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// SPDX-License-Identifier: GPL-2.0
/*
* mtu3_core.c - hardware access layer and gadget init/exit of
* MediaTek usb3 Dual-Role Controller Driver
*
* Copyright (C) 2016 MediaTek Inc.
*
* Author: Chunfeng Yun <chunfeng.yun@mediatek.com>
*/
#include <linux/dma-mapping.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/of_address.h>
#include <linux/of_irq.h>
#include <linux/platform_device.h>
#include "mtu3.h"
static int ep_fifo_alloc(struct mtu3_ep *mep, u32 seg_size)
{
struct mtu3_fifo_info *fifo = mep->fifo;
u32 num_bits = DIV_ROUND_UP(seg_size, MTU3_EP_FIFO_UNIT);
u32 start_bit;
/* ensure that @mep->fifo_seg_size is power of two */
num_bits = roundup_pow_of_two(num_bits);
if (num_bits > fifo->limit)
return -EINVAL;
mep->fifo_seg_size = num_bits * MTU3_EP_FIFO_UNIT;
num_bits = num_bits * (mep->slot + 1);
start_bit = bitmap_find_next_zero_area(fifo->bitmap,
fifo->limit, 0, num_bits, 0);
if (start_bit >= fifo->limit)
return -EOVERFLOW;
bitmap_set(fifo->bitmap, start_bit, num_bits);
mep->fifo_size = num_bits * MTU3_EP_FIFO_UNIT;
mep->fifo_addr = fifo->base + MTU3_EP_FIFO_UNIT * start_bit;
dev_dbg(mep->mtu->dev, "%s fifo:%#x/%#x, start_bit: %d\n",
__func__, mep->fifo_seg_size, mep->fifo_size, start_bit);
return mep->fifo_addr;
}
static void ep_fifo_free(struct mtu3_ep *mep)
{
struct mtu3_fifo_info *fifo = mep->fifo;
u32 addr = mep->fifo_addr;
u32 bits = mep->fifo_size / MTU3_EP_FIFO_UNIT;
u32 start_bit;
if (unlikely(addr < fifo->base || bits > fifo->limit))
return;
start_bit = (addr - fifo->base) / MTU3_EP_FIFO_UNIT;
bitmap_clear(fifo->bitmap, start_bit, bits);
mep->fifo_size = 0;
mep->fifo_seg_size = 0;
dev_dbg(mep->mtu->dev, "%s size:%#x/%#x, start_bit: %d\n",
__func__, mep->fifo_seg_size, mep->fifo_size, start_bit);
}
/* enable/disable U3D SS function */
static inline void mtu3_ss_func_set(struct mtu3 *mtu, bool enable)
{
/* If usb3_en==0, LTSSM will go to SS.Disable state */
if (enable)
mtu3_setbits(mtu->mac_base, U3D_USB3_CONFIG, USB3_EN);
else
mtu3_clrbits(mtu->mac_base, U3D_USB3_CONFIG, USB3_EN);
dev_dbg(mtu->dev, "USB3_EN = %d\n", !!enable);
}
/* set/clear U3D HS device soft connect */
static inline void mtu3_hs_softconn_set(struct mtu3 *mtu, bool enable)
{
if (enable) {
mtu3_setbits(mtu->mac_base, U3D_POWER_MANAGEMENT,
SOFT_CONN | SUSPENDM_ENABLE);
} else {
mtu3_clrbits(mtu->mac_base, U3D_POWER_MANAGEMENT,
SOFT_CONN | SUSPENDM_ENABLE);
}
dev_dbg(mtu->dev, "SOFTCONN = %d\n", !!enable);
}
/* only port0 of U2/U3 supports device mode */
static int mtu3_device_enable(struct mtu3 *mtu)
{
void __iomem *ibase = mtu->ippc_base;
u32 check_clk = 0;
mtu3_clrbits(ibase, U3D_SSUSB_IP_PW_CTRL2, SSUSB_IP_DEV_PDN);
if (mtu->is_u3_ip) {
check_clk = SSUSB_U3_MAC_RST_B_STS;
mtu3_clrbits(ibase, SSUSB_U3_CTRL(0),
(SSUSB_U3_PORT_DIS | SSUSB_U3_PORT_PDN |
SSUSB_U3_PORT_HOST_SEL));
}
mtu3_clrbits(ibase, SSUSB_U2_CTRL(0),
