Commit 7c78da31 authored by Dan Williams's avatar Dan Williams

isci: remove 'min memory' infrastructure

The old 'core' had aspirations of running in severely memory constrained
environments like bios option-rom, it's not needed for Linux and gets in
the way of other cleanups (like unifying/reducing the number of structure
members in scic_sds_controller/isci_host).

This also fixes a theoretical bug in that the driver would blindly override
the silicon advertised limits for number of ports, task contexts, and remote
node contexts.
Signed-off-by: default avatarDan Williams <dan.j.williams@intel.com>
parent dbb0743a
...@@ -70,46 +70,24 @@ ...@@ -70,46 +70,24 @@
#define SCU_CONTEXT_RAM_INIT_STALL_TIME 200 #define SCU_CONTEXT_RAM_INIT_STALL_TIME 200
/** #define smu_max_ports(dcc_value) \
* smu_dcc_get_max_ports() -
*
* This macro returns the maximum number of logical ports supported by the
* hardware. The caller passes in the value read from the device context
* capacity register and this macro will mash and shift the value appropriately.
*/
#define smu_dcc_get_max_ports(dcc_value) \
(\ (\
(((dcc_value) & SMU_DEVICE_CONTEXT_CAPACITY_MAX_LP_MASK) \ (((dcc_value) & SMU_DEVICE_CONTEXT_CAPACITY_MAX_LP_MASK) \
>> SMU_DEVICE_CONTEXT_CAPACITY_MAX_LP_SHIFT) + 1 \ >> SMU_DEVICE_CONTEXT_CAPACITY_MAX_LP_SHIFT) + 1 \
) )
/** #define smu_max_task_contexts(dcc_value) \
* smu_dcc_get_max_task_context() -
*
* This macro returns the maximum number of task contexts supported by the
* hardware. The caller passes in the value read from the device context
* capacity register and this macro will mash and shift the value appropriately.
*/
#define smu_dcc_get_max_task_context(dcc_value) \
(\ (\
(((dcc_value) & SMU_DEVICE_CONTEXT_CAPACITY_MAX_TC_MASK) \ (((dcc_value) & SMU_DEVICE_CONTEXT_CAPACITY_MAX_TC_MASK) \
>> SMU_DEVICE_CONTEXT_CAPACITY_MAX_TC_SHIFT) + 1 \ >> SMU_DEVICE_CONTEXT_CAPACITY_MAX_TC_SHIFT) + 1 \
) )
/** #define smu_max_rncs(dcc_value) \
* smu_dcc_get_max_remote_node_context() -
*
* This macro returns the maximum number of remote node contexts supported by
* the hardware. The caller passes in the value read from the device context
* capacity register and this macro will mash and shift the value appropriately.
*/
#define smu_dcc_get_max_remote_node_context(dcc_value) \
(\ (\
(((dcc_value) & SMU_DEVICE_CONTEXT_CAPACITY_MAX_RNC_MASK) \ (((dcc_value) & SMU_DEVICE_CONTEXT_CAPACITY_MAX_RNC_MASK) \
>> SMU_DEVICE_CONTEXT_CAPACITY_MAX_RNC_SHIFT) + 1 \ >> SMU_DEVICE_CONTEXT_CAPACITY_MAX_RNC_SHIFT) + 1 \
) )
#define SCIC_SDS_CONTROLLER_PHY_START_TIMEOUT 100 #define SCIC_SDS_CONTROLLER_PHY_START_TIMEOUT 100
/** /**
...@@ -153,9 +131,8 @@ ...@@ -153,9 +131,8 @@
INCREMENT_QUEUE_GET(\ INCREMENT_QUEUE_GET(\
(index), \ (index), \
(cycle), \ (cycle), \
(controller)->completion_queue_entries, \ SCU_MAX_COMPLETION_QUEUE_ENTRIES, \
SMU_CQGR_CYCLE_BIT \ SMU_CQGR_CYCLE_BIT)
)
/** /**
* INCREMENT_EVENT_QUEUE_GET() - * INCREMENT_EVENT_QUEUE_GET() -
...@@ -167,7 +144,7 @@ ...@@ -167,7 +144,7 @@
INCREMENT_QUEUE_GET(\ INCREMENT_QUEUE_GET(\
(index), \ (index), \
(cycle), \ (cycle), \
(controller)->completion_event_entries, \ SCU_MAX_EVENTS, \
SMU_CQGR_EVENT_CYCLE_BIT \ SMU_CQGR_EVENT_CYCLE_BIT \
) )
...@@ -843,10 +820,9 @@ static void scic_sds_controller_initialize_completion_queue(struct scic_sds_cont ...@@ -843,10 +820,9 @@ static void scic_sds_controller_initialize_completion_queue(struct scic_sds_cont
scic->completion_queue_get = 0; scic->completion_queue_get = 0;
completion_queue_control_value = ( completion_queue_control_value =
SMU_CQC_QUEUE_LIMIT_SET(scic->completion_queue_entries - 1) (SMU_CQC_QUEUE_LIMIT_SET(SCU_MAX_COMPLETION_QUEUE_ENTRIES - 1) |
| SMU_CQC_EVENT_LIMIT_SET(scic->completion_event_entries - 1) SMU_CQC_EVENT_LIMIT_SET(SCU_MAX_EVENTS - 1));
);
