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提交 381a58c7 编写于 作者: T Tomas Winkler 提交者: Greg Kroah-Hartman
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mei: me: use io register wrappers consistently 

1. Use mei_device structure as the first argument to the io
register access wrappers so we'll have access to the device
structure needed for tracing.

2. Use wrapper consistently
Signed-off-by: NTomas Winkler <tomas.winkler@intel.com>
Signed-off-by: NGreg Kroah-Hartman <gregkh@linuxfoundation.org>
上级 b7d88514
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Showing with 66 addition and 57 deletion
drivers/misc/mei/hw-me.c
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......@@ -61,45 +61,68 @@ static inline void mei_me_reg_write(const struct mei_me_hw *hw,
*
* Return: ME_CB_RW register value (u32)
*/
static u32 mei_me_mecbrw_read(const struct mei_device *dev)
static inline u32 mei_me_mecbrw_read(const struct mei_device *dev)
{
return mei_me_reg_read(to_me_hw(dev), ME_CB_RW);
}
/**
* mei_me_hcbww_write - write 32bit data to the host circular buffer
*
* @dev: the device structure
* @data: 32bit data to be written to the host circular buffer
*/
static inline void mei_me_hcbww_write(struct mei_device *dev, u32 data)
{
mei_me_reg_write(to_me_hw(dev), H_CB_WW, data);
}
/**
* mei_me_mecsr_read - Reads 32bit data from the ME CSR
*
* @hw: the me hardware structure
* @dev: the device structure
*
* Return: ME_CSR_HA register value (u32)
*/
static inline u32 mei_me_mecsr_read(const struct mei_me_hw *hw)
static inline u32 mei_me_mecsr_read(const struct mei_device *dev)
{
return mei_me_reg_read(hw, ME_CSR_HA);
return mei_me_reg_read(to_me_hw(dev), ME_CSR_HA);
}
/**
* mei_hcsr_read - Reads 32bit data from the host CSR
*
* @hw: the me hardware structure
* @dev: the device structure
*
* Return: H_CSR register value (u32)
*/
static inline u32 mei_hcsr_read(const struct mei_me_hw *hw)
static inline u32 mei_hcsr_read(const struct mei_device *dev)
{
return mei_me_reg_read(hw, H_CSR);
return mei_me_reg_read(to_me_hw(dev), H_CSR);
}
/**
* mei_hcsr_write - writes H_CSR register to the mei device
*
* @dev: the device structure
* @reg: new register value
*/
static inline void mei_hcsr_write(struct mei_device *dev, u32 reg)
{
mei_me_reg_write(to_me_hw(dev), H_CSR, reg);
}
/**
* mei_hcsr_set - writes H_CSR register to the mei device,
* and ignores the H_IS bit for it is write-one-to-zero.
*
* @hw: the me hardware structure
* @hcsr: new register value
* @dev: the device structure
* @reg: new register value
*/
static inline void mei_hcsr_set(struct mei_me_hw *hw, u32 hcsr)
static inline void mei_hcsr_set(struct mei_device *dev, u32 reg)
{
hcsr &= ~H_IS;
mei_me_reg_write(hw, H_CSR, hcsr);
reg &= ~H_IS;
mei_hcsr_write(dev, reg);
}
/**
......@@ -141,7 +164,7 @@ static int mei_me_fw_status(struct mei_device *dev,
static void mei_me_hw_config(struct mei_device *dev)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 hcsr = mei_hcsr_read(to_me_hw(dev));
u32 hcsr = mei_hcsr_read(dev);
/* Doesn't change in runtime */
dev->hbuf_depth = (hcsr & H_CBD) >> 24;
......@@ -170,11 +193,10 @@ static inline enum mei_pg_state mei_me_pg_state(struct mei_device *dev)
*/
static void mei_me_intr_clear(struct mei_device *dev)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 hcsr = mei_hcsr_read(hw);