(SSUSB_U2_PORT_DIS | SSUSB_U2_PORT_PDN |
SSUSB_U2_PORT_HOST_SEL));
if (mtu->ssusb->dr_mode == USB_DR_MODE_OTG) {
mtu3_setbits(ibase, SSUSB_U2_CTRL(0), SSUSB_U2_PORT_OTG_SEL);
if (mtu->is_u3_ip)
mtu3_setbits(ibase, SSUSB_U3_CTRL(0),
SSUSB_U3_PORT_DUAL_MODE);
}
return ssusb_check_clocks(mtu->ssusb, check_clk);
}
static void mtu3_device_disable(struct mtu3 *mtu)
{
void __iomem *ibase = mtu->ippc_base;
if (mtu->is_u3_ip)
mtu3_setbits(ibase, SSUSB_U3_CTRL(0),
(SSUSB_U3_PORT_DIS | SSUSB_U3_PORT_PDN));
mtu3_setbits(ibase, SSUSB_U2_CTRL(0),
SSUSB_U2_PORT_DIS | SSUSB_U2_PORT_PDN);
if (mtu->ssusb->dr_mode == USB_DR_MODE_OTG)
mtu3_clrbits(ibase, SSUSB_U2_CTRL(0), SSUSB_U2_PORT_OTG_SEL);
mtu3_setbits(ibase, U3D_SSUSB_IP_PW_CTRL2, SSUSB_IP_DEV_PDN);
}
/* reset U3D's device module. */
static void mtu3_device_reset(struct mtu3 *mtu)
{
void __iomem *ibase = mtu->ippc_base;
mtu3_setbits(ibase, U3D_SSUSB_DEV_RST_CTRL, SSUSB_DEV_SW_RST);
udelay(1);
mtu3_clrbits(ibase, U3D_SSUSB_DEV_RST_CTRL, SSUSB_DEV_SW_RST);
}
/* disable all interrupts */
static void mtu3_intr_disable(struct mtu3 *mtu)
{
void __iomem *mbase = mtu->mac_base;
/* Disable level 1 interrupts */
mtu3_writel(mbase, U3D_LV1IECR, ~0x0);
/* Disable endpoint interrupts */
mtu3_writel(mbase, U3D_EPIECR, ~0x0);
}
static void mtu3_intr_status_clear(struct mtu3 *mtu)
{
void __iomem *mbase = mtu->mac_base;
/* Clear EP0 and Tx/Rx EPn interrupts status */
mtu3_writel(mbase, U3D_EPISR, ~0x0);
/* Clear U2 USB common interrupts status */
mtu3_writel(mbase, U3D_COMMON_USB_INTR, ~0x0);
/* Clear U3 LTSSM interrupts status */
mtu3_writel(mbase, U3D_LTSSM_INTR, ~0x0);
/* Clear speed change interrupt status */
mtu3_writel(mbase, U3D_DEV_LINK_INTR, ~0x0);
}
/* enable system global interrupt */
static void mtu3_intr_enable(struct mtu3 *mtu)
{
void __iomem *mbase = mtu->mac_base;
u32 value;
/*Enable level 1 interrupts (BMU, QMU, MAC3, DMA, MAC2, EPCTL) */
value = BMU_INTR | QMU_INTR | MAC3_INTR | MAC2_INTR | EP_CTRL_INTR;
mtu3_writel(mbase, U3D_LV1IESR, value);
/* Enable U2 common USB interrupts */
value = SUSPEND_INTR | RESUME_INTR | RESET_INTR;
mtu3_writel(mbase, U3D_COMMON_USB_INTR_ENABLE, value);
if (mtu->is_u3_ip) {
/* Enable U3 LTSSM interrupts */
value = HOT_RST_INTR | WARM_RST_INTR |
ENTER_U3_INTR | EXIT_U3_INTR;
mtu3_writel(mbase, U3D_LTSSM_INTR_ENABLE, value);
}
/* Enable QMU interrupts. */
value = TXQ_CSERR_INT | TXQ_LENERR_INT | RXQ_CSERR_INT |
RXQ_LENERR_INT | RXQ_ZLPERR_INT;
mtu3_writel(mbase, U3D_QIESR1, value);
/* Enable speed change interrupt */
mtu3_writel(mbase, U3D_DEV_LINK_INTR_ENABLE, SSUSB_DEV_SPEED_CHG_INTR);
}
/* reset: u2 - data toggle, u3 - SeqN, flow control status etc */
static void mtu3_ep_reset(struct mtu3_ep *mep)
{
struct mtu3 *mtu = mep->mtu;
u32 rst_bit = EP_RST(mep->is_in, mep->epnum);
mtu3_setbits(mtu->mac_base, U3D_EP_RST, rst_bit);
mtu3_clrbits(mtu->mac_base, U3D_EP_RST, rst_bit);
}
/* set/clear the stall and toggle bits for non-ep0 */
