/* GRSPW ROUTER APB-Register Driver.
*
* COPYRIGHT (c) 2010-2017.
* Cobham Gaisler AB.
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.org/license/LICENSE.
*/
#include <rtems.h>
#include <rtems/libio.h>
#include <rtems/bspIo.h>
#include <stdio.h>
#include <bsp.h>
#include <drvmgr/drvmgr.h>
#include <grlib/ambapp_bus.h>
#include <grlib/grspw_router.h>
#include <grlib/grlib_impl.h>
//#define STATIC
#define STATIC static
#define UNUSED __attribute__((unused))
//#define DEBUG 1
#ifdef DEBUG
#define DBG(x...) printf(x)
#else
#define DBG(x...)
#endif
#define THREAD_SAFE 1
#define REG_WRITE(addr, val) (*(volatile unsigned int *)(addr) = (unsigned int)(val))
#define REG_READ(addr) (*(volatile unsigned int *)(addr))
/*
* ROUTER RTPMAP register fields
*/
#define RTPMAP_PE (0x7fffffff << RTPMAP_PE_BIT)
#define RTPMAP_PD (0x1 << RTPMAP_PD_BIT)
#define RTPMAP_PE_BIT 1
#define RTPMAP_PD_BIT 0
/*
* ROUTER RTACTRL register fields
* DEFINED IN HEADER
*/
/*
* ROUTER PCTRL register fields
* DEFINED IN HEADER
*/
/*
* ROUTER PSTSCFG register fields
* DEFINED IN HEADER
*/
/*
* ROUTER PSTS register fields
* DEFINED IN HEADER
*/
/*
* ROUTER PTIMER register fields
*/
#define PTIMER_RL (0xffff << PTIMER_RL_BIT)
#define PTIMER_RL_BIT 0
/*
* ROUTER PCTRL2 register fields
* DEFINED IN HEADER
*/
/*
* ROUTER RTRCFG register fields
*/
#define RTRCFG_SP (0x1f << RTRCFG_SP_BIT)
#define RTRCFG_AP (0x1f << RTRCFG_AP_BIT)
#define RTRCFG_FP (0x1f << RTRCFG_FP_BIT)
#define RTRCFG_SR (0x1 << RTRCFG_SR_BIT)
#define RTRCFG_PE (0x1 << RTRCFG_PE_BIT)
#define RTRCFG_IC (0x1 << RTRCFG_IC_BIT)
#define RTRCFG_IS (0x1 << RTRCFG_IS_BIT)
#define RTRCFG_IP (0x1 << RTRCFG_IP_BIT)
#define RTRCFG_AI (0x1 << RTRCFG_AI_BIT)
#define RTRCFG_AT (0x1 << RTRCFG_AT_BIT)
#define RTRCFG_IE (0x1 << RTRCFG_IE_BIT)
#define RTRCFG_RE (0x1 << RTRCFG_RE_BIT)
#define RTRCFG_EE (0x1 << RTRCFG_EE_BIT)
#define RTRCFG_LS (0x1 << RTRCFG_LS_BIT)
#define RTRCFG_SA (0x1 << RTRCFG_SA_BIT)
#define RTRCFG_TF (0x1 << RTRCFG_TF_BIT)
#define RTRCFG_ME (0x1 << RTRCFG_ME_BIT)
#define RTRCFG_TA (0x1 << RTRCFG_TA_BIT)
#define RTRCFG_PP (0x1 << RTRCFG_PP_BIT)
#define RTRCFG_WCLEAR (RTRCFG_ME)
#define RTRCFG_SP_BIT 27
#define RTRCFG_AP_BIT 22
#define RTRCFG_FP_BIT 17
#define RTRCFG_SR_BIT 15
#define RTRCFG_PE_BIT 14
#define RTRCFG_IC_BIT 13
#define RTRCFG_IS_BIT 12
#define RTRCFG_IP_BIT 11
#define RTRCFG_AI_BIT 10
#define RTRCFG_AT_BIT 9
#define RTRCFG_IE_BIT 8
#define RTRCFG_RE_BIT 7
#define RTRCFG_EE_BIT 6
#define RTRCFG_LS_BIT 5
#define RTRCFG_SA_BIT 4
#define RTRCFG_TF_BIT 3
#define RTRCFG_ME_BIT 2
#define RTRCFG_TA_BIT 1
#define RTRCFG_PP_BIT 0
/*
* ROUTER TC register fields
*/
#define TC_RE (0x3f << TC_RE_BIT)
#define TC_EN (0x3f << TC_EN_BIT)
#define TC_CF (0x3f << TC_CF_BIT)
#define TC_TC (0x3f << TC_TC_BIT)
#define TC_RE_BIT 9
#define TC_EN_BIT 8
#define TC_CF_BIT 6
#define TC_TC_BIT 0
/*
* ROUTER VER register fields
*/
#define VER_MA (0xff << VER_MA_BIT)
#define VER_MI (0xff << VER_MI_BIT)
#define VER_PA (0xff << VER_PA_BIT)
#define VER_ID (0xff << VER_ID_BIT)
#define VER_MA_BIT 24
#define VER_MI_BIT 16
#define VER_PA_BIT 8
#define VER_ID_BIT 0
/*
* ROUTER IDIV register fields
*/
#define IDIV_ID (0xff << IDIV_ID_BIT)
#define IDIV_ID_BIT 0
/*
* ROUTER CFGWE register fields
*/
#define CFGWE_WE (0x1 << CFGWE_WE_BIT)
#define CFGWE_WE_BIT 0
/*
* ROUTER PRESCALER register fields
*/
#define PRESCALER_RL (0xffff << PRESCALER_RL_BIT)
#define PRESCALER_RL_BIT 0
/*
* ROUTER IMASK register fields
* DEFINED IN HEADER
*/
/*
* ROUTER ICODEGEN register fields
* DEFINED IN HEADER
*/
/*
* ROUTER ISRTIMER register fields
*/
#define ISRTIMER_RL (0xffff << ISRTIMER_RL_BIT)
#define ISRTIMER_RL_BIT 0
/*
* ROUTER AITIMER register fields
*/
#define AITIMER_RL (0xffff << AITIMER_RL_BIT)
#define AITIMER_RL_BIT 0
/*
* ROUTER ISRCTIMER register fields
*/
#define ISRCTIMER_RL (0x1f << ISRCTIMER_RL_BIT)
#define ISRCTIMER_RL_BIT 0
/*
* ROUTER CAP register fields
*/
#define CAP_AF (0x3 << CAP_AF_BIT)
#define CAP_PF (0x7 << CAP_PF_BIT)
#define CAP_RM (0x7 << CAP_RM_BIT)
#define CAP_AS (0x1 << CAP_AS_BIT)
#define CAP_AX (0x1 << CAP_AX_BIT)
#define CAP_DP (0x1 << CAP_DP_BIT)
#define CAP_ID (0x1 << CAP_ID_BIT)
#define CAP_SD (0x1 << CAP_SD_BIT)
#define CAP_PC (0x1f << CAP_PC_BIT)
#define CAP_CC (0x1f << CAP_CC_BIT)
#define CAP_AF_BIT 24
#define CAP_PF_BIT 29
#define CAP_RM_BIT 16
#define CAP_AS_BIT 14
#define CAP_AX_BIT 13
#define CAP_DP_BIT 12
#define CAP_ID_BIT 11
#define CAP_SD_BIT 10
#define CAP_PC_BIT 4
#define CAP_CC_BIT 0
/*
* ROUTER PNPVEND register fields
*/
#define PNPVEND_VI (0xffff << PNPVEND_VI_BIT)
#define PNPVEND_PI (0xffff << PNPVEND_PI_BIT)
#define PNPVEND_VI_BIT 16
#define PNPVEND_PI_BIT 0
/*
* ROUTER PNPUVEND register fields
*/
#define PNPUVEND_VI (0xffff << PNPUVEND_VI_BIT)
