/*
* General Purpose functions for the global management of the
* QUICC Engine (QE).
*/
#include <linux/errno.h>
#include <linux/sched.h>
#include <linux/kernel.h>
#include <linux/param.h>
#include <linux/string.h>
#include <linux/spinlock.h>
#include <linux/mm.h>
#include <linux/interrupt.h>
#include <linux/bootmem.h>
#include <linux/module.h>
#include <linux/delay.h>
#include <linux/ioport.h>
#include <linux/crc32.h>
#include <linux/mod_devicetable.h>
#include <linux/of_platform.h>
#include <asm/irq.h>
#include <asm/page.h>
#include <asm/pgtable.h>
#include <asm/immap_qe.h>
#include <asm/qe.h>
#include <asm/prom.h>
#include <asm/rheap.h>
static void qe_snums_init(void);
static int qe_sdma_init(void);
static DEFINE_SPINLOCK(qe_lock);
DEFINE_SPINLOCK(cmxgcr_lock);
EXPORT_SYMBOL(cmxgcr_lock);
/* QE snum state */
enum qe_snum_state {
QE_SNUM_STATE_USED,
QE_SNUM_STATE_FREE
};
/* QE snum */
struct qe_snum {
u8 num;
enum qe_snum_state state;
};
/* We allocate this here because it is used almost exclusively for
* the communication processor devices.
*/
struct qe_immap __iomem *qe_immr;
EXPORT_SYMBOL(qe_immr);
static struct qe_snum snums[QE_NUM_OF_SNUM]; /* Dynamically allocated SNUMs */
static unsigned int qe_num_of_snum;
static phys_addr_t qebase = -1;
phys_addr_t get_qe_base(void)
{
struct device_node *qe;
int size;
const u32 *prop;
if (qebase != -1)
return qebase;
qe = of_find_compatible_node(NULL, NULL, "fsl,qe");
if (!qe) {
qe = of_find_node_by_type(NULL, "qe");
if (!qe)
return qebase;
}
prop = of_get_property(qe, "reg", &size);
if (prop && size >= sizeof(*prop))
qebase = of_translate_address(qe, prop);
of_node_put(qe);
return qebase;
}
EXPORT_SYMBOL(get_qe_base);
void qe_reset(void)
{
if (qe_immr == NULL)
qe_immr = ioremap(get_qe_base(), QE_IMMAP_SIZE);
qe_snums_init();
qe_issue_cmd(QE_RESET, QE_CR_SUBBLOCK_INVALID,
QE_CR_PROTOCOL_UNSPECIFIED, 0);
/* Reclaim the MURAM memory for our use. */
qe_muram_init();
if (qe_sdma_init())
panic("sdma init failed!");
}
int qe_issue_cmd(u32 cmd, u32 device, u8 mcn_protocol, u32 cmd_input)
{
unsigned long flags;
u8 mcn_shift = 0, dev_shift = 0;
u32 ret;
spin_lock_irqsave(&qe_lock, flags);
if (cmd == QE_RESET) {
out_be32(&qe_immr->cp.cecr, (u32) (cmd | QE_CR_FLG));
} else {
if (cmd == QE_ASSIGN_PAGE) {
/* Here device is the SNUM, not sub-block */
dev_shift = QE_CR_SNUM_SHIFT;
} else if (cmd == QE_ASSIGN_RISC) {
/* Here device is the SNUM, and mcnProtocol is
* e_QeCmdRiscAssignment value */
dev_shift = QE_CR_SNUM_SHIFT;
mcn_shift = QE_CR_MCN_RISC_ASSIGN_SHIFT;
} else {
if (device == QE_CR_SUBBLOCK_USB)
mcn_shift = QE_CR_MCN_USB_SHIFT;
else
mcn_shift = QE_CR_MCN_NORMAL_SHIFT;
}
out_be32(&qe_immr->cp.cecdr, cmd_input);
out_be32(&qe_immr->cp.cecr,
(cmd | QE_CR_FLG | ((u32) device << dev_shift) | (u32)
mcn_protocol << mcn_shift));
}
/* wait for the QE_CR_FLG to clear */
ret = spin_event_timeout((in_be32(&qe_immr->cp.cecr) & QE_CR_FLG) == 0,
100, 0);
/* On timeout (e.g. failure), the expression will be false (ret == 0),
otherwise it will be true (ret == 1). */
spin_unlock_irqrestore(&qe_lock, flags);
return ret == 1;
}
EXPORT_SYMBOL(qe_issue_cmd);
/* Set a baud rate generator. This needs lots of work. There are
* 16 BRGs, which can be connected to the QE channels or output
* as clocks. The BRGs are in two different block of internal
* memory mapped space.
* The BRG clock is the QE clock divided by 2.
* It was set up long ago during the initial boot phase and is
* is given to us.
* Baud rate clocks are zero-based in the driver code (as that maps
* to port numbers). Documentation uses 1-based numbering.
*/
static unsigned int brg_clk = 0;
unsigned int qe_get_brg_clk(void)
{
struct device_node *qe;
int size;
const u32 *prop;
if (brg_clk)
return brg_clk;
qe = of_find_compatible_node(NULL, NULL, "fsl,qe");
if (!qe) {
qe = of_find_node_by_type(NULL, "qe");
if (!qe)
return brg_clk;
}
prop = of_get_property(qe, "brg-frequency", &size);
if (prop && size == sizeof(*prop))
brg_clk = *prop;
of_node_put(qe);
return brg_clk;
}
EXPORT_SYMBOL(qe_get_brg_clk);
/* Program the BRG to the given sampling rate and multiplier
*
* @brg: the BRG, QE_BRG1 - QE_BRG16
* @rate: the desired sampling rate
* @multiplier: corresponds to the value programmed in GUMR_L[RDCR] or
* GUMR_L[TDCR]. E.g., if this BRG is the RX clock, and GUMR_L[RDCR]=01,
* then 'multiplier' should be 8.