void mtu3_ep_stall_set(struct mtu3_ep *mep, bool set)
{
struct mtu3 *mtu = mep->mtu;
void __iomem *mbase = mtu->mac_base;
u8 epnum = mep->epnum;
u32 csr;
if (mep->is_in) { /* TX */
csr = mtu3_readl(mbase, MU3D_EP_TXCR0(epnum)) & TX_W1C_BITS;
if (set)
csr |= TX_SENDSTALL;
else
csr = (csr & (~TX_SENDSTALL)) | TX_SENTSTALL;
mtu3_writel(mbase, MU3D_EP_TXCR0(epnum), csr);
} else { /* RX */
csr = mtu3_readl(mbase, MU3D_EP_RXCR0(epnum)) & RX_W1C_BITS;
if (set)
csr |= RX_SENDSTALL;
else
csr = (csr & (~RX_SENDSTALL)) | RX_SENTSTALL;
mtu3_writel(mbase, MU3D_EP_RXCR0(epnum), csr);
}
if (!set) {
mtu3_ep_reset(mep);
mep->flags &= ~MTU3_EP_STALL;
} else {
mep->flags |= MTU3_EP_STALL;
}
dev_dbg(mtu->dev, "%s: %s\n", mep->name,
set ? "SEND STALL" : "CLEAR STALL, with EP RESET");
}
void mtu3_dev_on_off(struct mtu3 *mtu, int is_on)
{
if (mtu->is_u3_ip && mtu->max_speed >= USB_SPEED_SUPER)
mtu3_ss_func_set(mtu, is_on);
else
mtu3_hs_softconn_set(mtu, is_on);
dev_info(mtu->dev, "gadget (%s) pullup D%s\n",
usb_speed_string(mtu->max_speed), is_on ? "+" : "-");
}
void mtu3_start(struct mtu3 *mtu)
{
void __iomem *mbase = mtu->mac_base;
dev_dbg(mtu->dev, "%s devctl 0x%x\n", __func__,
mtu3_readl(mbase, U3D_DEVICE_CONTROL));
mtu3_clrbits(mtu->ippc_base, U3D_SSUSB_IP_PW_CTRL2, SSUSB_IP_DEV_PDN);
/*
* When disable U2 port, USB2_CSR's register will be reset to
* default value after re-enable it again(HS is enabled by default).
* So if force mac to work as FS, disable HS function.
*/
if (mtu->max_speed == USB_SPEED_FULL)
mtu3_clrbits(mbase, U3D_POWER_MANAGEMENT, HS_ENABLE);
/* Initialize the default interrupts */
mtu3_intr_enable(mtu);
mtu->is_active = 1;
if (mtu->softconnect)
mtu3_dev_on_off(mtu, 1);
}
void mtu3_stop(struct mtu3 *mtu)
{
dev_dbg(mtu->dev, "%s\n", __func__);
mtu3_intr_disable(mtu);
mtu3_intr_status_clear(mtu);
if (mtu->softconnect)
mtu3_dev_on_off(mtu, 0);
mtu->is_active = 0;
mtu3_setbits(mtu->ippc_base, U3D_SSUSB_IP_PW_CTRL2, SSUSB_IP_DEV_PDN);
}
/* for non-ep0 */
int mtu3_config_ep(struct mtu3 *mtu, struct mtu3_ep *mep,
int interval, int burst, int mult)
{
void __iomem *mbase = mtu->mac_base;
int epnum = mep->epnum;
u32 csr0, csr1, csr2;
int fifo_sgsz, fifo_addr;
int num_pkts;
fifo_addr = ep_fifo_alloc(mep, mep->maxp);
if (fifo_addr < 0) {
dev_err(mtu->dev, "alloc ep fifo failed(%d)\n", mep->maxp);
return -ENOMEM;
}
fifo_sgsz = ilog2(mep->fifo_seg_size);
dev_dbg(mtu->dev, "%s fifosz: %x(%x/%x)\n", __func__, fifo_sgsz,
mep->fifo_seg_size, mep->fifo_size);
if (mep->is_in) {
csr0 = TX_TXMAXPKTSZ(mep->maxp);
csr0 |= TX_DMAREQEN;
num_pkts = (burst + 1) * (mult + 1) - 1;
csr1 = TX_SS_BURST(burst) | TX_SLOT(mep->slot);
csr1 |= TX_MAX_PKT(num_pkts) | TX_MULT(mult);
csr2 = TX_FIFOADDR(fifo_addr >> 4);
csr2 |= TX_FIFOSEGSIZE(fifo_sgsz);
switch (mep->type) {
case USB_ENDPOINT_XFER_BULK:
csr1 |= TX_TYPE(TYPE_BULK);
break;
case USB_ENDPOINT_XFER_ISOC:
csr1 |= TX_TYPE(TYPE_ISO);