#define PNPUVEND_PI (0xffff << PNPUVEND_PI_BIT)
#define PNPUVEND_VI_BIT 16
#define PNPUVEND_PI_BIT 0
/*
* ROUTER MAXPLEN register fields
*/
#define MAXPLEN_ML (0xffffff << MAXPLEN_ML_BIT)
#define MAXPLEN_ML_BIT 0
/*
* ROUTER CHARO register fields
*/
#define CHARO_OR (0x1 << CHARO_OR_BIT)
#define CHARO_CC (0x7fffffff << CHARO_CC_BIT)
#define CHARO_OR_BIT 31
#define CHARO_CC_BIT 0
/*
* ROUTER CHARI register fields
*/
#define CHARI_OR (0x1 << CHARI_OR_BIT)
#define CHARI_CC (0x7fffffff << CHARI_CC_BIT)
#define CHARI_OR_BIT 31
#define CHARI_CC_BIT 0
/*
* ROUTER PKTO register fields
*/
#define PKTO_OR (0x1 << PKTO_OR_BIT)
#define PKTO_CC (0x7fffffff << PKTO_CC_BIT)
#define PKTO_OR_BIT 31
#define PKTO_CC_BIT 0
/*
* ROUTER PKTI register fields
*/
#define PKTI_OR (0x1 << PKTI_OR_BIT)
#define PKTI_CC (0x7fffffff << PKTI_CC_BIT)
#define PKTI_OR_BIT 31
#define PKTI_CC_BIT 0
/*
* ROUTER CRED register fields
*/
#define CRED_OC (0x3f << CRED_OC_BIT)
#define CRED_IC (0x3f << CRED_IC_BIT)
#define CRED_OC_BIT 6
#define CRED_IC_BIT 0
/*
* ROUTER RTRCOMB register fields
*/
#define RTRCOMB_SR (0x1 << RTRCOMB_SR_BIT)
#define RTRCOMB_EN (0x1 << RTRCOMB_EN_BIT)
#define RTRCOMB_PR (0x1 << RTRCOMB_PR_BIT)
#define RTRCOMB_HD (0x1 << RTRCOMB_HD_BIT)
#define RTRCOMB_PE (0x7ffff << RTRCOMB_PE_BIT)
#define RTRCOMB_PD (0x1 << RTRCOMB_PD_BIT)
#define RTRCOMB_SR_BIT 31
#define RTRCOMB_EN_BIT 30
#define RTRCOMB_PR_BIT 29
#define RTRCOMB_HD_BIT 28
#define RTRCOMB_PE_BIT 1
#define RTRCOMB_PD_BIT 0
struct router_regs {
unsigned int resv1; /* 0x000 */
unsigned int psetup[255]; /* 0x004 */
unsigned int resv2; /* 0x400 */
unsigned int routes[255]; /* 0x404 */
unsigned int pctrl[32]; /* 0x800 */
unsigned int psts[32]; /* 0x880 */
unsigned int treload[32]; /* 0x900 */
unsigned int pctrl2[32]; /* 0x980 */
unsigned int cfgsts; /* 0xA00 */
unsigned int timecode; /* 0xA04 */
unsigned int ver; /* 0xA08 */
unsigned int idiv; /* 0xA0C */
unsigned int cfgwe; /* 0xA10 */
unsigned int tprescaler; /* 0xA14 */
unsigned int imask; /* 0xA18 */
unsigned int ipmask; /* 0xA1C */
unsigned int pip; /* 0xA20 */
unsigned int icodegen; /* 0xA24 */
unsigned int isr0; /* 0xA28 */
unsigned int isr1; /* 0xA2C */
unsigned int isrtimer; /* 0xA30 */
unsigned int aitimer; /* 0xA34 */
unsigned int isrctimer; /* 0xA38 */
unsigned int resv4; /* 0xA3C */
unsigned int lrunsts; /* 0xA40 */
unsigned int cap; /* 0xA44 */
unsigned int resv5[111]; /* 0xA48 */
unsigned int charo[31]; /* 0xC04 */ /* TODO check GR718 */
unsigned int resv6; /* 0xC80 */
unsigned int chari[31]; /* 0xC84 */
unsigned int resv7; /* 0xD00 */
unsigned int pkto[31]; /* 0xD04 */
unsigned int resv8; /* 0xD80 */
unsigned int pkti[31]; /* 0xD84 */
unsigned int maxplen[32]; /* 0xE00 */
unsigned int resv9; /* 0xE80 */
unsigned int credcnt[31]; /* 0xE84 */
unsigned int resv10[64]; /* 0xF00 */
unsigned int resv11; /* 0x1000 */
unsigned int rtcomb[255]; /* 0x1004 */
};
struct router_priv {
struct drvmgr_dev *dev;
/* ROUTER control registers */
struct router_regs *regs;
#ifdef THREAD_SAFE
/* ROUTER semaphore */
rtems_id sem;
#endif
/* ROUTER driver register */
char devname[9];
int index; /* Index in order it was probed */
int minor;
int open;
struct router_hw_info hwinfo;
int nports;
int irq_init;
SPIN_DECLARE(plock[32])
};
int router_count = 0;
static struct router_priv *priv_tab[ROUTER_MAX];
/* Driver prototypes */
STATIC int router_init(struct router_priv *priv);
STATIC void router_hwinfo(struct router_priv *priv,
struct router_hw_info *hwinfo);
STATIC int router_acontrol_set(struct router_priv *priv,
struct router_route_acontrol *control);
STATIC int router_acontrol_get(struct router_priv *priv,
struct router_route_acontrol *control);
STATIC int router_portmap_set(struct router_priv *priv,
struct router_route_portmap *pmap);
STATIC int router_portmap_get(struct router_priv *priv,
struct router_route_portmap *pmap);
/* -IRQ handler */
void router_isr(void *arg);
int router_init2(struct drvmgr_dev *dev);
struct drvmgr_drv_ops router_ops =
{
.init = {NULL, router_init2, NULL, NULL},
.remove = NULL,
.info = NULL
};
struct amba_dev_id router_ids[] =
{
{VENDOR_GAISLER, GAISLER_SPW_ROUTER},
{0, 0} /* Mark end of table */
};
struct amba_drv_info router_drv_info =
{
{
DRVMGR_OBJ_DRV, /* Driver */
NULL, /* Next driver */
NULL, /* Device list */
DRIVER_AMBAPP_GAISLER_SPW_ROUTER_ID,/* Driver ID */
"ROUTER_DRV", /* Driver Name */
DRVMGR_BUS_TYPE_AMBAPP, /* Bus Type */
&router_ops,
NULL, /* Funcs */
0, /* No devices yet */
sizeof(struct router_priv), /* Let DRVMGR allocate for us */
},
&router_ids[0],
};
void router_register_drv (void)
{
DBG("Registering SPW ROUTER driver\n");
drvmgr_drv_register(&router_drv_info.general);
}
STATIC void router_hwinfo(struct router_priv *priv,
struct router_hw_info *hwinfo)
{
unsigned int tmp;
/* Find router info */
