register for OCIDEC(%1d).\n", DEV_ID ); Tried to show some useful info here. But when using 'DM'-simulator-command, the screen gets filled with these messages. Thereby eradicating the usefulness of the message */ break; } return; } /* check if the controller is enabled */ if (ata->regs.ctrl & ATA_IDE_EN) { // make sure simulator uses correct read/write delay timings if (((addr & 0x7f) == ATA_DR) && (ata->dev_id > 1)) { if (ata->dev_sel) adjust_rw_delay (ata->mem, ata_pio_delay (ata->regs.pftr1), ata_pio_delay (ata->regs.pftr1)); else adjust_rw_delay (ata->mem, ata_pio_delay (ata->regs.pftr0), ata_pio_delay (ata->regs.pftr0)); } else adjust_rw_delay (ata->mem, ata_pio_delay (ata->regs.pctr), ata_pio_delay (ata->regs.pctr)); if ((addr & 0x7f) == ATA_DHR) ata->dev_sel = value & ATA_DHR_DEV; ata_devices_write (&ata->devices, addr & 0x7f, value); } } /* ========================================================================= */ /* Dump status */ static void ata_status (void *dat) { struct ata_host *ata = dat; if (ata->baseaddr == 0) return; PRINTF ("\nOCIDEC-%1d at: 0x%" PRIxADDR "\n", ata->dev_id, ata->baseaddr); PRINTF ("ATA CTRL : 0x%08" PRIx32 "\n", ata->regs.ctrl); PRINTF ("ATA STAT : 0x%08" PRIx32 "\n", ata->regs.stat); PRINTF ("ATA PCTR : 0x%08" PRIx32 "n", ata->regs.pctr); if (ata->dev_id > 1) { PRINTF ("ATA FCTR0 : 0x%08" PRIx32 "\n", ata->regs.pftr0); PRINTF ("ATA FCTR1 : 0x%08" PRIx32 "\n", ata->regs.pftr1); } if (ata->dev_id > 2) { PRINTF ("ATA DTR0 : 0x%08" PRIx32 "\n", ata->regs.dtr0); PRINTF ("ATA DTR1 : 0x%08" PRIx32 "\n", ata->regs.dtr1); PRINTF ("ATA TXD : 0x%08" PRIx32 "\n", ata->regs.txb); PRINTF ("ATA RXD : 0x%08" PRIx32 "\n", ata->regs.rxb); } } /* ========================================================================= */ /*----------------------------------------------------[ ATA Configuration ]---*/ static unsigned int conf_dev; static void ata_baseaddr (union param_val val, void *dat) { struct ata_host *ata = dat; ata->baseaddr = val.addr_val; } static void ata_irq (union param_val val, void *dat) { struct ata_host *ata = dat; ata->irq = val.int_val; } static void ata_dev_id (union param_val val, void *dat) { struct ata_host *ata = dat; if (val.int_val < 1 || val.int_val > 3) { fprintf (stderr, "Peripheral ATA: Unknown device id %d, useing 1\n", val.int_val); ata->dev_id = 1; return; } ata->dev_id = val.int_val; } /*---------------------------------------------------------------------------*/ /*!Set the ATA revision This must be in the range 0-15, to fit in the relevant field. Anything larger is truncated with a warning. @param[in] val The value to use @param[in] dat The config data structure */ /*---------------------------------------------------------------------------*/ static void ata_rev (union param_val val, void *dat) { struct ata_host *ata = dat; if (val.int_val > 0xf) { fprintf (stderr, "Warning: ATA rev > 4 bits: truncated\n"); } ata->rev = val.int_val & 0xf; } static void ata_pio_mode0_t1 (union param_val val, void *dat) { struct ata_host *ata = dat; if (val.int_val < 0 || val.int_val > 255) { fprintf (stderr, "Peripheral ATA: Invalid pio_mode0_t1: %d\n", val.int_val); return; } ata->pio_mode0_t1 = val.int_val; } static void ata_pio_mode0_t2 (union param_val val, void *dat) { struct ata_host *ata = dat; if (val.int_val < 0 || val.int_val > 255) { fprintf (stderr, "Peripheral ATA: Invalid pio_mode0_t2: %d\n", val.int_val); return; } ata->pio_mode0_t2 = val.int_val; } static void ata_pio_mode0_t4 (union param_val val, void *dat) { struct ata_host *ata = dat; if (val.int_val < 0 || val.int_val > 255) { fprintf (stderr, "Peripheral ATA: Invalid pio_mode0_t4: %d\n", val.int_val); return; } ata->pio_mode0_t4 = val.int_val; } static void ata_pio_mode0_teoc (union param_val val, void *dat) { struct ata_host *ata = dat; if (val.int_val < 0 || val.int_val > 255) { fprintf (stderr, "Peripheral ATA: Invalid pio_mode0_teoc: %d\n", val.int_val); return; } ata->pio_mode0_teoc = val.int_val; } static void ata_dma_mode0_tm (union param_val val, void *dat) { struct ata_host *ata = dat; if (val.int_val < 0 || val.int_val > 255) { fprintf (stderr, "Peripheral ATA: Invalid dma_mode0_tm: %d\n", val.int_val); return; } ata->dma_mode0_tm = val.int_val; } static void ata_dma_mode0_td (union param_val val, void *dat) { struct ata_host *ata = dat; if (val.int_val < 0 || val.int_val > 255) { fprintf (stderr, "Peripheral ATA: Invalid dma_mode0_td: %d\n", val.int_val); return; } ata->dma_mode0_td = val.int_val; } static void ata_dma_mode0_teoc (union param_val val, void *dat) { struct ata_host *ata = dat; if (val.int_val < 0 || val.int_val > 255) { fprintf (stderr, "Peripheral ATA: Invalid dma_mode0_teoc: %d\n", val.int_val); return; } ata->dma_mode0_teoc = val.int_val; } static void ata_type (union param_val val, void *dat) { struct ata_host *ata = dat; if (conf_dev <= 1) ata->devices.device[conf_dev].conf.type = val.int_val; } /*---------------------------------------------------------------------------*/ /*!Set the ATA file Free any previously allocated value. Only used if device type is 1. @param[in] val The value to use @param[in] dat The config data structure */ /*---------------------------------------------------------------------------*/ static void ata_file (union param_val val, void *dat) { struct ata_host *ata = dat; if (conf_dev <= 1) { if (NULL != ata->devices.device[conf_dev].conf.file) { free (ata->devices.device[conf_dev].conf.file); ata->devices.device[conf_dev].conf.file = NULL; } if (!(ata->devices.device[conf_dev].conf.file = strdup (val.str_val))) { fprintf (stderr, "Peripheral ATA: Run out of memory\n"); exit (-1); } } } /* ata_file() */ static void ata_size (union param_val val, void *dat) { struct ata_host *ata = dat; if (conf_dev <= 1) ata->devices.device[conf_dev].conf.size = val.int_val << 20; } static void ata_packet (union param_val val, void *dat) { struct ata_host *ata = dat; if (conf_dev <= 1) ata->devices.device[conf_dev].conf.packet = val.int_val; } static void ata_enabled (union param_val val, void *dat) { struct ata_host *ata = dat; ata->enabled = val.int_val; } static void ata_heads (union param_val val, void *dat) { struct ata_host *ata = dat; if (conf_dev <= 1) ata->devices.device[conf_dev].conf.heads = val.int_val; } static void ata_sectors (union param_val val, void *dat) { struct ata_host *ata = dat; if (conf_dev <= 1) ata->devices.device[conf_dev].conf.sectors = val.int_val; } static void ata_firmware (union param_val val, void *dat) { struct ata_host *ata = dat; if (conf_dev <= 1) if (!(ata->devices.device[conf_dev].conf.firmware = strdup (val.str_val))) { fprintf (stderr, "Peripheral ATA: Run out of memory\n"); exit (-1); } } /*---------------------------------------------------------------------------*/ /*!Set the ATA multi-word DMA mode Must be -1, 0, 1 or 2. @param[in] val The value to use @param[in] dat The config data structure */ /*---------------------------------------------------------------------------*/ static void ata_mwdma (union param_val val, void *dat) { struct ata_host *ata = dat; if ((val.int_val >= -1) && (val.int_val <= 2)) { ata->devices.device[conf_dev].conf.mwdma = val.int_val; } else { fprintf (stderr, "Warning: invalid ATA multi-word DMA mode: ignored\n"); } } /* ata_mwdma() */ /*---------------------------------------------------------------------------*/ /*!Set the ATA programmed I/O mode Must be 0, 1, 2, 3 or 4. @param[in] val The value to use @param[in] dat The config data structure */ /*---------------------------------------------------------------------------*/ static void ata_pio (union param_val val, void *dat) { struct ata_host *ata = dat; if ((val.int_val >= 0) && (val.int_val <= 4)) { ata->devices.device[conf_dev].conf.pio = val.int_val; } else { fprintf (stderr, "Warning: invalid ATA programmed I/O mode: ignored\n"); } } /* ata_pio() */ static void ata_start_device (union param_val val, void *dat) { conf_dev = val.int_val; if (conf_dev > 1) fprintf (stderr, "Device %d out-of-range\n", conf_dev); } static void ata_enddevice (union param_val val, void *dat) { conf_dev = 2; } /*---------------------------------------------------------------------------*/ /*!Initialize a new ATA configuration ALL parameters are set explicitly to default values. */ /*---------------------------------------------------------------------------*/ static void * ata_sec_start (void) { struct ata_host *new = malloc (sizeof (struct ata_host)); if (!new) { fprintf (stderr, "Peripheral ATA: Run out of memory\n"); exit (-1); } memset (new, 0, sizeof (struct ata_host)); new->enabled = 1; new->baseaddr = 0; new->irq = 0; new->dev_id = 1; new->rev = 0; new->pio_mode0_t1 = PIO_MODE0_T1; new->pio_mode0_t2 = PIO_MODE0_T2; new->pio_mode0_t4 = PIO_MODE0_T4; new->pio_mode0_teoc = PIO_MODE0_TEOC; new->dma_mode0_tm = DMA_MODE0_TM; new->dma_mode0_td = DMA_MODE0_TD; new->dma_mode0_teoc = DMA_MODE0_TEOC; new->devices.device[0].conf.type = 0; new->devices.device[0].conf.file = strdup ("ata_file0"); new->devices.device[0].conf.size = 0; new->devices.device[0].conf.packet = 0; new->devices.device[0].conf.heads = 7; new->devices.device[0].conf.sectors = 32; new->devices.device[0].conf.firmware = "02207031"; new->devices.device[0].conf.mwdma = 2; new->devices.device[0].conf.pio = 4; new->devices.device[1].conf.type = 0; new->devices.device[1].conf.file = strdup ("ata_file1"); new->devices.device[1].conf.size = 0; new->devices.device[1].conf.packet = 0; new->devices.device[1].conf.heads = 7; new->devices.device[1].conf.sectors = 32; new->devices.device[1].conf.firmware = "02207031"; new->devices.device[1].conf.mwdma = 2; new->devices.device[1].conf.pio = 4; return new; } /* ata_sec_start() */ static void ata_sec_end (void *dat) { struct ata_host *ata = dat; struct mem_ops ops; if (!ata->enabled) { free (dat); return; } /* Connect ata_devices. */ ata_devices_init (&ata->devices); ata->devices.device[0].internals.host = ata; ata->devices.device[1].internals.host = ata; memset (&ops, 0, sizeof (struct mem_ops)); ops.readfunc32 = ata_read32; ops.read_dat32 = dat; ops.writefunc32 = ata_write32; ops.write_dat32 = dat; /* Delays will be readjusted later */ ops.delayr = 2; ops.delayw = 2; ata->mem = reg_mem_area (ata->baseaddr, ATA_ADDR_SPACE, 0, &ops); reg_sim_reset (ata_reset, dat); reg_sim_stat (ata_status, dat); } void reg_ata_sec () { struct config_section *sec = reg_config_sec ("ata", ata_sec_start, ata_sec_end); reg_config_param (sec, "enabled", PARAMT_INT, ata_enabled); reg_config_param (sec, "baseaddr", PARAMT_ADDR, ata_baseaddr); reg_config_param (sec, "irq", PARAMT_INT, ata_irq); reg_config_param (sec, "dev_id", PARAMT_INT, ata_dev_id); reg_config_param (sec, "rev", PARAMT_INT, ata_rev); reg_config_param (sec, "pio_mode0_t1", PARAMT_INT, ata_pio_mode0_t1); reg_config_param (sec, "pio_mode0_t2", PARAMT_INT, ata_pio_mode0_t2); reg_config_param (sec, "pio_mode0_t4", PARAMT_INT, ata_pio_mode0_t4); reg_config_param (sec, "pio_mode0_teoc", PARAMT_INT, ata_pio_mode0_teoc); reg_config_param (sec, "dma_mode0_tm", PARAMT_INT, ata_dma_mode0_tm); reg_config_param (sec, "dma_mode0_td", PARAMT_INT, ata_dma_mode0_td); reg_config_param (sec, "dma_mode0_teoc", PARAMT_INT, ata_dma_mode0_teoc); reg_config_param (sec, "device", PARAMT_INT, ata_start_device); reg_config_param (sec, "enddevice", PARAMT_INT, ata_enddevice); reg_config_param (sec, "type", PARAMT_INT, ata_type); reg_config_param (sec, "file", PARAMT_STR, ata_file); reg_config_param (sec, "size", PARAMT_INT, ata_size); reg_config_param (sec, "packet", PARAMT_INT, ata_packet); reg_config_param (sec, "heads", PARAMT_INT, ata_heads); reg_config_param (sec, "sectors", PARAMT_INT, ata_sectors); reg_config_param (sec, "firmware", PARAMT_STR, ata_firmware); reg_config_param (sec, "mwdma", PARAMT_INT, ata_mwdma); reg_config_param (sec, "pio", PARAMT_INT, ata_pio); }
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