freebsd-skq/sys/dev/siba/sibavar.h
Weongyo Jeong b9b64aa5b2 o uses bus accessor macros to read values from ivar so no more values
are referenced directly from ivar pointer.  It's to do like what other
  buses do. [1]
o changes exported prototypes.  It doesn't use struct siba_* structures
  anymore that instead of it it uses only device_t.
o removes duplicate code and debug messages.
o style(9)

Pointed out by:	imp [1]
2010-03-09 19:58:00 +00:00

573 lines
17 KiB
C

/*-
* Copyright (c) 2007 Bruce M. Simpson.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD$
*/
#ifndef _SIBA_SIBAVAR_H_
#define _SIBA_SIBAVAR_H_
#include <sys/rman.h>
struct siba_softc;
struct siba_dev_softc;
enum siba_type {
SIBA_TYPE_SSB,
SIBA_TYPE_PCI,
SIBA_TYPE_PCMCIA,
};
enum siba_device_ivars {
SIBA_IVAR_VENDOR,
SIBA_IVAR_DEVICE,
SIBA_IVAR_REVID,
SIBA_IVAR_CORE_INDEX,
SIBA_IVAR_PCI_VENDOR,
SIBA_IVAR_PCI_DEVICE,
SIBA_IVAR_PCI_SUBVENDOR,
SIBA_IVAR_PCI_SUBDEVICE,
SIBA_IVAR_PCI_REVID,
SIBA_IVAR_CHIPID,
SIBA_IVAR_CHIPREV,
SIBA_IVAR_CHIPPKG,
SIBA_IVAR_TYPE,
SIBA_IVAR_CC_PMUFREQ,
SIBA_IVAR_CC_CAPS,
SIBA_IVAR_CC_POWERDELAY,
SIBA_IVAR_PCICORE_REVID
};
#define SIBA_ACCESSOR(var, ivar, type) \
__BUS_ACCESSOR(siba, var, SIBA, ivar, type)
SIBA_ACCESSOR(vendor, VENDOR, uint16_t)
SIBA_ACCESSOR(device, DEVICE, uint16_t)
SIBA_ACCESSOR(revid, REVID, uint8_t)
SIBA_ACCESSOR(core_index, CORE_INDEX, uint8_t)
SIBA_ACCESSOR(pci_vendor, PCI_VENDOR, uint16_t)
SIBA_ACCESSOR(pci_device, PCI_DEVICE, uint16_t)
SIBA_ACCESSOR(pci_subvendor, PCI_SUBVENDOR, uint16_t)
SIBA_ACCESSOR(pci_subdevice, PCI_SUBDEVICE, uint16_t)
SIBA_ACCESSOR(pci_revid, PCI_REVID, uint8_t)
SIBA_ACCESSOR(chipid, CHIPID, uint16_t)
SIBA_ACCESSOR(chiprev, CHIPREV, uint16_t)
SIBA_ACCESSOR(chippkg, CHIPPKG, uint8_t)
SIBA_ACCESSOR(type, TYPE, enum siba_type)
SIBA_ACCESSOR(cc_pmufreq, CC_PMUFREQ, uint32_t)
SIBA_ACCESSOR(cc_caps, CC_CAPS, uint32_t)
SIBA_ACCESSOR(cc_powerdelay, CC_POWERDELAY, uint16_t)
SIBA_ACCESSOR(pcicore_revid, PCICORE_REVID, uint8_t)
#undef SIBA_ACCESSOR
/* XXX just for SPROM1? */
enum {
SIBA_CCODE_WORLD,
SIBA_CCODE_THAILAND,
SIBA_CCODE_ISRAEL,
SIBA_CCODE_JORDAN,
SIBA_CCODE_CHINA,
SIBA_CCODE_JAPAN,
SIBA_CCODE_USA_CANADA_ANZ,
SIBA_CCODE_EUROPE,
SIBA_CCODE_USA_LOW,
SIBA_CCODE_JAPAN_HIGH,
SIBA_CCODE_ALL,
SIBA_CCODE_NONE,
};