csr2 |= TX_BINTERVAL(interval);
break;
case USB_ENDPOINT_XFER_INT:
csr1 |= TX_TYPE(TYPE_INT);
csr2 |= TX_BINTERVAL(interval);
break;
}
/* Enable QMU Done interrupt */
mtu3_setbits(mbase, U3D_QIESR0, QMU_TX_DONE_INT(epnum));
mtu3_writel(mbase, MU3D_EP_TXCR0(epnum), csr0);
mtu3_writel(mbase, MU3D_EP_TXCR1(epnum), csr1);
mtu3_writel(mbase, MU3D_EP_TXCR2(epnum), csr2);
dev_dbg(mtu->dev, "U3D_TX%d CSR0:%#x, CSR1:%#x, CSR2:%#x\n",
epnum, mtu3_readl(mbase, MU3D_EP_TXCR0(epnum)),
mtu3_readl(mbase, MU3D_EP_TXCR1(epnum)),
mtu3_readl(mbase, MU3D_EP_TXCR2(epnum)));
} else {
csr0 = RX_RXMAXPKTSZ(mep->maxp);
csr0 |= RX_DMAREQEN;
num_pkts = (burst + 1) * (mult + 1) - 1;
csr1 = RX_SS_BURST(burst) | RX_SLOT(mep->slot);
csr1 |= RX_MAX_PKT(num_pkts) | RX_MULT(mult);
csr2 = RX_FIFOADDR(fifo_addr >> 4);
csr2 |= RX_FIFOSEGSIZE(fifo_sgsz);
switch (mep->type) {
case USB_ENDPOINT_XFER_BULK:
csr1 |= RX_TYPE(TYPE_BULK);
break;
case USB_ENDPOINT_XFER_ISOC:
csr1 |= RX_TYPE(TYPE_ISO);
csr2 |= RX_BINTERVAL(interval);
break;
case USB_ENDPOINT_XFER_INT:
csr1 |= RX_TYPE(TYPE_INT);
csr2 |= RX_BINTERVAL(interval);
break;
}
/*Enable QMU Done interrupt */
mtu3_setbits(mbase, U3D_QIESR0, QMU_RX_DONE_INT(epnum));
mtu3_writel(mbase, MU3D_EP_RXCR0(epnum), csr0);
mtu3_writel(mbase, MU3D_EP_RXCR1(epnum), csr1);
mtu3_writel(mbase, MU3D_EP_RXCR2(epnum), csr2);
dev_dbg(mtu->dev, "U3D_RX%d CSR0:%#x, CSR1:%#x, CSR2:%#x\n",
epnum, mtu3_readl(mbase, MU3D_EP_RXCR0(epnum)),
mtu3_readl(mbase, MU3D_EP_RXCR1(epnum)),
mtu3_readl(mbase, MU3D_EP_RXCR2(epnum)));
}
dev_dbg(mtu->dev, "csr0:%#x, csr1:%#x, csr2:%#x\n", csr0, csr1, csr2);
dev_dbg(mtu->dev, "%s: %s, fifo-addr:%#x, fifo-size:%#x(%#x/%#x)\n",
__func__, mep->name, mep->fifo_addr, mep->fifo_size,
fifo_sgsz, mep->fifo_seg_size);
return 0;
}
/* for non-ep0 */
void mtu3_deconfig_ep(struct mtu3 *mtu, struct mtu3_ep *mep)
{
void __iomem *mbase = mtu->mac_base;
int epnum = mep->epnum;
if (mep->is_in) {
mtu3_writel(mbase, MU3D_EP_TXCR0(epnum), 0);
mtu3_writel(mbase, MU3D_EP_TXCR1(epnum), 0);
mtu3_writel(mbase, MU3D_EP_TXCR2(epnum), 0);
mtu3_setbits(mbase, U3D_QIECR0, QMU_TX_DONE_INT(epnum));
} else {
mtu3_writel(mbase, MU3D_EP_RXCR0(epnum), 0);
mtu3_writel(mbase, MU3D_EP_RXCR1(epnum), 0);
mtu3_writel(mbase, MU3D_EP_RXCR2(epnum), 0);
mtu3_setbits(mbase, U3D_QIECR0, QMU_RX_DONE_INT(epnum));
}
mtu3_ep_reset(mep);
ep_fifo_free(mep);
dev_dbg(mtu->dev, "%s: %s\n", __func__, mep->name);
}
/*
* Two scenarios:
* 1. when device IP supports SS, the fifo of EP0, TX EPs, RX EPs
* are separated;
* 2. when supports only HS, the fifo is shared for all EPs, and
* the capability registers of @EPNTXFFSZ or @EPNRXFFSZ indicate
* the total fifo size of non-ep0, and ep0's is fixed to 64B,
* so the total fifo size is 64B + @EPNTXFFSZ;
* Due to the first 64B should be reserved for EP0, non-ep0's fifo
* starts from offset 64 and are divided into two equal parts for
* TX or RX EPs for simplification.
