Commit 5d147e73 authored by Edmund Nadolski's avatar Edmund Nadolski Committed by Dan Williams

isci: remove scic_controller_get_handler_methods and ilk

This removes scic_controller_get_handler_methods and its
associated unused code.
Signed-off-by: default avatarEdmund Nadolski <edmund.nadolski@intel.com>
[djbw: kill off the legacy handler, now that we have basic error isr support]
Signed-off-by: default avatarDan Williams <dan.j.williams@intel.com>
parent 83f5eeef
...@@ -80,62 +80,6 @@ enum sci_controller_mode { ...@@ -80,62 +80,6 @@ enum sci_controller_mode {
}; };
/**
* enum _SCIC_INTERRUPT_TYPE - This enumeration depicts the various types of
* interrupts that are potentially supported by a SCI Core implementation.
*
*
*/
enum scic_interrupt_type {
SCIC_LEGACY_LINE_INTERRUPT_TYPE,
SCIC_MSIX_INTERRUPT_TYPE,
/**
* This enumeration value indicates the use of polling.
*/
SCIC_NO_INTERRUPTS
};
/**
* This method is called by the SCI user in order to have the SCI
* implementation handle the interrupt. This method performs minimal
* processing to allow for streamlined interrupt time usage.
*
* SCIC_CONTROLLER_INTERRUPT_HANDLER true: returned if there is an interrupt to
* process and it was processed. false: returned if no interrupt was processed.
*/
typedef bool (*SCIC_CONTROLLER_INTERRUPT_HANDLER)(
struct scic_sds_controller *controller
);
/**
* This method is called by the SCI user to process completions generated as a
* result of a previously handled interrupt. This method will result in the
* completion of IO requests and handling of other controller generated
* events. This method should be called some time after the interrupt
* handler.
*
* Most, if not all, of the user callback APIs are invoked from within this
* API. As a result, the user should be cognizent of the operating level at
* which they invoke this API.
*/
typedef void (*SCIC_CONTROLLER_COMPLETION_HANDLER)(
struct scic_sds_controller *controller
);
/**
* struct scic_controller_handler_methods - This structure contains an
* interrupt handler and completion handler function pointers.
*
*
*/
struct scic_controller_handler_methods {
SCIC_CONTROLLER_INTERRUPT_HANDLER interrupt_handler;
SCIC_CONTROLLER_COMPLETION_HANDLER completion_handler;
};
/** /**
* scic_controller_construct() - This method will attempt to construct a * scic_controller_construct() - This method will attempt to construct a
* controller object utilizing the supplied parameter information. * controller object utilizing the supplied parameter information.
...@@ -176,47 +120,6 @@ void scic_controller_enable_interrupts( ...@@ -176,47 +120,6 @@ void scic_controller_enable_interrupts(
void scic_controller_disable_interrupts( void scic_controller_disable_interrupts(
struct scic_sds_controller *controller); struct scic_sds_controller *controller);
/**
* scic_controller_get_handler_methods() - This method will return provide
* function pointers for the interrupt handler and completion handler. The
* interrupt handler is expected to be invoked at interrupt time. The
* completion handler is scheduled to run as a result of the interrupt
* handler. The completion handler performs the bulk work for processing
* silicon events.
* @interrupt_type: This parameter informs the core which type of
* interrupt/completion methods are being requested. These are the types:
* SCIC_LEGACY_LINE_INTERRUPT_TYPE, SCIC_MSIX_INTERRUPT_TYPE,
* SCIC_NO_INTERRUPTS (POLLING)
* @message_count: This parameter informs the core the number of MSI-X messages
* to be utilized. This parameter must be 0 when requesting legacy line
* based handlers.
* @handler_methods: The caller provides a pointer to a buffer of type
* struct scic_controller_handler_methods. The size depends on the combination of
* the interrupt_type and message_count input parameters:
* SCIC_LEGACY_LINE_INTERRUPT_TYPE: - size =
* sizeof(struct scic_controller_handler_methods) SCIC_MSIX_INTERRUPT_TYPE:
* sizeof(struct scic_controller_handler_methods)
* @handler_methods: SCIC fills out the caller's buffer with the appropriate
* interrupt and completion handlers based on the info provided in the
* interrupt_type and message_count input parameters. For
* SCIC_LEGACY_LINE_INTERRUPT_TYPE, the buffer receives a single
* struct scic_controller_handler_methods element regardless that the
* message_count parameter is zero. For SCIC_MSIX_INTERRUPT_TYPE, the buffer
* receives an array of elements of type struct scic_controller_handler_methods
* where the array size is equivalent to the message_count parameter. The
* array is zero-relative where entry zero corresponds to message-vector
* zero, entry one corresponds to message-vector one, and so forth.