tmp = REG_READ(&priv->regs->cfgsts);
hwinfo->nports_spw = (tmp & RTRCFG_SP) >> RTRCFG_SP_BIT;
hwinfo->nports_amba = (tmp & RTRCFG_AP) >> RTRCFG_AP_BIT;
hwinfo->nports_fifo = (tmp & RTRCFG_FP) >> RTRCFG_FP_BIT;
hwinfo->srouting = (tmp & RTRCFG_SR) >> RTRCFG_SR_BIT;
hwinfo->pnp_enable = (tmp & RTRCFG_PE) >> RTRCFG_PE_BIT;
hwinfo->timers_avail = (tmp & RTRCFG_TA) >> RTRCFG_TA_BIT;
hwinfo->pnp_avail = (tmp & RTRCFG_PP) >> RTRCFG_PP_BIT;
tmp = REG_READ(&priv->regs->ver);
hwinfo->ver_major = (tmp & VER_MA) >> VER_MA_BIT;
hwinfo->ver_minor = (tmp & VER_MI) >> VER_MI_BIT;
hwinfo->ver_patch = (tmp & VER_PA) >> VER_PA_BIT;
hwinfo->iid = (tmp & VER_ID) >> VER_ID_BIT;
/* Find router capabilities */
tmp = REG_READ(&priv->regs->cap);
hwinfo->amba_port_fifo_size = 4 << ((tmp & CAP_AF) >> CAP_AF_BIT);
hwinfo->spw_port_fifo_size = 16 << ((tmp & CAP_PF) >> CAP_PF_BIT);
hwinfo->rmap_maxdlen = 4 << ((tmp & CAP_RM) >> CAP_RM_BIT);
hwinfo->aux_async = (tmp & CAP_AS) >> CAP_AS_BIT;
hwinfo->aux_dist_int_support = (tmp & CAP_AX) >> CAP_AX_BIT;
hwinfo->dual_port_support = (tmp & CAP_ID) >> CAP_ID_BIT;
hwinfo->dist_int_support = (tmp & CAP_DP) >> CAP_DP_BIT;
hwinfo->spwd_support = (tmp & CAP_SD) >> CAP_SD_BIT;
hwinfo->pktcnt_support = (tmp & CAP_PC) >> CAP_PC_BIT;
hwinfo->charcnt_support = (tmp & CAP_CC) >> CAP_CC_BIT;
}
STATIC void router_hwinfo_print(struct router_hw_info *hwinfo)
{
DBG(" -PORTS= SPW: %d, AMBA: %d, FIFO: %d\n", hwinfo->nports_spw,
hwinfo->nports_amba, hwinfo->nports_fifo);
DBG(" -Static routing: %s, Timers: %s\n",
(hwinfo->srouting?"Enabled":"Disabled"),
(hwinfo->timers_avail?"Available":"N/A"));
DBG(" -PnP: %s, %s\n",
(hwinfo->pnp_avail?"Available":"N/A"),
(hwinfo->pnp_enable?"Enabled":"Disabled"));
DBG(" -Version= Major: 0x%02x, Minor: 0x%02x, Patch: 0x%02x, ID: 0x%02x\n",
hwinfo->ver_major, hwinfo->ver_minor,
hwinfo->ver_patch, hwinfo->iid);
DBG(" -Aux: %s, AuxDistInt: %s, DistInt: %s, SPWD: %s, PKTCNT: %s, "
"CHARCNT: %s\n",
(hwinfo->aux_async?"Async":"Sync"),
(hwinfo->aux_dist_int_support?"Supported":"N/A"),
(hwinfo->dist_int_support?"Supported":"N/A"),
(hwinfo->spwd_support?"Supported":"N/A"),
(hwinfo->pktcnt_support?"Supported":"N/A"),
(hwinfo->charcnt_support?"Supported":"N/A"));
}
STATIC int router_acontrol_set(struct router_priv *priv,
struct router_route_acontrol *control)
{
int i;
for (i=0; i<31; i++) {
REG_WRITE(&priv->regs->routes[i], control->control[i]);
}
for (i=0; i<224; i++) {
REG_WRITE(&priv->regs->routes[i+31], control->control_logical[i]);
}
return ROUTER_ERR_OK;
}
STATIC int router_acontrol_get(struct router_priv *priv,
struct router_route_acontrol *control)
{
int i;
for (i=0; i<31; i++) {
control->control[i] = REG_READ(&priv->regs->routes[i]);
}
for (i=0; i<224; i++) {
control->control_logical[i] = REG_READ(&priv->regs->routes[i+31]);
}
return ROUTER_ERR_OK;
}
STATIC int router_portmap_set(struct router_priv *priv,
struct router_route_portmap *pmap)
{
int i;
for (i=0; i<31; i++) {
REG_WRITE(&priv->regs->psetup[i], pmap->pmap[i]);
}
for (i=0; i<224; i++) {
REG_WRITE(&priv->regs->psetup[i+31], pmap->pmap_logical[i]);
}
return ROUTER_ERR_OK;
}
STATIC int router_portmap_get(struct router_priv *priv,
struct router_route_portmap *pmap)
{
int i;
for (i=0; i<31; i++) {
pmap->pmap[i] = REG_READ(&priv->regs->psetup[i]);
}
for (i=0; i<224; i++) {
pmap->pmap_logical[i] = REG_READ(&priv->regs->psetup[i+31]);
}
return ROUTER_ERR_OK;
}
STATIC int router_init(struct router_priv *priv)
{
#ifdef THREAD_SAFE
int i;
/* Device Semaphore created with count = 1 */
if (rtems_semaphore_create(
rtems_build_name('S', 'R', 'O', '0' + priv->index), 1,
RTEMS_FIFO | RTEMS_SIMPLE_BINARY_SEMAPHORE | \
RTEMS_NO_INHERIT_PRIORITY | RTEMS_LOCAL | \
RTEMS_NO_PRIORITY_CEILING, 0, &priv->sem) != RTEMS_SUCCESSFUL) {
return DRVMGR_FAIL;
}
#endif
/* Find router info */
router_hwinfo(priv, &priv->hwinfo);
priv->open = 0;
/* Number of ports has to consider the configuration port (1 + SPW + AMBA + FIFO) */
priv->nports = 1 + priv->hwinfo.nports_spw + priv->hwinfo.nports_amba +
priv->hwinfo.nports_fifo;
if ((priv->nports < 2) || (priv->nports > 32)) {
return DRVMGR_EIO;
}
#ifdef THREAD_SAFE
/* Init port spin-lock memory structures */
for (i=0; i<priv->nports; i++) {
SPIN_INIT(&priv->plock[i],"portlock");
}
#endif
/* DEBUG print */
DBG("SPW ROUTER[%d] with following capabilities:\n", priv->index);
router_hwinfo_print(&priv->hwinfo);
return DRVMGR_OK;
}
int router_init2(struct drvmgr_dev *dev)
{
struct router_priv *priv = dev->priv;
struct amba_dev_info *ambadev;
struct ambapp_core *pnpinfo;
unsigned int tmp;
int i;
int status;
DBG("SPW ROUTER[%d] on bus %s\n", dev->minor_drv, dev->parent->dev->name);
if (router_count >= ROUTER_MAX) {
return DRVMGR_ENORES;
}
if (priv == NULL) {
return DRVMGR_NOMEM;
}
priv->dev = dev;