writel(completion_queue_control_value, writel(completion_queue_control_value,
&scic->smu_registers->completion_queue_control); &scic->smu_registers->completion_queue_control);
...@@ -873,7 +849,7 @@ static void scic_sds_controller_initialize_completion_queue(struct scic_sds_cont ...@@ -873,7 +849,7 @@ static void scic_sds_controller_initialize_completion_queue(struct scic_sds_cont
&scic->smu_registers->completion_queue_put); &scic->smu_registers->completion_queue_put);
/* Initialize the cycle bit of the completion queue entries */ /* Initialize the cycle bit of the completion queue entries */
for (index = 0; index < scic->completion_queue_entries; index++) { for (index = 0; index < SCU_MAX_COMPLETION_QUEUE_ENTRIES; index++) {
/* /*
* If get.cycle_bit != completion_queue.cycle_bit * If get.cycle_bit != completion_queue.cycle_bit
* its not a valid completion queue entry * its not a valid completion queue entry
...@@ -890,8 +866,7 @@ static void scic_sds_controller_initialize_unsolicited_frame_queue(struct scic_s ...@@ -890,8 +866,7 @@ static void scic_sds_controller_initialize_unsolicited_frame_queue(struct scic_s
/* Write the queue size */ /* Write the queue size */
frame_queue_control_value = frame_queue_control_value =
SCU_UFQC_GEN_VAL(QUEUE_SIZE, SCU_UFQC_GEN_VAL(QUEUE_SIZE, SCU_MAX_UNSOLICITED_FRAMES);
scic->uf_control.address_table.count);
writel(frame_queue_control_value, writel(frame_queue_control_value,
&scic->scu_registers->sdma.unsolicited_frame_queue_control); &scic->scu_registers->sdma.unsolicited_frame_queue_control);
...@@ -1863,15 +1838,6 @@ static enum sci_status scic_controller_construct(struct scic_sds_controller *sci ...@@ -1863,15 +1838,6 @@ static enum sci_status scic_controller_construct(struct scic_sds_controller *sci
sci_init_timer(&scic->timer, controller_timeout); sci_init_timer(&scic->timer, controller_timeout);
/* Set the default maximum values */
scic->completion_event_entries = SCU_EVENT_COUNT;
scic->completion_queue_entries = SCU_COMPLETION_QUEUE_COUNT;
scic->remote_node_entries = SCI_MAX_REMOTE_DEVICES;
scic->logical_port_entries = SCI_MAX_PORTS;
scic->task_context_entries = SCU_IO_REQUEST_COUNT;
scic->uf_control.buffers.count = SCU_UNSOLICITED_FRAME_COUNT;
scic->uf_control.address_table.count = SCU_UNSOLICITED_FRAME_COUNT;
/* Initialize the User and OEM parameters to default values. */ /* Initialize the User and OEM parameters to default values. */
scic_sds_controller_set_default_config_parameters(scic); scic_sds_controller_set_default_config_parameters(scic);
...@@ -2207,44 +2173,6 @@ static void scic_sds_controller_afe_initialization(struct scic_sds_controller *s ...@@ -2207,44 +2173,6 @@ static void scic_sds_controller_afe_initialization(struct scic_sds_controller *s
udelay(AFE_REGISTER_WRITE_DELAY); udelay(AFE_REGISTER_WRITE_DELAY);
} }
static enum sci_status scic_controller_set_mode(struct scic_sds_controller *scic,
enum sci_controller_mode operating_mode)
{
enum sci_status status = SCI_SUCCESS;
if ((scic->sm.current_state_id == SCIC_INITIALIZING) ||
(scic->sm.current_state_id == SCIC_INITIALIZED)) {
switch (operating_mode) {
case SCI_MODE_SPEED:
scic->remote_node_entries = SCI_MAX_REMOTE_DEVICES;
scic->task_context_entries = SCU_IO_REQUEST_COUNT;
scic->uf_control.buffers.count =
SCU_UNSOLICITED_FRAME_COUNT;
scic->completion_event_entries = SCU_EVENT_COUNT;
scic->completion_queue_entries =
SCU_COMPLETION_QUEUE_COUNT;
break;
case SCI_MODE_SIZE:
scic->remote_node_entries = SCI_MIN_REMOTE_DEVICES;
scic->task_context_entries = SCI_MIN_IO_REQUESTS;
scic->uf_control.buffers.count =
SCU_MIN_UNSOLICITED_FRAMES;
scic->completion_event_entries = SCU_MIN_EVENTS;
scic->completion_queue_entries =
SCU_MIN_COMPLETION_QUEUE_ENTRIES;
break;
default:
status = SCI_FAILURE_INVALID_PARAMETER_VALUE;
break;
}
} else
status = SCI_FAILURE_INVALID_STATE;