*
* Indicate if the handler retrieval operation was successful. SCI_SUCCESS This
* value is returned if retrieval succeeded.
* SCI_FAILURE_UNSUPPORTED_MESSAGE_COUNT This value is returned if the user
* supplied an unsupported number of MSI-X messages. For legacy line interrupts
* the only valid value is 0.
*/
enum sci_status scic_controller_get_handler_methods(
enum scic_interrupt_type interrupt_type,
u16 message_count,
struct scic_controller_handler_methods *handler_methods);
/** /**
* scic_controller_initialize() - This method will initialize the controller * scic_controller_initialize() - This method will initialize the controller
......
...@@ -1564,340 +1564,6 @@ static void scic_sds_controller_process_completions( ...@@ -1564,340 +1564,6 @@ static void scic_sds_controller_process_completions(
} }
/**
* This method is a private routine for processing the completion queue entries.
* @this_controller:
*
*/
static void scic_sds_controller_transitioned_process_completions(
struct scic_sds_controller *this_controller)
{
u32 completion_count = 0;
u32 completion_entry;
u32 get_index;
u32 get_cycle;
u32 event_index;
u32 event_cycle;
dev_dbg(scic_to_dev(this_controller),
"%s: completion queue begining get:0x%08x\n",
__func__,
this_controller->completion_queue_get);
/* Get the component parts of the completion queue */
get_index = NORMALIZE_GET_POINTER(this_controller->completion_queue_get);
get_cycle = SMU_CQGR_CYCLE_BIT & this_controller->completion_queue_get;
event_index = NORMALIZE_EVENT_POINTER(this_controller->completion_queue_get);
event_cycle = SMU_CQGR_EVENT_CYCLE_BIT & this_controller->completion_queue_get;
while (
NORMALIZE_GET_POINTER_CYCLE_BIT(get_cycle)
== COMPLETION_QUEUE_CYCLE_BIT(
this_controller->completion_queue[get_index])
) {
completion_count++;
completion_entry = this_controller->completion_queue[get_index];
INCREMENT_COMPLETION_QUEUE_GET(this_controller, get_index, get_cycle);
dev_dbg(scic_to_dev(this_controller),
"%s: completion queue entry:0x%08x\n",
__func__,
completion_entry);
switch (SCU_GET_COMPLETION_TYPE(completion_entry)) {
case SCU_COMPLETION_TYPE_TASK:
scic_sds_controller_task_completion(this_controller, completion_entry);
break;
case SCU_COMPLETION_TYPE_NOTIFY:
case SCU_COMPLETION_TYPE_EVENT:
/*
* Presently we do the same thing with a notify event that we
* do with the other event codes. */
INCREMENT_EVENT_QUEUE_GET(this_controller, event_index, event_cycle);
/* Fall-through */
case SCU_COMPLETION_TYPE_SDMA:
case SCU_COMPLETION_TYPE_UFI:
default:
dev_warn(scic_to_dev(this_controller),
"%s: SCIC Controller ignoring completion type "
"%x\n",
__func__,
completion_entry);
break;
}
}
/* Update the get register if we completed one or more entries */
if (completion_count > 0) {
this_controller->completion_queue_get =
SMU_CQGR_GEN_BIT(ENABLE)
| SMU_CQGR_GEN_BIT(EVENT_ENABLE)
| event_cycle | SMU_CQGR_GEN_VAL(EVENT_POINTER, event_index)
| get_cycle | SMU_CQGR_GEN_VAL(POINTER, get_index);
SMU_CQGR_WRITE(this_controller, this_controller->completion_queue_get);
}
dev_dbg(scic_to_dev(this_controller),
"%s: completion queue ending get:0x%08x\n",
__func__,
this_controller->completion_queue_get);
}
/*
* ****************************************************************************-
* * SCIC SDS Controller Interrupt and Completion functions
* ****************************************************************************- */
/**
* This method provides standard (common) processing of interrupts for polling
* and legacy based interrupts.