#define siba_mips_read_2(sc, core, reg) \
bus_space_read_2((sc)->siba_mem_bt, (sc)->siba_mem_bh, \
(core * SIBA_CORE_LEN) + (reg))
#define siba_mips_read_4(sc, core, reg) \
bus_space_read_4((sc)->siba_mem_bt, (sc)->siba_mem_bh, \
(core * SIBA_CORE_LEN) + (reg))
#define siba_mips_write_2(sc, core, reg, val) \
bus_space_write_2((sc)->siba_mem_bt, (sc)->siba_mem_bh, \
(core * SIBA_CORE_LEN) + (reg), (val))
#define siba_mips_write_4(sc, core, reg, val) \
bus_space_write_4((sc)->siba_mem_bt, (sc)->siba_mem_bh, \
(core * SIBA_CORE_LEN) + (reg), (val))
#define SIBA_READ_4(siba, reg) \
bus_space_read_4((siba)->siba_mem_bt, (siba)->siba_mem_bh, (reg))
#define SIBA_READ_2(siba, reg) \
bus_space_read_2((siba)->siba_mem_bt, (siba)->siba_mem_bh, (reg))
#define SIBA_READ_MULTI_1(siba, reg, addr, count) \
bus_space_read_multi_1((siba)->siba_mem_bt, (siba)->siba_mem_bh,\
(reg), (addr), (count))
#define SIBA_READ_MULTI_2(siba, reg, addr, count) \
bus_space_read_multi_2((siba)->siba_mem_bt, (siba)->siba_mem_bh,\
(reg), (addr), (count))
#define SIBA_READ_MULTI_4(siba, reg, addr, count) \
bus_space_read_multi_4((siba)->siba_mem_bt, (siba)->siba_mem_bh,\
(reg), (addr), (count))
#define SIBA_WRITE_4(siba, reg, val) \
bus_space_write_4((siba)->siba_mem_bt, (siba)->siba_mem_bh, \
(reg), (val))
#define SIBA_WRITE_2(siba, reg, val) \
bus_space_write_2((siba)->siba_mem_bt, (siba)->siba_mem_bh, \
(reg), (val))
#define SIBA_WRITE_MULTI_1(siba, reg, addr, count) \
bus_space_write_multi_1((siba)->siba_mem_bt, (siba)->siba_mem_bh,\
(reg), (addr), (count))
#define SIBA_WRITE_MULTI_2(siba, reg, addr, count) \
bus_space_write_multi_2((siba)->siba_mem_bt, (siba)->siba_mem_bh,\
(reg), (addr), (count))
#define SIBA_WRITE_MULTI_4(siba, reg, addr, count) \
bus_space_write_multi_4((siba)->siba_mem_bt, (siba)->siba_mem_bh,\
(reg), (addr), (count))
#define SIBA_BARRIER(siba, flags) \
bus_space_barrier((siba)->siba_mem_bt, (siba)->siba_mem_bh, (0),\
(0), (flags))
#define SIBA_SETBITS_4(siba, reg, bits) \
SIBA_WRITE_4((siba), (reg), SIBA_READ_4((siba), (reg)) | (bits))
#define SIBA_SETBITS_2(siba, reg, bits) \
SIBA_WRITE_2((siba), (reg), SIBA_READ_2((siba), (reg)) | (bits))
#define SIBA_FILT_SETBITS_4(siba, reg, filt, bits) \
SIBA_WRITE_4((siba), (reg), (SIBA_READ_4((siba), \
(reg)) & (filt)) | (bits))