/* Get device information from AMBA PnP information */
ambadev = (struct amba_dev_info *)priv->dev->businfo;
if (ambadev == NULL) {
return DRVMGR_FAIL;
}
pnpinfo = &ambadev->info;
priv->regs = (struct router_regs *)pnpinfo->ahb_slv->start[0];
priv->minor = dev->minor_drv;
/* Initilize driver struct */
status = router_init(priv);
if (status != DRVMGR_OK) {
return status;
}
/* Startup Action:
* - Clear interrupts
* - Mask interrupts
*/
/* Mask interrupts in ROTUER */
REG_WRITE(&priv->regs->imask,0);
REG_WRITE(&priv->regs->ipmask,0);
/* Clear interrupts in ROTUER */
REG_WRITE(&priv->regs->pip,0xffffffff);
/* Clear errors in router and ports */
tmp = REG_READ(&priv->regs->cfgsts);
REG_WRITE(&priv->regs->cfgsts, tmp | RTRCFG_WCLEAR);
tmp = REG_READ(&priv->regs->psts[0]);
REG_WRITE(&priv->regs->psts[0], (tmp & PSTSCFG_WCLEAR) | PSTSCFG_WCLEAR2);
for (i=1; i<priv->nports; i++) {
tmp = REG_READ(&priv->regs->psts[i]);
REG_WRITE(&priv->regs->psts[i], tmp & PSTS_WCLEAR);
}
/* Register driver internally */
priv->index = router_count;
priv_tab[priv->index] = priv;
router_count++;
/* Device name */
sprintf(priv->devname, "router%d", priv->index);
return DRVMGR_OK;
}
void *router_open(unsigned int dev_no)
{
struct router_priv *priv, *ret;
if (dev_no >= router_count) {
DBG("ROUTER Wrong index %u\n", dev_no);
return NULL;
}
priv = priv_tab[dev_no];
if (priv == NULL) {
DBG("ROUTER Device not initialized\n");
return NULL;
}
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return NULL;
}
#endif
if (priv->open) {
DBG("ROUTER Device already opened\n");
ret = NULL;
} else {
/* Take the device */
priv->open = 1;
ret = priv;
}
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
return ret;
}
int router_close(void *d)
{
struct router_priv *priv = d;
int ret;
if (priv == NULL) {
DBG("ROUTER Device not initialized\n");
return ROUTER_ERR_EINVAL;
}
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return ROUTER_ERR_ERROR;
}
#endif
if (priv->open == 0) {
DBG("ROUTER Device already closed\n");
ret = ROUTER_ERR_ERROR;
} else {
/* Mark not open */
priv->open = 0;
ret = ROUTER_ERR_OK;
}
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
return ret;
}
STATIC int router_check_open(void *d)
{
struct router_priv *priv = d;
if (priv == NULL) {
DBG("ROUTER Device not initialized\n");
return ROUTER_ERR_EINVAL;
}
if (priv->open == 0) {
DBG("ROUTER Device closed\n");
return ROUTER_ERR_ERROR;
}
return 0;
}
STATIC int router_check_port(void *d, int port)
{
int ret = router_check_open(d);
if (ret == 0) {
struct router_priv *priv = d;
if((port < 0) || (port >= priv->nports)) {
DBG("ROUTER wrong port\n");
ret = ROUTER_ERR_EINVAL;
}
}
return ret;
}
STATIC int router_check_distint_support(void *d)
{
int ret = router_check_open(d);
if (ret == 0) {
struct router_priv *priv = d;
if (priv->hwinfo.dist_int_support == 0) {
DBG("ROUTER Dist interrupts not supported\n");
ret = ROUTER_ERR_IMPLEMENTED;
}
}
return ret;
}
int router_hwinfo_get(void *d, struct router_hw_info *hwinfo)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
if (hwinfo == NULL) {
DBG("ROUTER Wrong pointer\n");
return ROUTER_ERR_EINVAL;
}
/* Get hwinfo */
router_hwinfo(priv, hwinfo);
return ROUTER_ERR_OK;
}
int router_print(void *d)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
/* DEBUG print */
DBG("Number of routers: %d\n", router_count);
DBG("SPW ROUTER[%d] with following capabilities:\n", priv->index);
router_hwinfo_print(&priv->hwinfo);
return ROUTER_ERR_OK;
}
/* Configure Router. Leave field NULL in order to skip configuration
*/
int router_config_set(void *d, struct router_config *cfg)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
if (cfg == NULL) {
DBG("ROUTER CFG wrong\n");
return ROUTER_ERR_EINVAL;
}
if ((cfg->flags & (ROUTER_FLG_TPRES|ROUTER_FLG_TRLD)) &&
!priv->hwinfo.timers_avail) {
return ROUTER_ERR_IMPLEMENTED;
}
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return ROUTER_ERR_ERROR;
}
#endif
/* Write only configuration bits in Config register */
if (cfg->flags & ROUTER_FLG_CFG) {
REG_WRITE(&priv->regs->cfgsts, cfg->config & ~(RTRCFG_WCLEAR));
}
/* Write Instance ID to Version Register */
if (cfg->flags & ROUTER_FLG_IID) {
REG_WRITE(&priv->regs->ver, (cfg->iid << VER_ID_BIT) & VER_ID);
}
/* Write startup-clock-divisor Register */
if (cfg->flags & ROUTER_FLG_IDIV) {
REG_WRITE(&priv->regs->idiv, (cfg->idiv << IDIV_ID_BIT) & IDIV_ID);
}
/* Write Timer Prescaler Register */
if (cfg->flags & ROUTER_FLG_TPRES) {
REG_WRITE(&priv->regs->tprescaler,
(cfg->timer_prescaler << PRESCALER_RL_BIT) & PRESCALER_RL);
}
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
return ROUTER_ERR_OK;
}
int router_config_get(void *d, struct router_config *cfg)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
if (cfg == NULL) {
DBG("ROUTER CFG wrong\n");
return ROUTER_ERR_EINVAL;