*/
static void get_ep_fifo_config(struct mtu3 *mtu)
{
struct mtu3_fifo_info *tx_fifo;
struct mtu3_fifo_info *rx_fifo;
u32 fifosize;
if (mtu->is_u3_ip) {
fifosize = mtu3_readl(mtu->mac_base, U3D_CAP_EPNTXFFSZ);
tx_fifo = &mtu->tx_fifo;
tx_fifo->base = 0;
tx_fifo->limit = fifosize / MTU3_EP_FIFO_UNIT;
bitmap_zero(tx_fifo->bitmap, MTU3_FIFO_BIT_SIZE);
fifosize = mtu3_readl(mtu->mac_base, U3D_CAP_EPNRXFFSZ);
rx_fifo = &mtu->rx_fifo;
rx_fifo->base = 0;
rx_fifo->limit = fifosize / MTU3_EP_FIFO_UNIT;
bitmap_zero(rx_fifo->bitmap, MTU3_FIFO_BIT_SIZE);
mtu->slot = MTU3_U3_IP_SLOT_DEFAULT;
} else {
fifosize = mtu3_readl(mtu->mac_base, U3D_CAP_EPNTXFFSZ);
tx_fifo = &mtu->tx_fifo;
tx_fifo->base = MTU3_U2_IP_EP0_FIFO_SIZE;
tx_fifo->limit = (fifosize / MTU3_EP_FIFO_UNIT) >> 1;
bitmap_zero(tx_fifo->bitmap, MTU3_FIFO_BIT_SIZE);
rx_fifo = &mtu->rx_fifo;
rx_fifo->base =
tx_fifo->base + tx_fifo->limit * MTU3_EP_FIFO_UNIT;
rx_fifo->limit = tx_fifo->limit;
bitmap_zero(rx_fifo->bitmap, MTU3_FIFO_BIT_SIZE);
mtu->slot = MTU3_U2_IP_SLOT_DEFAULT;
}
dev_dbg(mtu->dev, "%s, TX: base-%d, limit-%d; RX: base-%d, limit-%d\n",
__func__, tx_fifo->base, tx_fifo->limit,
rx_fifo->base, rx_fifo->limit);
}
void mtu3_ep0_setup(struct mtu3 *mtu)
{
u32 maxpacket = mtu->g.ep0->maxpacket;
u32 csr;
dev_dbg(mtu->dev, "%s maxpacket: %d\n", __func__, maxpacket);
csr = mtu3_readl(mtu->mac_base, U3D_EP0CSR);
csr &= ~EP0_MAXPKTSZ_MSK;
csr |= EP0_MAXPKTSZ(maxpacket);
csr &= EP0_W1C_BITS;
mtu3_writel(mtu->mac_base, U3D_EP0CSR, csr);
/* Enable EP0 interrupt */
mtu3_writel(mtu->mac_base, U3D_EPIESR, EP0ISR | SETUPENDISR);
}
static int mtu3_mem_alloc(struct mtu3 *mtu)
{
void __iomem *mbase = mtu->mac_base;
struct mtu3_ep *ep_array;
int in_ep_num, out_ep_num;
u32 cap_epinfo;
int ret;
int i;
cap_epinfo = mtu3_readl(mbase, U3D_CAP_EPINFO);
in_ep_num = CAP_TX_EP_NUM(cap_epinfo);
out_ep_num = CAP_RX_EP_NUM(cap_epinfo);
dev_info(mtu->dev, "fifosz/epnum: Tx=%#x/%d, Rx=%#x/%d\n",
mtu3_readl(mbase, U3D_CAP_EPNTXFFSZ), in_ep_num,
mtu3_readl(mbase, U3D_CAP_EPNRXFFSZ), out_ep_num);
/* one for ep0, another is reserved */
mtu->num_eps = min(in_ep_num, out_ep_num) + 1;
ep_array = kcalloc(mtu->num_eps * 2, sizeof(*ep_array), GFP_KERNEL);
if (ep_array == NULL)
return -ENOMEM;
mtu->ep_array = ep_array;
mtu->in_eps = ep_array;
mtu->out_eps = &ep_array[mtu->num_eps];
/* ep0 uses in_eps[0], out_eps[0] is reserved */
mtu->ep0 = mtu->in_eps;
mtu->ep0->mtu = mtu;
mtu->ep0->epnum = 0;
for (i = 1; i < mtu->num_eps; i++) {
struct mtu3_ep *mep = mtu->in_eps + i;
mep->fifo = &mtu->tx_fifo;
mep = mtu->out_eps + i;
mep->fifo = &mtu->rx_fifo;
}
get_ep_fifo_config(mtu);
ret = mtu3_qmu_init(mtu);
if (ret)
kfree(mtu->ep_array);
return ret;
}
static void mtu3_mem_free(struct mtu3 *mtu)
{
mtu3_qmu_exit(mtu);
kfree(mtu->ep_array);
}
static void mtu3_set_speed(struct mtu3 *mtu)
{
void __iomem *mbase = mtu->mac_base;
