mips/rmi/rmixlvar.h

1.1.2.19  cliff /*	$NetBSD: rmixlvar.h,v 1.1.2.19 2011/01/07 00:16:20 cliff Exp $	*/
 1.1.2.1  cliff
 1.1.2.1  cliff /*
 1.1.2.1  cliff  * Copyright 2002 Wasabi Systems, Inc.
 1.1.2.1  cliff  * All rights reserved.
 1.1.2.1  cliff  *
 1.1.2.1  cliff  * Written by Simon Burge for Wasabi Systems, Inc.
 1.1.2.1  cliff  *
 1.1.2.1  cliff  * Redistribution and use in source and binary forms, with or without
 1.1.2.1  cliff  * modification, are permitted provided that the following conditions
 1.1.2.1  cliff  * are met:
 1.1.2.1  cliff  * 1. Redistributions of source code must retain the above copyright
 1.1.2.1  cliff  *    notice, this list of conditions and the following disclaimer.
 1.1.2.1  cliff  * 2. Redistributions in binary form must reproduce the above copyright
 1.1.2.1  cliff  *    notice, this list of conditions and the following disclaimer in the
 1.1.2.1  cliff  *    documentation and/or other materials provided with the distribution.
 1.1.2.1  cliff  * 3. All advertising materials mentioning features or use of this software
 1.1.2.1  cliff  *    must display the following acknowledgement:
 1.1.2.1  cliff  *      This product includes software developed for the NetBSD Project by
 1.1.2.1  cliff  *      Wasabi Systems, Inc.
 1.1.2.1  cliff  * 4. The name of Wasabi Systems, Inc. may not be used to endorse
 1.1.2.1  cliff  *    or promote products derived from this software without specific prior
 1.1.2.1  cliff  *    written permission.
 1.1.2.1  cliff  *
 1.1.2.1  cliff  * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND
 1.1.2.1  cliff  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.1.2.1  cliff  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1.2.1  cliff  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL WASABI SYSTEMS, INC
 1.1.2.1  cliff  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1.2.1  cliff  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1.2.1  cliff  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1.2.1  cliff  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1.2.1  cliff  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1.2.1  cliff  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1.2.1  cliff  * POSSIBILITY OF SUCH DAMAGE.
 1.1.2.1  cliff  */
 1.1.2.1  cliff
 1.1.2.6  cliff #ifndef _MIPS_RMI_RMIXLVAR_H_
 1.1.2.6  cliff #define _MIPS_RMI_RMIXLVAR_H_
 1.1.2.6  cliff
 1.1.2.6  cliff #include <mips/cpu.h>
1.1.2.14   matt #include <mips/locore.h>
1.1.2.11  cliff #include <mips/rmi/rmixl_firmware.h>
 1.1.2.1  cliff
1.1.2.14   matt #include <machine/bus.h>
1.1.2.14   matt
1.1.2.14   matt #include <dev/pci/pcivar.h>
1.1.2.14   matt
1.1.2.19  cliff extern void rmixl_pcr_init_core(void);
1.1.2.19  cliff
 1.1.2.6  cliff static inline bool
 1.1.2.6  cliff cpu_rmixl(const struct pridtab *ct)
 1.1.2.6  cliff {
 1.1.2.6  cliff 	if (ct->cpu_cid == MIPS_PRID_CID_RMI)
 1.1.2.6  cliff 		return true;
 1.1.2.6  cliff 	return false;
 1.1.2.6  cliff }
 1.1.2.6  cliff
 1.1.2.6  cliff static inline bool
 1.1.2.6  cliff cpu_rmixlr(const struct pridtab *ct)
 1.1.2.6  cliff {
 1.1.2.6  cliff 	u_int type = ct->cpu_cidflags & MIPS_CIDFL_RMI_TYPE;
 1.1.2.6  cliff 	if (cpu_rmixl(ct) && type == CIDFL_RMI_TYPE_XLR)