* @controller:
* @interrupt_status:
*
* This method returns a boolean (bool) indication as to whether an completions
* are pending to be processed. true if an interrupt is to be processed false
* if no interrupt was pending
*/
static bool scic_sds_controller_standard_interrupt_handler(
struct scic_sds_controller *this_controller,
u32 interrupt_status)
{
bool is_completion_needed = false;
if ((interrupt_status & SMU_ISR_QUEUE_ERROR) ||
((interrupt_status & SMU_ISR_QUEUE_SUSPEND) &&
(!scic_sds_controller_completion_queue_has_entries(
this_controller)))) {
/*
* We have a fatal error on the read of the completion queue bar
* OR
* We have a fatal error there is nothing in the completion queue
* but we have a report from the hardware that the queue is full
* / @todo how do we request the a controller reset */
is_completion_needed = true;
this_controller->encountered_fatal_error = true;
}
if (scic_sds_controller_completion_queue_has_entries(this_controller)) {
is_completion_needed = true;
}
return is_completion_needed;
}
/**
* This is the method provided to handle polling for interrupts for the
* controller object.
*
* bool true if an interrupt is to be processed false if no interrupt was
* pending
*/
static bool scic_sds_controller_polling_interrupt_handler(
struct scic_sds_controller *scic)
{
u32 interrupt_status;
/*
* In INTERRUPT_POLLING_MODE we exit the interrupt handler if the
* hardware indicates nothing is pending. Since we are not being
* called from a real interrupt, we don't want to confuse the hardware
* by servicing the completion queue before the hardware indicates it
* is ready. We'll simply wait for another polling interval and check
* again.
*/
interrupt_status = SMU_ISR_READ(scic);
if ((interrupt_status &
(SMU_ISR_COMPLETION |
SMU_ISR_QUEUE_ERROR |
SMU_ISR_QUEUE_SUSPEND)) == 0) {
return false;
}
return scic_sds_controller_standard_interrupt_handler(
scic, interrupt_status);
}
/**
* This is the method provided to handle completions when interrupt polling is
* in use.
*/
static void scic_sds_controller_polling_completion_handler(
struct scic_sds_controller *scic)
{
if (scic->encountered_fatal_error == true) {
dev_err(scic_to_dev(scic),
"%s: SCIC Controller has encountered a fatal error.\n",
__func__);
sci_base_state_machine_change_state(
scic_sds_controller_get_base_state_machine(scic),
SCI_BASE_CONTROLLER_STATE_FAILED);
} else if (scic_sds_controller_completion_queue_has_entries(scic)) {
if (scic->restrict_completions == false)
scic_sds_controller_process_completions(scic);
else
scic_sds_controller_transitioned_process_completions(
scic);
}
/*
* The interrupt handler does not adjust the CQ's
* get pointer. So, SCU's INTx pin stays asserted during the
* interrupt handler even though it tries to clear the interrupt
* source. Therefore, the completion handler must ensure that the
* interrupt source is cleared. Otherwise, we get a spurious
* interrupt for which the interrupt handler will not issue a
* corresponding completion event. Also, we unmask interrupts.
*/
SMU_ISR_WRITE(
scic,
(u32)(SMU_ISR_COMPLETION | SMU_ISR_QUEUE_ERROR | SMU_ISR_QUEUE_SUSPEND)
);
}
/**
* This is the method provided to handle legacy interrupts for the controller
* object.
*
* bool true if an interrupt is processed false if no interrupt was processed
*/
static bool scic_sds_controller_legacy_interrupt_handler(
struct scic_sds_controller *scic)
{
u32 interrupt_status;
bool is_completion_needed;
interrupt_status = SMU_ISR_READ(scic);
is_completion_needed = scic_sds_controller_standard_interrupt_handler(
scic, interrupt_status);
return is_completion_needed;
}
/**
* This is the method provided to handle legacy completions it is expected that
* the SCI User will call this completion handler anytime the interrupt
* handler reports that it has handled an interrupt.
*/
static void scic_sds_controller_legacy_completion_handler(
struct scic_sds_controller *scic)
{
scic_sds_controller_polling_completion_handler(scic);
SMU_IMR_WRITE(scic, 0x00000000);
}
/**
* This is the method provided to handle an MSIX interrupt message when there
* is just a single MSIX message being provided by the hardware. This mode
* of operation is single vector mode.