}
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return ROUTER_ERR_ERROR;
}
#endif
cfg->config = REG_READ(&priv->regs->cfgsts) &
~(RTRCFG_SP|RTRCFG_AP|RTRCFG_FP|RTRCFG_SR|RTRCFG_PE|RTRCFG_ME|
RTRCFG_TA|RTRCFG_PP);
cfg->iid = (REG_READ(&priv->regs->ver) & VER_ID) >> VER_ID_BIT;
cfg->idiv = (REG_READ(&priv->regs->idiv) & IDIV_ID) >> IDIV_ID_BIT;
cfg->timer_prescaler =
(REG_READ(&priv->regs->tprescaler) & PRESCALER_RL) >> PRESCALER_RL_BIT;
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
return ROUTER_ERR_OK;
}
/* Configure Router routing table.
* Leave field NULL in order to skip configuration
*/
int router_routing_table_set(void *d, struct router_routing_table *cfg)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
if (cfg == NULL) {
DBG("ROUTER CFG wrong\n");
return ROUTER_ERR_EINVAL;
}
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return ROUTER_ERR_ERROR;
}
#endif
/* Write Address control */
if (cfg->flags & ROUTER_ROUTE_FLG_CTRL) {
router_acontrol_set(priv,&cfg->acontrol);
}
/* Write Port map */
if (cfg->flags & ROUTER_ROUTE_FLG_MAP) {
router_portmap_set(priv,&cfg->portmap);
}
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
return ROUTER_ERR_OK;
}
int router_routing_table_get(void *d, struct router_routing_table *cfg)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
if (cfg == NULL) {
DBG("ROUTER CFG wrong\n");
return ROUTER_ERR_EINVAL;
}
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return ROUTER_ERR_ERROR;
}
#endif
/* Read Address control */
router_acontrol_get(priv,&cfg->acontrol);
/* Read Port map */
router_portmap_get(priv,&cfg->portmap);
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
return ROUTER_ERR_OK;
}
int router_route_set(void *d, struct router_route *route)
{
struct router_priv *priv = d;
int i;
unsigned int mask;
int error = router_check_open(d);
if (error)
return error;
if (route == NULL) {
DBG("ROUTER route wrong\n");
return ROUTER_ERR_EINVAL;
}
if (route->from_address < 32) {
/* Physical address */
if ((route->from_address == 0) ||
(route->from_address >= priv->nports)) {
DBG("ROUTER wrong physical address\n");
return ROUTER_ERR_TOOMANY;
}
}
/* Compute port map */
mask=0;
for (i=0; i < route->count; i++) {
if ((route->to_port[i] == 0) || (route->to_port[i] >= priv->nports)) {
DBG("ROUTER route wrong destiny port\n");
return ROUTER_ERR_EINVAL;
}
mask |= (0x1 << route->to_port[i]);
}
if (route->options & ROUTER_ROUTE_PACKETDISTRIBUTION_ENABLE) {
mask |= RTPMAP_PD;
}
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return ROUTER_ERR_ERROR;
}
#endif
/* Write port map */
REG_WRITE(&priv->regs->psetup[route->from_address-1], mask);
/* Write Address control */
REG_WRITE(&priv->regs->routes[route->from_address-1],
route->options & (0xf));
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
return ROUTER_ERR_OK;
}
int router_route_get(void *d, struct router_route *route)
{
struct router_priv *priv = d;
int i,count;
unsigned int mask;
int error = router_check_open(d);
if (error)
return error;
if (route == NULL) {
DBG("ROUTER route wrong\n");
return ROUTER_ERR_EINVAL;
}
if (route->from_address < 32) {
/* Physical address */
if ((route->from_address == 0) ||
(route->from_address >= priv->nports)) {
DBG("ROUTER wrong physical address\n");
return ROUTER_ERR_TOOMANY;
}
}
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return ROUTER_ERR_ERROR;
}
#endif
/* Get Address control */
route->options =
REG_READ(&priv->regs->routes[route->from_address-1]) & (0xf);
/* Read port map */
mask=REG_READ(&priv->regs->psetup[route->from_address-1]);
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
if (mask & RTPMAP_PD) {
route->options |= ROUTER_ROUTE_PACKETDISTRIBUTION_ENABLE;
}
/*DBG("ROUTE from address 0x%02x read, PMAP: 0x%08x, CTRL: 0x%08x\n",
* (unsigned int) route->from_address, mask,
* (unsigned int) route->options);*/
i=0;
count=0;
mask &= (RTPMAP_PE);
while (mask != 0) {
if (mask & 0x1) {
route->to_port[count] = i;
count++;
}
mask >>= 1;
i++;
}
route->count=count;
return ROUTER_ERR_OK;
}
int router_write_enable(void *d)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
REG_WRITE(&priv->regs->cfgwe, 0x1);
return ROUTER_ERR_OK;
}
int router_write_disable(void *d)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
REG_WRITE(&priv->regs->cfgwe, 0x0);
return ROUTER_ERR_OK;
}
int router_port_ioc(void *d, int port, struct router_port *cfg)
{
struct router_priv *priv = d;
unsigned int ctrl, ctrl2, sts, timer, pktl;
SPIN_IRQFLAGS(irqflags);
int error = router_check_port(d, port);
if (error)
return error;
if (cfg == NULL) {
DBG("ROUTER Wrong cfg\n");
return ROUTER_ERR_EINVAL;
}
SPIN_LOCK_IRQ(&priv->plock[port], irqflags);
ctrl = cfg->ctrl;
if (cfg->flag & ROUTER_PORT_FLG_GET_CTRL) {
ctrl = REG_READ(&priv->regs->pctrl[port]);
}
ctrl2 = cfg->ctrl;