 1.1.2.6  cliff 		return true;
 1.1.2.6  cliff 	return false;
 1.1.2.6  cliff }
 1.1.2.6  cliff
 1.1.2.6  cliff static inline bool
 1.1.2.6  cliff cpu_rmixls(const struct pridtab *ct)
 1.1.2.6  cliff {
 1.1.2.6  cliff 	u_int type = ct->cpu_cidflags & MIPS_CIDFL_RMI_TYPE;
 1.1.2.6  cliff 	if (cpu_rmixl(ct) && type == CIDFL_RMI_TYPE_XLS)
 1.1.2.6  cliff 		return true;
 1.1.2.6  cliff 	return false;
 1.1.2.6  cliff }
 1.1.2.6  cliff
 1.1.2.6  cliff static inline bool
 1.1.2.6  cliff cpu_rmixlp(const struct pridtab *ct)
 1.1.2.6  cliff {
 1.1.2.6  cliff 	u_int type = ct->cpu_cidflags & MIPS_CIDFL_RMI_TYPE;
 1.1.2.6  cliff 	if (cpu_rmixl(ct) && type == CIDFL_RMI_TYPE_XLP)
 1.1.2.6  cliff 		return true;
 1.1.2.6  cliff 	return false;
 1.1.2.6  cliff }
 1.1.2.6  cliff
1.1.2.16  cliff static inline int
1.1.2.16  cliff cpu_rmixl_chip_type(const struct pridtab *ct)
1.1.2.16  cliff {
1.1.2.16  cliff 	return ct->cpu_cidflags & MIPS_CIDFL_RMI_TYPE;
1.1.2.16  cliff }
1.1.2.16  cliff
1.1.2.13  cliff typedef enum {
1.1.2.13  cliff 	PSB_TYPE_UNKNOWN=0,
1.1.2.13  cliff 	PSB_TYPE_RMI,
1.1.2.13  cliff 	PSB_TYPE_DELL,
1.1.2.13  cliff } rmixlfw_psb_type_t;
1.1.2.13  cliff
1.1.2.13  cliff static inline const char *
1.1.2.13  cliff rmixlfw_psb_type_name(rmixlfw_psb_type_t type)
1.1.2.13  cliff {
1.1.2.13  cliff 	switch(type) {
1.1.2.13  cliff 	case PSB_TYPE_UNKNOWN:
1.1.2.13  cliff 		return "unknown";
1.1.2.13  cliff 	case PSB_TYPE_RMI:
1.1.2.13  cliff 		return "RMI";
1.1.2.13  cliff 	case PSB_TYPE_DELL:
1.1.2.13  cliff 		return "DELL";
1.1.2.13  cliff 	default:
1.1.2.13  cliff 		return "undefined";
1.1.2.13  cliff 	}
1.1.2.13  cliff }
1.1.2.13  cliff
 1.1.2.1  cliff struct rmixl_config {
 1.1.2.2  cliff 	uint64_t		 rc_io_pbase;
1.1.2.17  cliff 	bus_addr_t		 rc_pci_cfg_pbase;
1.1.2.17  cliff 	bus_size_t		 rc_pci_cfg_size;
1.1.2.17  cliff 	bus_addr_t		 rc_pci_ecfg_pbase;
1.1.2.17  cliff 	bus_size_t		 rc_pci_ecfg_size;
 1.1.2.5  cliff 	bus_addr_t		 rc_pci_mem_pbase;
 1.1.2.5  cliff 	bus_size_t		 rc_pci_mem_size;
 1.1.2.5  cliff 	bus_addr_t		 rc_pci_io_pbase;
 1.1.2.5  cliff 	bus_size_t		 rc_pci_io_size;
 1.1.2.9  cliff 	struct mips_bus_space	 rc_obio_eb_memt; 	/* DEVIO -eb */
 1.1.2.9  cliff 	struct mips_bus_space	 rc_obio_el_memt; 	/* DEVIO -el */
1.1.2.17  cliff 	struct mips_bus_space	 rc_pci_cfg_memt; 	/* PCI CFG  */
1.1.2.17  cliff 	struct mips_bus_space	 rc_pci_ecfg_memt; 	/* PCI ECFG */
 1.1.2.7  cliff 	struct mips_bus_space	 rc_pci_memt; 		/* PCI MEM */
 1.1.2.7  cliff 	struct mips_bus_space	 rc_pci_iot; 		/* PCI IO  */
1.1.2.18  cliff 	struct mips_bus_dma_tag	 rc_dma_tag;
1.1.2.18  cliff 	bus_dma_tag_t		 rc_64bit_dmat;
1.1.2.12  cliff 	bus_dma_tag_t		 rc_32bit_dmat;
1.1.2.12  cliff 	bus_dma_tag_t		 rc_29bit_dmat;
 1.1.2.5  cliff 	struct extent		*rc_phys_ex;	/* Note: MB units */
 1.1.2.9  cliff 	struct extent		*rc_obio_eb_ex;
 1.1.2.9  cliff 	struct extent		*rc_obio_el_ex;
1.1.2.17  cliff 	struct extent		*rc_pci_cfg_ex;
1.1.2.17  cliff 	struct extent		*rc_pci_ecfg_ex;
1.1.2.17  cliff 	struct extent		*rc_pci_mem_ex;
1.1.2.17  cliff 	struct extent		*rc_pci_io_ex;
 1.1.2.1  cliff 	int			 rc_mallocsafe;
1.1.2.12  cliff 	rmixlfw_info_t 		 rc_psb_info;