#define SIBA_FILT_SETBITS_2(siba, reg, filt, bits) \
SIBA_WRITE_2((siba), (reg), (SIBA_READ_2((siba), \
(reg)) & (filt)) | (bits))
#define SIBA_CLRBITS_4(siba, reg, bits) \
SIBA_WRITE_4((siba), (reg), SIBA_READ_4((siba), (reg)) & ~(bits))
#define SIBA_CLRBITS_2(siba, reg, bits) \
SIBA_WRITE_2((siba), (reg), SIBA_READ_2((siba), (reg)) & ~(bits))
#define SIBA_CC_READ32(scc, offset) \
siba_read_4_sub((scc)->scc_dev, offset)
#define SIBA_CC_WRITE32(scc, offset, val) \
siba_write_4_sub((scc)->scc_dev, offset, val)
#define SIBA_CC_MASK32(scc, offset, mask) \
SIBA_CC_WRITE32(scc, offset, SIBA_CC_READ32(scc, offset) & (mask))
#define SIBA_CC_SET32(scc, offset, set) \
SIBA_CC_WRITE32(scc, offset, SIBA_CC_READ32(scc, offset) | (set))
#define SIBA_CC_MASKSET32(scc, offset, mask, set) \
SIBA_CC_WRITE32(scc, offset, \
(SIBA_CC_READ32(scc, offset) & (mask)) | (set))
enum siba_clock {
SIBA_CLOCK_DYNAMIC,
SIBA_CLOCK_SLOW,
SIBA_CLOCK_FAST,
};
enum siba_clksrc {
SIBA_CC_CLKSRC_PCI,
SIBA_CC_CLKSRC_CRYSTAL,
SIBA_CC_CLKSRC_LOWPW,
};
struct siba_cc_pmu0_plltab {
uint16_t freq; /* in kHz.*/
uint8_t xf; /* crystal frequency */
uint8_t wb_int;
uint32_t wb_frac;
};
struct siba_cc_pmu1_plltab {
uint16_t freq;
uint8_t xf;
uint8_t p1div;
uint8_t p2div;
uint8_t ndiv_int;
uint32_t ndiv_frac;
};
struct siba_cc_pmu_res_updown {
uint8_t res;
uint16_t updown;
};
#define SIBA_CC_PMU_DEP_SET 1
#define SIBA_CC_PMU_DEP_ADD 2
#define SIBA_CC_PMU_DEP_REMOVE 3
struct siba_cc_pmu_res_depend {
uint8_t res;
uint8_t task;
uint32_t depend;
};
enum siba_sprom_vars {
SIBA_SPROMVAR_REV,
SIBA_SPROMVAR_MAC_80211BG,
SIBA_SPROMVAR_MAC_ETH,
SIBA_SPROMVAR_MAC_80211A,
SIBA_SPROMVAR_MII_ETH0,
SIBA_SPROMVAR_MII_ETH1,
SIBA_SPROMVAR_MDIO_ETH0,
SIBA_SPROMVAR_MDIO_ETH1,
SIBA_SPROMVAR_BREV,
SIBA_SPROMVAR_CCODE,
SIBA_SPROMVAR_ANT_A,
SIBA_SPROMVAR_ANT_BG,
SIBA_SPROMVAR_PA0B0,
SIBA_SPROMVAR_PA0B1,
SIBA_SPROMVAR_PA0B2,
SIBA_SPROMVAR_PA1B0,
SIBA_SPROMVAR_PA1B1,
SIBA_SPROMVAR_PA1B2,
SIBA_SPROMVAR_PA1LOB0,
SIBA_SPROMVAR_PA1LOB1,
SIBA_SPROMVAR_PA1LOB2,
SIBA_SPROMVAR_PA1HIB0,
SIBA_SPROMVAR_PA1HIB1,
SIBA_SPROMVAR_PA1HIB2,
SIBA_SPROMVAR_GPIO0,
SIBA_SPROMVAR_GPIO1,
SIBA_SPROMVAR_GPIO2,
SIBA_SPROMVAR_GPIO3,
SIBA_SPROMVAR_MAXPWR_AL,
SIBA_SPROMVAR_MAXPWR_A,
SIBA_SPROMVAR_MAXPWR_AH,
SIBA_SPROMVAR_MAXPWR_BG,
SIBA_SPROMVAR_RXPO2G,