*
* bool true if an interrupt is processed false if no interrupt was processed
*/
static bool scic_sds_controller_single_vector_interrupt_handler(
struct scic_sds_controller *scic)
{
u32 interrupt_status;
/*
* Mask the interrupts
* There is a race in the hardware that could cause us not to be notified
* of an interrupt completion if we do not take this step. We will unmask
* the interrupts in the completion routine. */
SMU_IMR_WRITE(scic, 0xFFFFFFFF);
interrupt_status = SMU_ISR_READ(scic);
interrupt_status &= (SMU_ISR_QUEUE_ERROR | SMU_ISR_QUEUE_SUSPEND);
if ((interrupt_status == 0) &&
scic_sds_controller_completion_queue_has_entries(scic)) {
/*
* There is at least one completion queue entry to process so we can
* return a success and ignore for now the case of an error interrupt */
SMU_ISR_WRITE(scic, SMU_ISR_COMPLETION);
return true;
}
if (interrupt_status != 0) {
/*
* There is an error interrupt pending so let it through and handle
* in the callback */
return true;
}
/*
* Clear any offending interrupts since we could not find any to handle
* and unmask them all */
SMU_ISR_WRITE(scic, 0x00000000);
SMU_IMR_WRITE(scic, 0x00000000);
return false;
}
/**
* This is the method provided to handle completions for a single MSIX message.
*/
static void scic_sds_controller_single_vector_completion_handler(
struct scic_sds_controller *scic)
{
u32 interrupt_status;
interrupt_status = SMU_ISR_READ(scic);
interrupt_status &= (SMU_ISR_QUEUE_ERROR | SMU_ISR_QUEUE_SUSPEND);
if (interrupt_status & SMU_ISR_QUEUE_ERROR) {
dev_err(scic_to_dev(scic),
"%s: SCIC Controller has encountered a fatal error.\n",
__func__);
/*
* We have a fatal condition and must reset the controller
* Leave the interrupt mask in place and get the controller reset */
sci_base_state_machine_change_state(
scic_sds_controller_get_base_state_machine(scic),
SCI_BASE_CONTROLLER_STATE_FAILED);
return;
}
if ((interrupt_status & SMU_ISR_QUEUE_SUSPEND) &&
!scic_sds_controller_completion_queue_has_entries(scic)) {
dev_err(scic_to_dev(scic),
"%s: SCIC Controller has encountered a fatal error.\n",
__func__);
/*
* We have a fatal condtion and must reset the controller
* Leave the interrupt mask in place and get the controller reset */
sci_base_state_machine_change_state(
scic_sds_controller_get_base_state_machine(scic),
SCI_BASE_CONTROLLER_STATE_FAILED);
return;
}
if (scic_sds_controller_completion_queue_has_entries(scic)) {
scic_sds_controller_process_completions(scic);
/*
* We dont care which interrupt got us to processing the completion queu
* so clear them both. */
SMU_ISR_WRITE(
scic,
(SMU_ISR_COMPLETION | SMU_ISR_QUEUE_SUSPEND));
}
SMU_IMR_WRITE(scic, 0x00000000);
}
/**
* This is the method provided to handle a MSIX message for a normal completion.
*
* bool true if an interrupt is processed false if no interrupt was processed
*/
bool scic_sds_controller_isr(struct scic_sds_controller *scic) bool scic_sds_controller_isr(struct scic_sds_controller *scic)
{ {
if (scic_sds_controller_completion_queue_has_entries(scic)) { if (scic_sds_controller_completion_queue_has_entries(scic)) {
...@@ -1920,10 +1586,6 @@ bool scic_sds_controller_isr(struct scic_sds_controller *scic) ...@@ -1920,10 +1586,6 @@ bool scic_sds_controller_isr(struct scic_sds_controller *scic)
return false; return false;
} }
/**
* This is the method provided to handle the completions for a normal MSIX
* message.