u32 hcsr = mei_hcsr_read(dev);
if ((hcsr & H_IS) == H_IS)
mei_me_reg_write(hw, H_CSR, hcsr);
mei_hcsr_write(dev, hcsr);
}
/**
* mei_me_intr_enable - enables mei device interrupts
......@@ -183,11 +205,10 @@ static void mei_me_intr_clear(struct mei_device *dev)
*/
static void mei_me_intr_enable(struct mei_device *dev)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 hcsr = mei_hcsr_read(hw);
u32 hcsr = mei_hcsr_read(dev);
hcsr |= H_IE;
mei_hcsr_set(hw, hcsr);
mei_hcsr_set(dev, hcsr);
}
/**
......@@ -197,11 +218,10 @@ static void mei_me_intr_enable(struct mei_device *dev)
*/
static void mei_me_intr_disable(struct mei_device *dev)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 hcsr = mei_hcsr_read(hw);
u32 hcsr = mei_hcsr_read(dev);
hcsr &= ~H_IE;
mei_hcsr_set(hw, hcsr);
mei_hcsr_set(dev, hcsr);
}
/**
......@@ -211,12 +231,11 @@ static void mei_me_intr_disable(struct mei_device *dev)
*/
static void mei_me_hw_reset_release(struct mei_device *dev)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 hcsr = mei_hcsr_read(hw);
u32 hcsr = mei_hcsr_read(dev);
hcsr |= H_IG;
hcsr &= ~H_RST;
mei_hcsr_set(hw, hcsr);
mei_hcsr_set(dev, hcsr);
/* complete this write before we set host ready on another CPU */
mmiowb();
......@@ -231,8 +250,7 @@ static void mei_me_hw_reset_release(struct mei_device *dev)
*/
static int mei_me_hw_reset(struct mei_device *dev, bool intr_enable)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 hcsr = mei_hcsr_read(hw);
u32 hcsr = mei_hcsr_read(dev);
/* H_RST may be found lit before reset is started,
* for example if preceding reset flow hasn't completed.
......@@ -242,8 +260,8 @@ static int mei_me_hw_reset(struct mei_device *dev, bool intr_enable)
if ((hcsr & H_RST) == H_RST) {
dev_warn(dev->dev, "H_RST is set = 0x%08X", hcsr);
hcsr &= ~H_RST;
mei_hcsr_set(hw, hcsr);
hcsr = mei_hcsr_read(hw);
mei_hcsr_set(dev, hcsr);
hcsr = mei_hcsr_read(dev);
}
hcsr |= H_RST | H_IG | H_IS;
......@@ -254,13 +272,13 @@ static int mei_me_hw_reset(struct mei_device *dev, bool intr_enable)
hcsr &= ~H_IE;
dev->recvd_hw_ready = false;
mei_me_reg_write(hw, H_CSR, hcsr);
mei_hcsr_write(dev, hcsr);
/*
* Host reads the H_CSR once to ensure that the
* posted write to H_CSR completes.
*/
hcsr = mei_hcsr_read(hw);
hcsr = mei_hcsr_read(dev);
if ((hcsr & H_RST) == 0)
dev_warn(dev->dev, "H_RST is not set = 0x%08X", hcsr);
......@@ -281,11 +299,10 @@ static int mei_me_hw_reset(struct mei_device *dev, bool intr_enable)
*/
static void mei_me_host_set_ready(struct mei_device *dev)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 hcsr = mei_hcsr_read(hw);
u32 hcsr = mei_hcsr_read(dev);
hcsr |= H_IE | H_IG | H_RDY;
mei_hcsr_set(hw, hcsr);
mei_hcsr_set(dev, hcsr);
}
/**
......@@ -296,8 +313,7 @@ static void mei_me_host_set_ready(struct mei_device *dev)
*/
static bool mei_me_host_is_ready(struct mei_device *dev)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 hcsr = mei_hcsr_read(hw);
u32 hcsr = mei_hcsr_read(dev);
return (hcsr & H_RDY) == H_RDY;
}
......@@ -310,8 +326,7 @@ static bool mei_me_host_is_ready(struct mei_device *dev)
*/
static bool mei_me_hw_is_ready(struct mei_device *dev)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 mecsr = mei_me_mecsr_read(hw);