if (!mtu->is_u3_ip && (mtu->max_speed > USB_SPEED_HIGH))
mtu->max_speed = USB_SPEED_HIGH;
if (mtu->max_speed == USB_SPEED_FULL) {
/* disable U3 SS function */
mtu3_clrbits(mbase, U3D_USB3_CONFIG, USB3_EN);
/* disable HS function */
mtu3_clrbits(mbase, U3D_POWER_MANAGEMENT, HS_ENABLE);
} else if (mtu->max_speed == USB_SPEED_HIGH) {
mtu3_clrbits(mbase, U3D_USB3_CONFIG, USB3_EN);
/* HS/FS detected by HW */
mtu3_setbits(mbase, U3D_POWER_MANAGEMENT, HS_ENABLE);
} else if (mtu->max_speed == USB_SPEED_SUPER) {
mtu3_clrbits(mtu->ippc_base, SSUSB_U3_CTRL(0),
SSUSB_U3_PORT_SSP_SPEED);
}
dev_info(mtu->dev, "max_speed: %s\n",
usb_speed_string(mtu->max_speed));
}
static void mtu3_regs_init(struct mtu3 *mtu)
{
void __iomem *mbase = mtu->mac_base;
/* be sure interrupts are disabled before registration of ISR */
mtu3_intr_disable(mtu);
mtu3_intr_status_clear(mtu);
if (mtu->is_u3_ip) {
/* disable LGO_U1/U2 by default */
mtu3_clrbits(mbase, U3D_LINK_POWER_CONTROL,
SW_U1_REQUEST_ENABLE | SW_U2_REQUEST_ENABLE);
/* enable accept LGO_U1/U2 link command from host */
mtu3_setbits(mbase, U3D_LINK_POWER_CONTROL,
SW_U1_ACCEPT_ENABLE | SW_U2_ACCEPT_ENABLE);
/* device responses to u3_exit from host automatically */
mtu3_clrbits(mbase, U3D_LTSSM_CTRL, SOFT_U3_EXIT_EN);
/* automatically build U2 link when U3 detect fail */
mtu3_setbits(mbase, U3D_USB2_TEST_MODE, U2U3_AUTO_SWITCH);
}
mtu3_set_speed(mtu);
/* delay about 0.1us from detecting reset to send chirp-K */
mtu3_clrbits(mbase, U3D_LINK_RESET_INFO, WTCHRP_MSK);
/* U2/U3 detected by HW */
mtu3_writel(mbase, U3D_DEVICE_CONF, 0);
/* vbus detected by HW */
mtu3_clrbits(mbase, U3D_MISC_CTRL, VBUS_FRC_EN | VBUS_ON);
/* enable automatical HWRW from L1 */
mtu3_setbits(mbase, U3D_POWER_MANAGEMENT, LPM_HRWE);
}
static irqreturn_t mtu3_link_isr(struct mtu3 *mtu)
{
void __iomem *mbase = mtu->mac_base;
enum usb_device_speed udev_speed;
u32 maxpkt = 64;
u32 link;
u32 speed;
link = mtu3_readl(mbase, U3D_DEV_LINK_INTR);
link &= mtu3_readl(mbase, U3D_DEV_LINK_INTR_ENABLE);
mtu3_writel(mbase, U3D_DEV_LINK_INTR, link); /* W1C */
dev_dbg(mtu->dev, "=== LINK[%x] ===\n", link);
if (!(link & SSUSB_DEV_SPEED_CHG_INTR))
return IRQ_NONE;
speed = SSUSB_DEV_SPEED(mtu3_readl(mbase, U3D_DEVICE_CONF));
switch (speed) {
case MTU3_SPEED_FULL:
udev_speed = USB_SPEED_FULL;
/*BESLCK = 4 < BESLCK_U3 = 10 < BESLDCK = 15 */
mtu3_writel(mbase, U3D_USB20_LPM_PARAMETER, LPM_BESLDCK(0xf)
| LPM_BESLCK(4) | LPM_BESLCK_U3(0xa));
mtu3_setbits(mbase, U3D_POWER_MANAGEMENT,
LPM_BESL_STALL | LPM_BESLD_STALL);
break;
case MTU3_SPEED_HIGH:
udev_speed = USB_SPEED_HIGH;
/*BESLCK = 4 < BESLCK_U3 = 10 < BESLDCK = 15 */
mtu3_writel(mbase, U3D_USB20_LPM_PARAMETER, LPM_BESLDCK(0xf)
| LPM_BESLCK(4) | LPM_BESLCK_U3(0xa));
mtu3_setbits(mbase, U3D_POWER_MANAGEMENT,
LPM_BESL_STALL | LPM_BESLD_STALL);
break;
case MTU3_SPEED_SUPER:
udev_speed = USB_SPEED_SUPER;
maxpkt = 512;
break;
case MTU3_SPEED_SUPER_PLUS:
udev_speed = USB_SPEED_SUPER_PLUS;
maxpkt = 512;
break;
default:
udev_speed = USB_SPEED_UNKNOWN;
break;
}
dev_dbg(mtu->dev, "%s: %s\n", __func__, usb_speed_string(udev_speed));
mtu->g.speed = udev_speed;
mtu->g.ep0->maxpacket = maxpkt;
mtu->ep0_state = MU3D_EP0_STATE_SETUP;
if (udev_speed == USB_SPEED_UNKNOWN)
mtu3_gadget_disconnect(mtu);
else
mtu3_ep0_setup(mtu);
return IRQ_HANDLED;
}
static irqreturn_t mtu3_u3_ltssm_isr(struct mtu3 *mtu)
{
void __iomem *mbase = mtu->mac_base;
u32 ltssm;
ltssm = mtu3_readl(mbase, U3D_LTSSM_INTR);
ltssm &= mtu3_readl(mbase, U3D_LTSSM_INTR_ENABLE);
mtu3_writel(mbase, U3D_LTSSM_INTR, ltssm); /* W1C */
dev_dbg(mtu->dev, "=== LTSSM[%x] ===\n", ltssm);
if (ltssm & (HOT_RST_INTR | WARM_RST_INTR))
mtu3_gadget_reset(mtu);
if (ltssm & VBUS_FALL_INTR) {
mtu3_ss_func_set(mtu, false);
mtu3_gadget_reset(mtu);
}
if (ltssm & VBUS_RISE_INTR)
mtu3_ss_func_set(mtu, true);
if (ltssm & EXIT_U3_INTR)
mtu3_gadget_resume(mtu);
if (ltssm & ENTER_U3_INTR)
mtu3_gadget_suspend(mtu);
return IRQ_HANDLED;
}
static irqreturn_t mtu3_u2_common_isr(struct mtu3 *mtu)
{
void __iomem *mbase = mtu->mac_base;
u32 u2comm;
u2comm = mtu3_readl(mbase, U3D_COMMON_USB_INTR);
u2comm &= mtu3_readl(mbase, U3D_COMMON_USB_INTR_ENABLE);
mtu3_writel(mbase, U3D_COMMON_USB_INTR, u2comm); /* W1C */
dev_dbg(mtu->dev, "=== U2COMM[%x] ===\n", u2comm);
if (u2comm & SUSPEND_INTR)
mtu3_gadget_suspend(mtu);
if (u2comm & RESUME_INTR)
mtu3_gadget_resume(mtu);
if (u2comm & RESET_INTR)
mtu3_gadget_reset(mtu);
return IRQ_HANDLED;
}
static irqreturn_t mtu3_irq(int irq, void *data)
{
struct mtu3 *mtu = (struct mtu3 *)data;
unsigned long flags;
u32 level1;
spin_lock_irqsave(&mtu->lock, flags);
/* U3D_LV1ISR is RU */
level1 = mtu3_readl(mtu->mac_base, U3D_LV1ISR);
level1 &= mtu3_readl(mtu->mac_base, U3D_LV1IER);
if (level1 & EP_CTRL_INTR)
mtu3_link_isr(mtu);
if (level1 & MAC2_INTR)
mtu3_u2_common_isr(mtu);
if (level1 & MAC3_INTR)
mtu3_u3_ltssm_isr(mtu);
if (level1 & BMU_INTR)
mtu3_ep0_isr(mtu);
if (level1 & QMU_INTR)
mtu3_qmu_isr(mtu);
spin_unlock_irqrestore(&mtu->lock, flags);
return IRQ_HANDLED;
}
static int mtu3_hw_init(struct mtu3 *mtu)
{
u32 cap_dev;
int ret;
mtu->hw_version = mtu3_readl(mtu->ippc_base, U3D_SSUSB_HW_ID);
cap_dev = mtu3_readl(mtu->ippc_base, U3D_SSUSB_IP_DEV_CAP);
mtu->is_u3_ip = !!SSUSB_IP_DEV_U3_PORT_NUM(cap_dev);
dev_info(mtu->dev, "IP version 0x%x(%s IP)\n", mtu->hw_version,
mtu->is_u3_ip ? "U3" : "U2");
mtu3_device_reset(mtu);
ret = mtu3_device_enable(mtu);
if (ret) {
dev_err(mtu->dev, "device enable failed %d\n", ret);
return ret;
}
ret = mtu3_mem_alloc(mtu);
if (ret)
return -ENOMEM;
mtu3_regs_init(mtu);
return 0;
}
static void mtu3_hw_exit(struct mtu3 *mtu)
{
mtu3_device_disable(mtu);
mtu3_mem_free(mtu);
}
/**
* we set 32-bit DMA mask by default, here check whether the controller
* supports 36-bit DMA or not, if it does, set 36-bit DMA mask.