SIBA_SPROMVAR_RXPO5G,
SIBA_SPROMVAR_TSSI_A,
SIBA_SPROMVAR_TSSI_BG,
SIBA_SPROMVAR_TRI2G,
SIBA_SPROMVAR_TRI5GL,
SIBA_SPROMVAR_TRI5G,
SIBA_SPROMVAR_TRI5GH,
SIBA_SPROMVAR_RSSISAV2G,
SIBA_SPROMVAR_RSSISMC2G,
SIBA_SPROMVAR_RSSISMF2G,
SIBA_SPROMVAR_BXA2G,
SIBA_SPROMVAR_RSSISAV5G,
SIBA_SPROMVAR_RSSISMC5G,
SIBA_SPROMVAR_RSSISMF5G,
SIBA_SPROMVAR_BXA5G,
SIBA_SPROMVAR_CCK2GPO,
SIBA_SPROMVAR_OFDM2GPO,
SIBA_SPROMVAR_OFDM5GLPO,
SIBA_SPROMVAR_OFDM5GPO,
SIBA_SPROMVAR_OFDM5GHPO,
SIBA_SPROMVAR_BF_LO,
SIBA_SPROMVAR_BF_HI,
SIBA_SPROMVAR_BF2_LO,
SIBA_SPROMVAR_BF2_HI
};
int siba_read_sprom(device_t, device_t, int, uintptr_t *);
int siba_write_sprom(device_t, device_t, int, uintptr_t);
/**
* Generic sprom accessor generation macros for siba(4) drivers
*/
#define __SPROM_ACCESSOR(varp, var, ivarp, ivar, type) \
\
static __inline type varp ## _get_ ## var(device_t dev) \
{ \
uintptr_t v; \
siba_read_sprom(device_get_parent(dev), dev, \
ivarp ## _SPROMVAR_ ## ivar, &v); \
return ((type) v); \
} \
\
static __inline void varp ## _set_ ## var(device_t dev, type t) \
{ \
uintptr_t v = (uintptr_t) t; \
siba_write_sprom(device_get_parent(dev), dev, \
ivarp ## _SPROMVAR_ ## ivar, v); \
}
#define SIBA_SPROM_ACCESSOR(var, ivar, type) \
__SPROM_ACCESSOR(siba_sprom, var, SIBA, ivar, type)
SIBA_SPROM_ACCESSOR(rev, REV, uint8_t);
SIBA_SPROM_ACCESSOR(mac_80211bg, MAC_80211BG, uint8_t *);
SIBA_SPROM_ACCESSOR(mac_eth, MAC_ETH, uint8_t *);
SIBA_SPROM_ACCESSOR(mac_80211a, MAC_80211A, uint8_t *);
SIBA_SPROM_ACCESSOR(mii_eth0, MII_ETH0, uint8_t);
SIBA_SPROM_ACCESSOR(mii_eth1, MII_ETH1, uint8_t);
SIBA_SPROM_ACCESSOR(mdio_eth0, MDIO_ETH0, uint8_t);
SIBA_SPROM_ACCESSOR(mdio_eth1, MDIO_ETH1, uint8_t);
SIBA_SPROM_ACCESSOR(brev, BREV, uint8_t);
SIBA_SPROM_ACCESSOR(ccode, CCODE, uint8_t);
SIBA_SPROM_ACCESSOR(ant_a, ANT_A, uint8_t);
SIBA_SPROM_ACCESSOR(ant_bg, ANT_BG, uint8_t);
SIBA_SPROM_ACCESSOR(pa0b0, PA0B0, uint16_t);
SIBA_SPROM_ACCESSOR(pa0b1, PA0B1, uint16_t);
SIBA_SPROM_ACCESSOR(pa0b2, PA0B2, uint16_t);
SIBA_SPROM_ACCESSOR(pa1b0, PA1B0, uint16_t);
SIBA_SPROM_ACCESSOR(pa1b1, PA1B1, uint16_t);
SIBA_SPROM_ACCESSOR(pa1b2, PA1B2, uint16_t);
SIBA_SPROM_ACCESSOR(pa1lob0, PA1LOB0, uint16_t);
SIBA_SPROM_ACCESSOR(pa1lob1, PA1LOB1, uint16_t);
SIBA_SPROM_ACCESSOR(pa1lob2, PA1LOB2, uint16_t);