if (cfg->flag & ROUTER_PORT_FLG_GET_CTRL2) {
ctrl2 = REG_READ(&priv->regs->pctrl2[port]);
}
sts = cfg->sts;
if (cfg->flag & ROUTER_PORT_FLG_GET_STS) {
sts = REG_READ(&priv->regs->psts[port]);
}
timer = cfg->timer_reload;
if (cfg->flag & ROUTER_PORT_FLG_GET_TIMER) {
REG_READ(&priv->regs->treload[port]);
}
pktl = cfg->packet_length;
if (cfg->flag & ROUTER_PORT_FLG_GET_PKTLEN) {
REG_READ(&priv->regs->maxplen[port]);
}
if (cfg->flag & ROUTER_PORT_FLG_SET_CTRL) {
REG_WRITE(&priv->regs->pctrl[port], cfg->ctrl);
}
if (cfg->flag & ROUTER_PORT_FLG_SET_CTRL2) {
REG_WRITE(&priv->regs->pctrl2[port], cfg->ctrl2);
}
if (cfg->flag & ROUTER_PORT_FLG_SET_STS) {
REG_WRITE(&priv->regs->psts[port], cfg->sts);
}
if (cfg->flag & ROUTER_PORT_FLG_SET_TIMER) {
REG_WRITE(&priv->regs->treload[port], cfg->timer_reload & PTIMER_RL);
}
if (cfg->flag & ROUTER_PORT_FLG_SET_PKTLEN) {
REG_WRITE(&priv->regs->maxplen[port], cfg->packet_length & MAXPLEN_ML);
}
SPIN_UNLOCK_IRQ(&priv->plock[port], irqflags);
cfg->ctrl = ctrl;
cfg->ctrl2 = ctrl2;
cfg->sts = sts;
cfg->timer_reload = timer;
cfg->packet_length = pktl;
return ROUTER_ERR_OK;
}
int router_port_ctrl_rmw(void *d, int port, uint32_t *oldvalue, uint32_t bitmask, uint32_t value)
{
struct router_priv *priv = d;
int error = router_check_port(d, port);
unsigned int oldctrl, ctrl;
SPIN_IRQFLAGS(irqflags);
if (error)
return error;
SPIN_LOCK_IRQ(&priv->plock[port], irqflags);
oldctrl = REG_READ(&priv->regs->pctrl[port]);
ctrl = ((oldctrl & ~(bitmask)) | (value & bitmask));
REG_WRITE(&priv->regs->pctrl[port], ctrl);
SPIN_UNLOCK_IRQ(&priv->plock[port], irqflags);
if (oldvalue != NULL) {
*oldvalue = oldctrl;
}
return ROUTER_ERR_OK;
}
int router_port_ctrl2_rmw(void *d, int port, uint32_t *oldvalue, uint32_t bitmask, uint32_t value)
{
struct router_priv *priv = d;
int error = router_check_port(d, port);
unsigned int oldctrl, ctrl;
SPIN_IRQFLAGS(irqflags);
if (error)
return error;
SPIN_LOCK_IRQ(&priv->plock[port], irqflags);
oldctrl = REG_READ(&priv->regs->pctrl2[port]);
ctrl = ((oldctrl & ~(bitmask)) | (value & bitmask));
REG_WRITE(&priv->regs->pctrl2[port], ctrl);
SPIN_UNLOCK_IRQ(&priv->plock[port], irqflags);
if (oldvalue != NULL) {
*oldvalue = oldctrl;
}
return ROUTER_ERR_OK;
}
/* Read Port Control register */
int router_port_ctrl_get(void *d, int port, uint32_t *ctrl)
{
struct router_priv *priv = d;
int error = router_check_port(d, port);
if (error)
return error;
if (ctrl == NULL) {
DBG("ROUTER Wrong ctrl\n");
return ROUTER_ERR_EINVAL;
}
*ctrl = REG_READ(&priv->regs->pctrl[port]);
return ROUTER_ERR_OK;
}
/* Read Port Status register and clear errors if there are */
int router_port_status(void *d, int port, uint32_t *sts, uint32_t clrmsk)
{
struct router_priv *priv = d;
int error = router_check_port(d, port);
SPIN_IRQFLAGS(irqflags);
if (error)
return error;
if (sts == NULL) {
DBG("ROUTER Wrong sts\n");
return ROUTER_ERR_EINVAL;
}
SPIN_LOCK_IRQ(&priv->plock[port], irqflags);
*sts = REG_READ(&priv->regs->psts[port]);
if (port == 0) {
REG_WRITE(&priv->regs->psts[port], ((*sts) & (PSTSCFG_WCLEAR & clrmsk)) | (PSTSCFG_WCLEAR2 & clrmsk));
}else{
REG_WRITE(&priv->regs->psts[port], (*sts) & (PSTS_WCLEAR & clrmsk));
}
SPIN_UNLOCK_IRQ(&priv->plock[port], irqflags);
return ROUTER_ERR_OK;
}
/* Read Port Control2 register */
int router_port_ctrl2_get(void *d, int port, uint32_t *ctrl2)
{
struct router_priv *priv = d;
int error = router_check_port(d, port);
if (error)
return error;
if (ctrl2 == NULL) {
DBG("ROUTER Wrong ctrl2\n");
return ROUTER_ERR_EINVAL;
}
*ctrl2 = REG_READ(&priv->regs->pctrl2[port]);
return ROUTER_ERR_OK;
}
/* Write Port Control Register */
int router_port_ctrl_set(void *d, int port, uint32_t mask, uint32_t ctrl)
{
return router_port_ctrl_rmw(d, port, NULL, mask, ctrl);
}
/* Write Port Control2 Register */
int router_port_ctrl2_set(void *d, int port, uint32_t mask, uint32_t ctrl2)
{
return router_port_ctrl_rmw(d, port, NULL, mask, ctrl2);
}
int router_port_treload_set(void *d, int port, uint32_t reload)
{
struct router_priv *priv = d;
int error = router_check_port(d, port);
if (error)
return error;
REG_WRITE(&priv->regs->treload[port], reload & PTIMER_RL);
return ROUTER_ERR_OK;
}
int router_port_treload_get(void *d, int port, uint32_t *reload)
{
struct router_priv *priv = d;
int error = router_check_port(d, port);
if (error)
return error;
if (reload == NULL) {
DBG("ROUTER Wrong reload pointer\n");
return ROUTER_ERR_EINVAL;
}
*reload = REG_READ(&priv->regs->treload[port]) & PTIMER_RL;
return ROUTER_ERR_OK;
}
int router_port_maxplen_set(void *d, int port, uint32_t length)
{
struct router_priv *priv = d;
int error = router_check_port(d, port);
if (error)
return error;
REG_WRITE(&priv->regs->maxplen[port], length & MAXPLEN_ML);
return ROUTER_ERR_OK;
}
int router_port_maxplen_get(void *d, int port, uint32_t *length)