*/
static int mtu3_set_dma_mask(struct mtu3 *mtu)
{
struct device *dev = mtu->dev;
bool is_36bit = false;
int ret = 0;
u32 value;
value = mtu3_readl(mtu->mac_base, U3D_MISC_CTRL);
if (value & DMA_ADDR_36BIT) {
is_36bit = true;
ret = dma_set_mask_and_coherent(dev, DMA_BIT_MASK(36));
/* If set 36-bit DMA mask fails, fall back to 32-bit DMA mask */
if (ret) {
is_36bit = false;
ret = dma_set_mask_and_coherent(dev, DMA_BIT_MASK(32));
}
}
dev_info(dev, "dma mask: %s bits\n", is_36bit ? "36" : "32");
return ret;
}
int ssusb_gadget_init(struct ssusb_mtk *ssusb)
{
struct device *dev = ssusb->dev;
struct platform_device *pdev = to_platform_device(dev);
struct mtu3 *mtu = NULL;
struct resource *res;
int ret = -ENOMEM;
mtu = devm_kzalloc(dev, sizeof(struct mtu3), GFP_KERNEL);
if (mtu == NULL)
return -ENOMEM;
mtu->irq = platform_get_irq(pdev, 0);
if (mtu->irq < 0) {
dev_err(dev, "fail to get irq number\n");
return mtu->irq;
}
dev_info(dev, "irq %d\n", mtu->irq);
res = platform_get_resource_byname(pdev, IORESOURCE_MEM, "mac");
mtu->mac_base = devm_ioremap_resource(dev, res);
if (IS_ERR(mtu->mac_base)) {
dev_err(dev, "error mapping memory for dev mac\n");
return PTR_ERR(mtu->mac_base);
}
spin_lock_init(&mtu->lock);
mtu->dev = dev;
mtu->ippc_base = ssusb->ippc_base;
ssusb->mac_base = mtu->mac_base;
ssusb->u3d = mtu;
mtu->ssusb = ssusb;
mtu->max_speed = usb_get_maximum_speed(dev);
/* check the max_speed parameter */
switch (mtu->max_speed) {
case USB_SPEED_FULL:
case USB_SPEED_HIGH:
case USB_SPEED_SUPER:
case USB_SPEED_SUPER_PLUS:
break;
default:
dev_err(dev, "invalid max_speed: %s\n",
usb_speed_string(mtu->max_speed));
/* fall through */
case USB_SPEED_UNKNOWN:
/* default as SSP */
mtu->max_speed = USB_SPEED_SUPER_PLUS;
break;
}
dev_dbg(dev, "mac_base=0x%p, ippc_base=0x%p\n",
mtu->mac_base, mtu->ippc_base);
ret = mtu3_hw_init(mtu);
if (ret) {
dev_err(dev, "mtu3 hw init failed:%d\n", ret);
return ret;
}
ret = mtu3_set_dma_mask(mtu);
if (ret) {
dev_err(dev, "mtu3 set dma_mask failed:%d\n", ret);
goto dma_mask_err;
}
ret = devm_request_irq(dev, mtu->irq, mtu3_irq, 0, dev_name(dev), mtu);
if (ret) {
dev_err(dev, "request irq %d failed!\n", mtu->irq);
goto irq_err;
}
device_init_wakeup(dev, true);
ret = mtu3_gadget_setup(mtu);
if (ret) {
dev_err(dev, "mtu3 gadget init failed:%d\n", ret);
goto gadget_err;
}
/* init as host mode, power down device IP for power saving */
if (mtu->ssusb->dr_mode == USB_DR_MODE_OTG)
mtu3_stop(mtu);
dev_dbg(dev, " %s() done...\n", __func__);
return 0;
gadget_err:
device_init_wakeup(dev, false);
dma_mask_err:
irq_err:
mtu3_hw_exit(mtu);
ssusb->u3d = NULL;
dev_err(dev, " %s() fail...\n", __func__);
return ret;
}
void ssusb_gadget_exit(struct ssusb_mtk *ssusb)
{
struct mtu3 *mtu = ssusb->u3d;
mtu3_gadget_cleanup(mtu);
device_init_wakeup(ssusb->dev, false);
mtu3_hw_exit(mtu);
}
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