SIBA_SPROM_ACCESSOR(pa1hib0, PA1HIB0, uint16_t);
SIBA_SPROM_ACCESSOR(pa1hib1, PA1HIB1, uint16_t);
SIBA_SPROM_ACCESSOR(pa1hib2, PA1HIB2, uint16_t);
SIBA_SPROM_ACCESSOR(gpio0, GPIO0, uint8_t);
SIBA_SPROM_ACCESSOR(gpio1, GPIO1, uint8_t);
SIBA_SPROM_ACCESSOR(gpio2, GPIO2, uint8_t);
SIBA_SPROM_ACCESSOR(gpio3, GPIO3, uint8_t);
SIBA_SPROM_ACCESSOR(maxpwr_al, MAXPWR_AL, uint16_t);
SIBA_SPROM_ACCESSOR(maxpwr_a, MAXPWR_A, uint16_t);
SIBA_SPROM_ACCESSOR(maxpwr_ah, MAXPWR_AH, uint16_t);
SIBA_SPROM_ACCESSOR(maxpwr_bg, MAXPWR_BG, uint16_t);
SIBA_SPROM_ACCESSOR(rxpo2g, RXPO2G, uint8_t);
SIBA_SPROM_ACCESSOR(rxpo5g, RXPO5G, uint8_t);
SIBA_SPROM_ACCESSOR(tssi_a, TSSI_A, uint8_t);
SIBA_SPROM_ACCESSOR(tssi_bg, TSSI_BG, uint8_t);
SIBA_SPROM_ACCESSOR(tri2g, TRI2G, uint8_t);
SIBA_SPROM_ACCESSOR(tri5gl, TRI5GL, uint8_t);
SIBA_SPROM_ACCESSOR(tri5g, TRI5G, uint8_t);
SIBA_SPROM_ACCESSOR(tri5gh, TRI5GH, uint8_t);
SIBA_SPROM_ACCESSOR(rssisav2g, RSSISAV2G, uint8_t);
SIBA_SPROM_ACCESSOR(rssismc2g, RSSISMC2G, uint8_t);
SIBA_SPROM_ACCESSOR(rssismf2g, RSSISMF2G, uint8_t);
SIBA_SPROM_ACCESSOR(bxa2g, BXA2G, uint8_t);
SIBA_SPROM_ACCESSOR(rssisav5g, RSSISAV5G, uint8_t);
SIBA_SPROM_ACCESSOR(rssismc5g, RSSISMC5G, uint8_t);
SIBA_SPROM_ACCESSOR(rssismf5g, RSSISMF5G, uint8_t);
SIBA_SPROM_ACCESSOR(bxa5g, BXA5G, uint8_t);
SIBA_SPROM_ACCESSOR(cck2gpo, CCK2GPO, uint16_t);
SIBA_SPROM_ACCESSOR(ofdm2gpo, OFDM2GPO, uint32_t);
SIBA_SPROM_ACCESSOR(ofdm5glpo, OFDM5GLPO, uint32_t);
SIBA_SPROM_ACCESSOR(ofdm5gpo, OFDM5GPO, uint32_t);
SIBA_SPROM_ACCESSOR(ofdm5ghpo, OFDM5GHPO, uint32_t);
SIBA_SPROM_ACCESSOR(bf_lo, BF_LO, uint16_t);
SIBA_SPROM_ACCESSOR(bf_hi, BF_HI, uint16_t);
SIBA_SPROM_ACCESSOR(bf2_lo, BF2_LO, uint16_t);
SIBA_SPROM_ACCESSOR(bf2_hi, BF2_HI, uint16_t);
#undef SIBA_SPROM_ACCESSOR
struct siba_sprom {
uint8_t rev; /* revision */
uint8_t mac_80211bg[6]; /* address for 802.11b/g */
uint8_t mac_eth[6]; /* address for Ethernet */
uint8_t mac_80211a[6]; /* address for 802.11a */
uint8_t mii_eth0; /* MII address for eth0 */
uint8_t mii_eth1; /* MII address for eth1 */
uint8_t mdio_eth0; /* MDIO for eth0 */
uint8_t mdio_eth1; /* MDIO for eth1 */
uint8_t brev; /* board revision */
uint8_t ccode; /* Country Code */
uint8_t ant_a; /* A-PHY antenna */
uint8_t ant_bg; /* B/G-PHY antenna */
uint16_t pa0b0;