*/
void scic_sds_controller_completion_handler(struct scic_sds_controller *scic) void scic_sds_controller_completion_handler(struct scic_sds_controller *scic)
{ {
/* Empty out the completion queue */ /* Empty out the completion queue */
...@@ -1994,14 +1656,6 @@ void scic_sds_controller_error_handler(struct scic_sds_controller *scic) ...@@ -1994,14 +1656,6 @@ void scic_sds_controller_error_handler(struct scic_sds_controller *scic)
} }
/*
* ****************************************************************************-
* * SCIC SDS Controller External Methods
* ****************************************************************************- */
/**
* This method returns the sizeof the SCIC SDS Controller Object
*/
u32 scic_sds_controller_get_object_size(void) u32 scic_sds_controller_get_object_size(void)
{ {
return sizeof(struct scic_sds_controller); return sizeof(struct scic_sds_controller);
...@@ -2535,72 +2189,6 @@ enum sci_status scic_controller_reset( ...@@ -2535,72 +2189,6 @@ enum sci_status scic_controller_reset(
return status; return status;
} }
/* --------------------------------------------------------------------------- */
enum sci_status scic_controller_get_handler_methods(
enum scic_interrupt_type interrupt_type,
u16 message_count,
struct scic_controller_handler_methods *handler_methods)
{
enum sci_status status = SCI_FAILURE_UNSUPPORTED_MESSAGE_COUNT;
switch (interrupt_type) {
case SCIC_LEGACY_LINE_INTERRUPT_TYPE:
if (message_count == 0) {
handler_methods[0].interrupt_handler
= scic_sds_controller_legacy_interrupt_handler;
handler_methods[0].completion_handler
= scic_sds_controller_legacy_completion_handler;
status = SCI_SUCCESS;
}
break;
case SCIC_MSIX_INTERRUPT_TYPE:
if (message_count == 1) {
handler_methods[0].interrupt_handler
= scic_sds_controller_single_vector_interrupt_handler;
handler_methods[0].completion_handler
= scic_sds_controller_single_vector_completion_handler;
status = SCI_SUCCESS;
} else if (message_count == 2) {
handler_methods[0].interrupt_handler
= scic_sds_controller_isr;
handler_methods[0].completion_handler
= scic_sds_controller_completion_handler;
handler_methods[1].interrupt_handler
= scic_sds_controller_error_isr;
handler_methods[1].completion_handler
= scic_sds_controller_error_handler;
status = SCI_SUCCESS;
}
break;
case SCIC_NO_INTERRUPTS:
if (message_count == 0) {
handler_methods[0].interrupt_handler
= scic_sds_controller_polling_interrupt_handler;
handler_methods[0].completion_handler
= scic_sds_controller_polling_completion_handler;
status = SCI_SUCCESS;
}
break;
default:
status = SCI_FAILURE_INVALID_PARAMETER_VALUE;
break;
}
return status;
}
/* --------------------------------------------------------------------------- */
enum sci_io_status scic_controller_start_io( enum sci_io_status scic_controller_start_io(
struct scic_sds_controller *scic, struct scic_sds_controller *scic,
struct scic_sds_remote_device *remote_device, struct scic_sds_remote_device *remote_device,
......
...@@ -335,19 +335,6 @@ struct scic_sds_controller { ...@@ -335,19 +335,6 @@ struct scic_sds_controller {
*/ */
struct scic_sds_unsolicited_frame_control uf_control; struct scic_sds_unsolicited_frame_control uf_control;
/**
* This field records the fact that the controller has encountered a fatal
* error and must be reset.
*/
bool encountered_fatal_error;
/**
* This field specifies that the controller should ignore
* completion processing for non-fastpath events. This will
* cause the completions to be thrown away.
*/
bool restrict_completions;
/* Phy Startup Data */ /* Phy Startup Data */
/** /**
* This field is the driver timer handle for controller phy request startup. * This field is the driver timer handle for controller phy request startup.
......
...@@ -86,9 +86,8 @@ struct scic_sds_controller; ...@@ -86,9 +86,8 @@ struct scic_sds_controller;
* occurs for the created timer. * occurs for the created timer.
* *
* The "timer_callback" method should be executed in a mutually exlusive manner * The "timer_callback" method should be executed in a mutually exlusive manner
* from the controller completion handler handler (refer to * from the controller completion handler handler. This method returns a handle
* scic_controller_get_handler_methods()). This method returns a handle to a * to a timer object created by the user. The handle will be utilized for all
* timer object created by the user. The handle will be utilized for all
* further interactions relating to this timer. * further interactions relating to this timer.
*/ */
void *scic_cb_timer_create( void *scic_cb_timer_create(
......
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