u32 mecsr = mei_me_mecsr_read(dev);
return (mecsr & ME_RDY_HRA) == ME_RDY_HRA;
}
......@@ -368,11 +383,10 @@ static int mei_me_hw_start(struct mei_device *dev)
*/
static unsigned char mei_hbuf_filled_slots(struct mei_device *dev)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 hcsr;
char read_ptr, write_ptr;
hcsr = mei_hcsr_read(hw);
hcsr = mei_hcsr_read(dev);
read_ptr = (char) ((hcsr & H_CBRP) >> 8);
write_ptr = (char) ((hcsr & H_CBWP) >> 16);
......@@ -439,7 +453,6 @@ static int mei_me_write_message(struct mei_device *dev,
struct mei_msg_hdr *header,
unsigned char *buf)
{
struct mei_me_hw *hw = to_me_hw(dev);
unsigned long rem;
unsigned long length = header->length;
u32 *reg_buf = (u32 *)buf;
......@@ -457,21 +470,21 @@ static int mei_me_write_message(struct mei_device *dev,
if (empty_slots < 0 || dw_cnt > empty_slots)
return -EMSGSIZE;
mei_me_reg_write(hw, H_CB_WW, *((u32 *) header));
mei_me_hcbww_write(dev, *((u32 *) header));
for (i = 0; i < length / 4; i++)
mei_me_reg_write(hw, H_CB_WW, reg_buf[i]);
mei_me_hcbww_write(dev, reg_buf[i]);
rem = length & 0x3;
if (rem > 0) {
u32 reg = 0;
memcpy(&reg, &buf[length - rem], rem);
mei_me_reg_write(hw, H_CB_WW, reg);
mei_me_hcbww_write(dev, reg);
}
hcsr = mei_hcsr_read(hw) | H_IG;
mei_hcsr_set(hw, hcsr);
hcsr = mei_hcsr_read(dev) | H_IG;
mei_hcsr_set(dev, hcsr);
if (!mei_me_hw_is_ready(dev))
return -EIO;
......@@ -487,12 +500,11 @@ static int mei_me_write_message(struct mei_device *dev,
*/
static int mei_me_count_full_read_slots(struct mei_device *dev)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 me_csr;
char read_ptr, write_ptr;
unsigned char buffer_depth, filled_slots;
me_csr = mei_me_mecsr_read(hw);
me_csr = mei_me_mecsr_read(dev);
buffer_depth = (unsigned char)((me_csr & ME_CBD_HRA) >> 24);
read_ptr = (char) ((me_csr & ME_CBRP_HRA) >> 8);
write_ptr = (char) ((me_csr & ME_CBWP_HRA) >> 16);
......@@ -518,7 +530,6 @@ static int mei_me_count_full_read_slots(struct mei_device *dev)
static int mei_me_read_slots(struct mei_device *dev, unsigned char *buffer,
unsigned long buffer_length)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 *reg_buf = (u32 *)buffer;
u32 hcsr;
......@@ -531,8 +542,8 @@ static int mei_me_read_slots(struct mei_device *dev, unsigned char *buffer,
memcpy(reg_buf, &reg, buffer_length);
}
hcsr = mei_hcsr_read(hw) | H_IG;
mei_hcsr_set(hw, hcsr);
hcsr = mei_hcsr_read(dev) | H_IG;
mei_hcsr_set(dev, hcsr);
return 0;
}
......@@ -649,8 +660,7 @@ int mei_me_pg_unset_sync(struct mei_device *dev)
*/
static bool mei_me_pg_is_enabled(struct mei_device *dev)
{
struct mei_me_hw *hw = to_me_hw(dev);
u32 reg = mei_me_reg_read(hw, ME_CSR_HA);
u32 reg = mei_me_mecsr_read(dev);
if ((reg & ME_PGIC_HRA) == 0)
goto notsupported;
......@@ -683,14 +693,13 @@ static bool mei_me_pg_is_enabled(struct mei_device *dev)
irqreturn_t mei_me_irq_quick_handler(int irq, void *dev_id)
{
struct mei_device *dev = (struct mei_device *) dev_id;
struct mei_me_hw *hw = to_me_hw(dev);
u32 csr_reg = mei_hcsr_read(hw);
u32 hcsr = mei_hcsr_read(dev);
if ((csr_reg & H_IS) != H_IS)
if ((hcsr & H_IS) != H_IS)
return IRQ_NONE;
/* clear H_IS bit in H_CSR */
mei_me_reg_write(hw, H_CSR, csr_reg);
mei_hcsr_write(dev, hcsr);
return IRQ_WAKE_THREAD;
}
......
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