uint16_t pa0b1;
uint16_t pa0b2;
uint16_t pa1b0;
uint16_t pa1b1;
uint16_t pa1b2;
uint16_t pa1lob0;
uint16_t pa1lob1;
uint16_t pa1lob2;
uint16_t pa1hib0;
uint16_t pa1hib1;
uint16_t pa1hib2;
uint8_t gpio0;
uint8_t gpio1;
uint8_t gpio2;
uint8_t gpio3;
uint16_t maxpwr_al;
uint16_t maxpwr_a; /* A-PHY Max Power */
uint16_t maxpwr_ah;
uint16_t maxpwr_bg; /* BG-PHY Max Power */
uint8_t rxpo2g;
uint8_t rxpo5g;
uint8_t tssi_a; /* Idle TSSI */
uint8_t tssi_bg; /* Idle TSSI */
uint8_t tri2g;
uint8_t tri5gl;
uint8_t tri5g;
uint8_t tri5gh;
uint8_t rssisav2g;
uint8_t rssismc2g;
uint8_t rssismf2g;
uint8_t bxa2g;
uint8_t rssisav5g;
uint8_t rssismc5g;
uint8_t rssismf5g;
uint8_t bxa5g;
uint16_t cck2gpo;
uint32_t ofdm2gpo;
uint32_t ofdm5glpo;
uint32_t ofdm5gpo;
uint32_t ofdm5ghpo;
uint16_t bf_lo; /* boardflags */
uint16_t bf_hi; /* boardflags */
uint16_t bf2_lo;
uint16_t bf2_hi;
struct {
struct {
int8_t a0, a1, a2, a3;
} ghz24;
struct {
int8_t a0, a1, a2, a3;
} ghz5;
} again; /* antenna gain */
};
#define SIBA_LDO_PAREF 0
#define SIBA_LDO_VOLT1 1
#define SIBA_LDO_VOLT2 2
#define SIBA_LDO_VOLT3 3
struct siba_cc_pmu {
uint8_t rev; /* PMU rev */
uint32_t freq; /* crystal freq in kHz */
};
struct siba_cc {
struct siba_dev_softc *scc_dev;
uint32_t scc_caps;
struct siba_cc_pmu scc_pmu;
uint16_t scc_powerup_delay;
};
struct siba_pci {
struct siba_dev_softc *spc_dev;
uint8_t spc_inited;
uint8_t spc_hostmode;
};
struct siba_bus_ops {
uint16_t (*read_2)(struct siba_dev_softc *,
uint16_t);
uint32_t (*read_4)(struct siba_dev_softc *,
uint16_t);
void (*write_2)(struct siba_dev_softc *,
uint16_t, uint16_t);
void (*write_4)(struct siba_dev_softc *,
uint16_t, uint32_t);
void (*read_multi_1)(struct siba_dev_softc *,
void *, size_t, uint16_t);
void (*read_multi_2)(struct siba_dev_softc *,
void *, size_t, uint16_t);
void (*read_multi_4)(struct siba_dev_softc *,
void *, size_t, uint16_t);
void (*write_multi_1)(struct siba_dev_softc *,
const void *, size_t, uint16_t);
void (*write_multi_2)(struct siba_dev_softc *,
const void *, size_t, uint16_t);
void (*write_multi_4)(struct siba_dev_softc *,
const void *, size_t, uint16_t);
};
struct siba_dev_softc {
struct siba_softc *sd_bus;
struct siba_devid sd_id;
const struct siba_bus_ops *sd_ops;
uint8_t sd_coreidx;
};
struct siba_devinfo {