1.1.2.13  cliff 	rmixlfw_psb_type_t	 rc_psb_type;
1.1.2.11  cliff 	volatile struct rmixlfw_cpu_wakeup_info
1.1.2.11  cliff 				*rc_cpu_wakeup_info;
1.1.2.11  cliff 	const void		*rc_cpu_wakeup_end;
 1.1.2.1  cliff };
 1.1.2.1  cliff
 1.1.2.1  cliff extern struct rmixl_config rmixl_configuration;
 1.1.2.1  cliff
 1.1.2.9  cliff extern void rmixl_obio_eb_bus_mem_init(bus_space_tag_t, void *);
 1.1.2.9  cliff extern void rmixl_obio_el_bus_mem_init(bus_space_tag_t, void *);
1.1.2.17  cliff extern void rmixl_pci_cfg_bus_mem_init(bus_space_tag_t, void *);
1.1.2.17  cliff extern void rmixl_pci_ecfg_bus_mem_init(bus_space_tag_t, void *);
1.1.2.17  cliff extern void rmixl_pci_bus_mem_init(bus_space_tag_t, void *);
1.1.2.17  cliff extern void rmixl_pci_bus_io_init(bus_space_tag_t, void *);
 1.1.2.1  cliff
 1.1.2.5  cliff extern void rmixl_addr_error_init(void);
 1.1.2.5  cliff extern int  rmixl_addr_error_check(void);
 1.1.2.5  cliff
 1.1.2.6  cliff extern uint64_t rmixl_mfcr(u_int);
 1.1.2.6  cliff extern void rmixl_mtcr(uint64_t, u_int);
 1.1.2.5  cliff
1.1.2.13  cliff
1.1.2.13  cliff /*
1.1.2.13  cliff  * rmixl_cache_err_dis:
1.1.2.13  cliff  * - disable Cache, Data ECC, Snoop Tag Parity, Tag Parity errors
1.1.2.13  cliff  * - clear the cache error log
1.1.2.13  cliff  * - return previous value from RMIXL_PCR_L1D_CONFIG0
1.1.2.13  cliff  */
1.1.2.13  cliff static inline uint64_t
1.1.2.13  cliff rmixl_cache_err_dis(void)
1.1.2.13  cliff {
1.1.2.13  cliff 	uint64_t r;
1.1.2.13  cliff
1.1.2.13  cliff 	r = rmixl_mfcr(RMIXL_PCR_L1D_CONFIG0);
1.1.2.13  cliff 	rmixl_mtcr(RMIXL_PCR_L1D_CONFIG0, r & ~0x2e);
1.1.2.13  cliff 	rmixl_mtcr(RMIXL_PCR_L1D_CACHE_ERROR_LOG, 0);
1.1.2.13  cliff 	return r;
1.1.2.13  cliff }
1.1.2.13  cliff
1.1.2.13  cliff /*
1.1.2.13  cliff  * rmixl_cache_err_restore:
1.1.2.13  cliff  * - clear the cache error log, cache error overflow log,
1.1.2.13  cliff  *   and cache interrupt registers
1.1.2.13  cliff  * - restore previous value to RMIXL_PCR_L1D_CONFIG0
1.1.2.13  cliff  */
1.1.2.13  cliff static inline void
1.1.2.13  cliff rmixl_cache_err_restore(uint64_t r)
1.1.2.13  cliff {
1.1.2.13  cliff 	rmixl_mtcr(RMIXL_PCR_L1D_CACHE_ERROR_LOG, 0);
1.1.2.13  cliff 	rmixl_mtcr(RMIXL_PCR_L1D_CACHE_ERROR_OVF_LO, 0);
1.1.2.13  cliff 	rmixl_mtcr(RMIXL_PCR_L1D_CACHE_INTERRUPT, 0);
1.1.2.13  cliff 	rmixl_mtcr(RMIXL_PCR_L1D_CONFIG0, r);
1.1.2.13  cliff }
1.1.2.13  cliff
1.1.2.13  cliff static inline uint64_t
1.1.2.13  cliff rmixl_cache_err_check(void)
1.1.2.13  cliff {
1.1.2.13  cliff 	return rmixl_mfcr(RMIXL_PCR_L1D_CACHE_ERROR_LOG);
1.1.2.13  cliff }
1.1.2.13  cliff
1.1.2.13  cliff static inline int
1.1.2.13  cliff rmixl_probe_4(volatile uint32_t *va)
1.1.2.13  cliff {
1.1.2.13  cliff 	uint32_t tmp;
1.1.2.13  cliff 	uint32_t r;
1.1.2.13  cliff 	int err;
1.1.2.13  cliff 	int s;
1.1.2.13  cliff
1.1.2.13  cliff 	s = splhigh();
1.1.2.13  cliff 	r = rmixl_cache_err_dis();
1.1.2.13  cliff 	tmp = *va;			/* probe */
1.1.2.13  cliff 	err = rmixl_cache_err_check();
1.1.2.13  cliff 	rmixl_cache_err_restore(r);
1.1.2.13  cliff 	splx(s);
1.1.2.13  cliff
1.1.2.13  cliff 	return (err == 0);
1.1.2.13  cliff }
1.1.2.13  cliff
 1.1.2.6  cliff #endif	/* _MIPS_RMI_RMIXLVAR_H_ */