{
struct router_priv *priv = d;
int error = router_check_port(d, port);
if (error)
return error;
if (length == NULL) {
DBG("ROUTER Wrong length pointer\n");
return ROUTER_ERR_EINVAL;
}
*length = REG_READ(&priv->regs->maxplen[port]);
return ROUTER_ERR_OK;
}
/* Get Port Link Status */
int router_port_link_status(void *d, int port)
{
struct router_priv *priv = d;
int error = router_check_port(d, port);
if (error)
return error;
return ((REG_READ(&priv->regs->psts[port]) & PSTS_LS) >> PSTS_LS_BIT);
}
int router_port_disable(void *d, int port)
{
return router_port_ctrl_rmw(d, port, NULL, PCTRL_DI, PCTRL_DI);
}
int router_port_enable(void *d, int port)
{
return router_port_ctrl_rmw(d, port, NULL, PCTRL_DI, 0);
}
int router_port_link_stop(void *d, int port)
{
return router_port_ctrl_rmw(d, port, NULL, PCTRL_LD | PCTRL_LS, PCTRL_LD);
}
int router_port_link_start(void *d, int port)
{
return router_port_ctrl_rmw(d, port, NULL, PCTRL_LD | PCTRL_LS, PCTRL_LS);
}
int router_port_link_div(void *d, int port, int rundiv)
{
return router_port_ctrl_rmw(d, port, NULL, PCTRL_RD, (rundiv << PCTRL_RD_BIT) & PCTRL_RD);
}
int router_port_link_receive_spill(void *d, int port)
{
struct router_priv *priv = d;
unsigned int ctrl;
SPIN_IRQFLAGS(irqflags);
int error = router_check_port(d, port);
if (error)
return error;
SPIN_LOCK_IRQ(&priv->plock[port], irqflags);
ctrl = REG_READ(&priv->regs->pctrl[port]);
REG_WRITE(&priv->regs->pctrl[port], (ctrl| (PCTRL_RS)));
/* Wait until the spill is done */
while(REG_READ(&priv->regs->pctrl[port]) & PCTRL_RS) {};
SPIN_UNLOCK_IRQ(&priv->plock[port], irqflags);
return ROUTER_ERR_OK;
}
int router_port_link_transmit_reset(void *d, int port)
{
struct router_priv *priv = d;
unsigned int ctrl;
SPIN_IRQFLAGS(irqflags);
int error = router_check_port(d, port);
if (error)
return error;
SPIN_LOCK_IRQ(&priv->plock[port], irqflags);
ctrl = REG_READ(&priv->regs->pctrl[port]);
REG_WRITE(&priv->regs->pctrl[port], (ctrl| (PCTRL_TF)));
/* Wait until the spill is done */
while(REG_READ(&priv->regs->pctrl[port]) & PCTRL_TF) {};
SPIN_UNLOCK_IRQ(&priv->plock[port], irqflags);
return ROUTER_ERR_OK;
}
int router_port_cred_get(void *d, int port, uint32_t *cred)
{
struct router_priv *priv = d;
int error = router_check_port(d, port);
if (error)
return error;
if (cred == NULL) {
DBG("ROUTER Wrong cred pointer\n");
return ROUTER_ERR_EINVAL;
}
*cred = REG_READ(&priv->regs->credcnt[port]);
return ROUTER_ERR_OK;
}
int router_instance_set(void *d, uint8_t instance)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
REG_WRITE(&priv->regs->ver, (instance << VER_ID_BIT) & VER_ID);
return ROUTER_ERR_OK;
}
int router_idiv_set(void *d, uint8_t idiv)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
REG_WRITE(&priv->regs->idiv, (idiv << IDIV_ID_BIT) & IDIV_ID);
return ROUTER_ERR_OK;
}
int router_tpresc_set(void *d, uint32_t prescaler)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
REG_WRITE(&priv->regs->tprescaler,
(prescaler << PRESCALER_RL_BIT) & PRESCALER_RL);
return ROUTER_ERR_OK;
}
int router_instance_get(void *d, uint8_t *instance)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
if (instance == NULL) {
DBG("ROUTER Wrong instance pointer\n");
return ROUTER_ERR_EINVAL;
}
*instance = REG_READ(&priv->regs->ver);
return ROUTER_ERR_OK;
}
int router_idiv_get(void *d, uint8_t *idiv)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
if (idiv == NULL) {
DBG("ROUTER Wrong idiv pointer\n");
return ROUTER_ERR_EINVAL;
}
*idiv = REG_READ(&priv->regs->idiv);
return ROUTER_ERR_OK;
}
int router_tpresc_get(void *d, uint32_t *prescaler)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
if (prescaler == NULL) {
DBG("ROUTER Wrong prescaler pointer\n");
return ROUTER_ERR_EINVAL;
}
*prescaler = REG_READ(&priv->regs->tprescaler);
return ROUTER_ERR_OK;
}
int router_cfgsts_set(void *d, uint32_t cfgsts)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
REG_WRITE(&priv->regs->cfgsts, cfgsts);
return ROUTER_ERR_OK;
}
int router_cfgsts_get(void *d, uint32_t *cfgsts)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
if (cfgsts == NULL) {
DBG("ROUTER Wrong cfgsts pointer\n");
return ROUTER_ERR_EINVAL;
}
*cfgsts = REG_READ(&priv->regs->cfgsts);
return ROUTER_ERR_OK;
}
int router_tc_enable(void *d)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
REG_WRITE(&priv->regs->timecode, TC_EN);
return ROUTER_ERR_OK;
}
int router_tc_disable(void *d)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
REG_WRITE(&priv->regs->timecode, 0);
return ROUTER_ERR_OK;
}
int router_tc_reset(void *d)
{
struct router_priv *priv = d;
unsigned int tc;
int error = router_check_open(d);
if (error)
return error;
tc = REG_READ(&priv->regs->timecode);
REG_WRITE(&priv->regs->timecode, tc | TC_RE);
return ROUTER_ERR_OK;
}