struct resource_list sdi_rl;
/*devhandle_t sdi_devhandle; XXX*/
/*struct rman sdi_intr_rman;*/
/* Accessors are needed for ivars below. */
uint16_t sdi_vid;
uint16_t sdi_devid;
uint8_t sdi_rev;
uint8_t sdi_idx; /* core index on bus */
uint8_t sdi_irq; /* TODO */
};
struct siba_softc {
/*
* common variables which used for siba(4) bus and siba_bwn bridge.
*/
device_t siba_dev; /* Device ID */
struct resource *siba_mem_res;
bus_space_tag_t siba_mem_bt;
bus_space_handle_t siba_mem_bh;
bus_addr_t siba_maddr;
bus_size_t siba_msize;
uint8_t siba_ncores;
/*
* the following variables are only used for siba_bwn bridge.
*/
enum siba_type siba_type;
int siba_invalid;
struct siba_dev_softc *siba_curdev; /* only for PCI */
struct siba_dev_softc siba_devs[SIBA_MAX_CORES];
int siba_ndevs;
uint16_t siba_pci_vid;
uint16_t siba_pci_did;
uint16_t siba_pci_subvid;
uint16_t siba_pci_subdid;
uint8_t siba_pci_revid;
int siba_mem_rid;
uint16_t siba_chipid; /* for CORE 0 */
uint16_t siba_chiprev;
uint8_t siba_chippkg;
struct siba_cc siba_cc; /* ChipCommon */
struct siba_pci siba_pci; /* PCI-core */
const struct siba_bus_ops *siba_ops;
struct siba_sprom siba_sprom; /* SPROM */
uint16_t siba_spromsize; /* in word size */
};
void siba_powerup(device_t, int);
int siba_powerdown(device_t);
uint16_t siba_read_2(device_t, uint16_t);
void siba_write_2(device_t, uint16_t, uint16_t);
uint32_t siba_read_4(device_t, uint16_t);
void siba_write_4(device_t, uint16_t, uint32_t);
void siba_dev_up(device_t, uint32_t);
void siba_dev_down(device_t, uint32_t);
int siba_dev_isup(device_t);
void siba_pcicore_intr(device_t);
uint32_t siba_dma_translation(device_t);
void siba_read_multi_1(device_t, void *, size_t, uint16_t);
void siba_read_multi_2(device_t, void *, size_t, uint16_t);
void siba_read_multi_4(device_t, void *, size_t, uint16_t);
void siba_write_multi_1(device_t, const void *, size_t, uint16_t);
void siba_write_multi_2(device_t, const void *, size_t, uint16_t);
void siba_write_multi_4(device_t, const void *, size_t, uint16_t);
void siba_barrier(device_t, int);
void siba_cc_pmu_set_ldovolt(device_t, int, uint32_t);
void siba_cc_pmu_set_ldoparef(device_t, uint8_t);
void siba_gpio_set(device_t, uint32_t);
uint32_t siba_gpio_get(device_t);
void siba_fix_imcfglobug(device_t);
#endif /* _SIBA_SIBAVAR_H_ */