*/
int qe_setbrg(enum qe_clock brg, unsigned int rate, unsigned int multiplier)
{
u32 divisor, tempval;
u32 div16 = 0;
if ((brg < QE_BRG1) || (brg > QE_BRG16))
return -EINVAL;
divisor = qe_get_brg_clk() / (rate * multiplier);
if (divisor > QE_BRGC_DIVISOR_MAX + 1) {
div16 = QE_BRGC_DIV16;
divisor /= 16;
}
/* Errata QE_General4, which affects some MPC832x and MPC836x SOCs, says
that the BRG divisor must be even if you're not using divide-by-16
mode. */
if (!div16 && (divisor & 1) && (divisor > 3))
divisor++;
tempval = ((divisor - 1) << QE_BRGC_DIVISOR_SHIFT) |
QE_BRGC_ENABLE | div16;
out_be32(&qe_immr->brg.brgc[brg - QE_BRG1], tempval);
return 0;
}
EXPORT_SYMBOL(qe_setbrg);
/* Convert a string to a QE clock source enum
*
* This function takes a string, typically from a property in the device
* tree, and returns the corresponding "enum qe_clock" value.
*/
enum qe_clock qe_clock_source(const char *source)
{
unsigned int i;
if (strcasecmp(source, "none") == 0)
return QE_CLK_NONE;
if (strncasecmp(source, "brg", 3) == 0) {
i = simple_strtoul(source + 3, NULL, 10);
if ((i >= 1) && (i <= 16))
return (QE_BRG1 - 1) + i;
else
return QE_CLK_DUMMY;
}
if (strncasecmp(source, "clk", 3) == 0) {
i = simple_strtoul(source + 3, NULL, 10);
if ((i >= 1) && (i <= 24))
return (QE_CLK1 - 1) + i;
else
return QE_CLK_DUMMY;
}
return QE_CLK_DUMMY;
}
EXPORT_SYMBOL(qe_clock_source);
/* Initialize SNUMs (thread serial numbers) according to
* QE Module Control chapter, SNUM table
*/
static void qe_snums_init(void)
{
int i;
static const u8 snum_init_76[] = {
0x04, 0x05, 0x0C, 0x0D, 0x14, 0x15, 0x1C, 0x1D,
0x24, 0x25, 0x2C, 0x2D, 0x34, 0x35, 0x88, 0x89,
0x98, 0x99, 0xA8, 0xA9, 0xB8, 0xB9, 0xC8, 0xC9,
0xD8, 0xD9, 0xE8, 0xE9, 0x44, 0x45, 0x4C, 0x4D,
0x54, 0x55, 0x5C, 0x5D, 0x64, 0x65, 0x6C, 0x6D,
0x74, 0x75, 0x7C, 0x7D, 0x84, 0x85, 0x8C, 0x8D,
0x94, 0x95, 0x9C, 0x9D, 0xA4, 0xA5, 0xAC, 0xAD,
0xB4, 0xB5, 0xBC, 0xBD, 0xC4, 0xC5, 0xCC, 0xCD,
0xD4, 0xD5, 0xDC, 0xDD, 0xE4, 0xE5, 0xEC, 0xED,
0xF4, 0xF5, 0xFC, 0xFD,
};
static const u8 snum_init_46[] = {
0x04, 0x05, 0x0C, 0x0D, 0x14, 0x15, 0x1C, 0x1D,
0x24, 0x25, 0x2C, 0x2D, 0x34, 0x35, 0x88, 0x89,
0x98, 0x99, 0xA8, 0xA9, 0xB8, 0xB9, 0xC8, 0xC9,
0xD8, 0xD9, 0xE8, 0xE9, 0x08, 0x09, 0x18, 0x19,
0x28, 0x29, 0x38, 0x39, 0x48, 0x49, 0x58, 0x59,
0x68, 0x69, 0x78, 0x79, 0x80, 0x81,
};
static const u8 *snum_init;
qe_num_of_snum = qe_get_num_of_snums();
if (qe_num_of_snum == 76)
snum_init = snum_init_76;
else
snum_init = snum_init_46;
for (i = 0; i < qe_num_of_snum; i++) {
snums[i].num = snum_init[i];
snums[i].state = QE_SNUM_STATE_FREE;
}
}
int qe_get_snum(void)
{
unsigned long flags;
int snum = -EBUSY;
int i;
spin_lock_irqsave(&qe_lock, flags);
for (i = 0; i < qe_num_of_snum; i++) {
if (snums[i].state == QE_SNUM_STATE_FREE) {
snums[i].state = QE_SNUM_STATE_USED;
snum = snums[i].num;
break;
}
}
spin_unlock_irqrestore(&qe_lock, flags);
return snum;
}
EXPORT_SYMBOL(qe_get_snum);
void qe_put_snum(u8 snum)
{
int i;
for (i = 0; i < qe_num_of_snum; i++) {
if (snums[i].num == snum) {
snums[i].state = QE_SNUM_STATE_FREE;
break;
}
}
}
EXPORT_SYMBOL(qe_put_snum);
static int qe_sdma_init(void)
{
struct sdma __iomem *sdma = &qe_immr->sdma;
static unsigned long sdma_buf_offset = (unsigned long)-ENOMEM;
if (!sdma)
return -EN
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