int router_tc_get(void *d)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
return (REG_READ(&priv->regs->timecode) & (TC_CF | TC_TC)) >> TC_TC_BIT;
}
int router_interrupt_unmask(void *d, int options)
{
struct router_priv *priv = d;
unsigned int mask;
int error = router_check_open(d);
if (error)
return error;
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return ROUTER_ERR_ERROR;
}
#endif
/* Unmask interrupts in ROTUER */
/* Get previous mask */
mask = REG_READ(&priv->regs->imask);
/* Clear previous interrupts*/
REG_WRITE(&priv->regs->pip, 0xffffffff);
/* Set new mask */
REG_WRITE(&priv->regs->imask, mask | options);
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
return ROUTER_ERR_OK;
}
int router_interrupt_mask(void *d, int options)
{
struct router_priv *priv = d;
unsigned int mask;
int error = router_check_open(d);
if (error)
return error;
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return ROUTER_ERR_ERROR;
}
#endif
/* Mask interrupts in ROTUER */
/* Get previous mask */
mask = REG_READ(&priv->regs->imask);
/* Clear previous interrupts*/
REG_WRITE(&priv->regs->pip, 0xffffffff);
/* Set new mask */
REG_WRITE(&priv->regs->imask, mask & ~(options));
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
return ROUTER_ERR_OK;
}
int router_port_interrupt_unmask(void *d, int port)
{
struct router_priv *priv = d;
unsigned int mask;
int error = router_check_port(d, port);
if (error)
return error;
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return ROUTER_ERR_ERROR;
}
#endif
/* Unmask interrupts in ROTUER */
/* Get previous mask */
mask = REG_READ(&priv->regs->ipmask);
/* Clear previous interrupts*/
REG_WRITE(&priv->regs->pip, (0x1 << port));
/* Set new mask */
REG_WRITE(&priv->regs->ipmask, mask | (0x1 << port));
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
return ROUTER_ERR_OK;
}
int router_port_interrupt_mask(void *d, int port)
{
struct router_priv *priv = d;
unsigned int mask;
int error = router_check_port(d, port);
if (error)
return error;
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return ROUTER_ERR_ERROR;
}
#endif
/* Mask interrupts in ROTUER */
/* Get previous mask */
mask = REG_READ(&priv->regs->ipmask);
/* Clear previous interrupts*/
REG_WRITE(&priv->regs->pip, (0x1 << port));
/* Set new mask */
REG_WRITE(&priv->regs->ipmask, mask & ~(0x1 << port));
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
return ROUTER_ERR_OK;
}
int router_reset(void *d)
{
struct router_priv *priv = d;
int error = router_check_open(d);
if (error)
return error;
/* Reset router */
REG_WRITE(&priv->regs->cfgsts, RTRCFG_RE);
return ROUTER_ERR_OK;
}
int router_icodegen_enable(void *d, uint8_t intn, uint32_t aitimer,
int options)
{
struct router_priv *priv = d;
int error = router_check_distint_support(d);
if (error)
return error;
#ifdef THREAD_SAFE
/* Take device lock - Wait until we get semaphore */
if (rtems_semaphore_obtain(priv->sem, RTEMS_WAIT, RTEMS_NO_TIMEOUT)
!= RTEMS_SUCCESSFUL) {
DBG("ROUTER Sempahore failed\n");
return ROUTER_ERR_ERROR;
}
#endif
REG_WRITE(&priv->regs->icodegen, (options & ~(ICODEGEN_IN)) |
ICODEGEN_EN | (intn & ICODEGEN_IN));
if (options & ICODEGEN_TE) {
REG_WRITE(&priv->regs->aitimer, (aitimer & AITIMER_RL));
}
#ifdef THREAD_SAFE
/* Unlock dev */
rtems_semaphore_release(priv->sem);
#endif
return ROUTER_ERR_OK;
}
int router_icodegen_disable(void *d)
{
struct router_priv *priv = d;
int error = router_check_distint_support(d);
if (error)
return error;
REG_WRITE(&priv->regs->icodegen, ICODEGEN_TE);
return ROUTER_ERR_OK;
}
int router_isrctimer_set(void *d, uint32_t reloadvalue)
{
struct router_priv *priv = d;
int error = router_check_distint_support(d);
if (error)
return error;
/* Set ISRC TIMER */
REG_WRITE(&priv->regs->isrctimer, (reloadvalue & (ISRCTIMER_RL)));
return ROUTER_ERR_OK;
}
int router_isrtimer_set(void *d, uint32_t reloadvalue)
{
struct router_priv *priv = d;
int error = router_check_distint_support(d);
if (error)
return error;
/* Set ISR TIMER */
REG_WRITE(&priv->regs->isrtimer, (reloadvalue & (ISRTIMER_RL)));
return ROUTER_ERR_OK;
}
int router_isrctimer_get(void *d, uint32_t *reloadvalue)
{
struct router_priv *priv = d;
int error = router_check_distint_support(d);
if (error)
return error;
if (reloadvalue == NULL) {
DBG("ROUTER Wrong reloadvalue pointer\n");
return ROUTER_ERR_EINVAL;
}
/* Set ISRC TIMER */
*reloadvalue = REG_READ(&priv->regs->isrctimer) & (ISRCTIMER_RL);
return ROUTER_ERR_OK;
}
int router_isrtimer_get(void *d, uint32_t *reloadvalue)
{
struct router_priv *priv = d;
int error = router_check_distint_support(d);
if (error)
return error;
if (reloadvalue == NULL) {
DBG("ROUTER Wrong reloadvalue pointer\n");
return ROUTER_ERR_EINVAL;
}
/* Set ISR TIMER */
*reloadvalue = REG_READ(&priv->regs->isrtimer) & (ISRTIMER_RL);
return ROUTER_ERR_OK;
}