return status;
}
static void scic_sds_controller_initialize_power_control(struct scic_sds_controller *scic) static void scic_sds_controller_initialize_power_control(struct scic_sds_controller *scic)
{ {
sci_init_timer(&scic->power_control.timer, power_control_timeout); sci_init_timer(&scic->power_control.timer, power_control_timeout);
...@@ -2259,9 +2187,9 @@ static void scic_sds_controller_initialize_power_control(struct scic_sds_control ...@@ -2259,9 +2187,9 @@ static void scic_sds_controller_initialize_power_control(struct scic_sds_control
static enum sci_status scic_controller_initialize(struct scic_sds_controller *scic) static enum sci_status scic_controller_initialize(struct scic_sds_controller *scic)
{ {
struct sci_base_state_machine *sm = &scic->sm; struct sci_base_state_machine *sm = &scic->sm;
enum sci_status result = SCI_SUCCESS;
struct isci_host *ihost = scic_to_ihost(scic); struct isci_host *ihost = scic_to_ihost(scic);
u32 index, state; enum sci_status result = SCI_FAILURE;
unsigned long i, state, val;
if (scic->sm.current_state_id != SCIC_RESET) { if (scic->sm.current_state_id != SCIC_RESET) {
dev_warn(scic_to_dev(scic), dev_warn(scic_to_dev(scic),
...@@ -2286,9 +2214,6 @@ static enum sci_status scic_controller_initialize(struct scic_sds_controller *sc ...@@ -2286,9 +2214,6 @@ static enum sci_status scic_controller_initialize(struct scic_sds_controller *sc
* / presently they seem to be wrong. */ * / presently they seem to be wrong. */
scic_sds_controller_afe_initialization(scic); scic_sds_controller_afe_initialization(scic);
if (result == SCI_SUCCESS) {
u32 status;
u32 terminate_loop;
/* Take the hardware out of reset */ /* Take the hardware out of reset */
writel(0, &scic->smu_registers->soft_reset_control); writel(0, &scic->smu_registers->soft_reset_control);
...@@ -2296,123 +2221,74 @@ static enum sci_status scic_controller_initialize(struct scic_sds_controller *sc ...@@ -2296,123 +2221,74 @@ static enum sci_status scic_controller_initialize(struct scic_sds_controller *sc
/* /*
* / @todo Provide meaningfull error code for hardware failure * / @todo Provide meaningfull error code for hardware failure
* result = SCI_FAILURE_CONTROLLER_HARDWARE; */ * result = SCI_FAILURE_CONTROLLER_HARDWARE; */
result = SCI_FAILURE; for (i = 100; i >= 1; i--) {
terminate_loop = 100; u32 status;
while (terminate_loop-- && (result != SCI_SUCCESS)) {
/* Loop until the hardware reports success */ /* Loop until the hardware reports success */
udelay(SCU_CONTEXT_RAM_INIT_STALL_TIME); udelay(SCU_CONTEXT_RAM_INIT_STALL_TIME);
status = readl(&scic->smu_registers->control_status); status = readl(&scic->smu_registers->control_status);
if ((status & SCU_RAM_INIT_COMPLETED) == if ((status & SCU_RAM_INIT_COMPLETED) == SCU_RAM_INIT_COMPLETED)
SCU_RAM_INIT_COMPLETED) break;
result = SCI_SUCCESS;
}
} }
if (i == 0)
if (result == SCI_SUCCESS) { goto out;
u32 max_supported_ports;
u32 max_supported_devices;
u32 max_supported_io_requests;
u32 device_context_capacity;
/* /*
* Determine what are the actaul device capacities that the * Determine what are the actaul device capacities that the
* hardware will support */ * hardware will support */
device_context_capacity = val = readl(&scic->smu_registers->device_context_capacity);
readl(&scic->smu_registers->device_context_capacity);
max_supported_ports = smu_dcc_get_max_ports(device_context_capacity); /* Record the smaller of the two capacity values */
max_supported_devices = smu_dcc_get_max_remote_node_context(device_context_capacity); scic->logical_port_entries = min(smu_max_ports(val), SCI_MAX_PORTS);
max_supported_io_requests = smu_dcc_get_max_task_context(device_context_capacity); scic->task_context_entries = min(smu_max_task_contexts(val), SCI_MAX_IO_REQUESTS);
scic->remote_node_entries = min(smu_max_rncs(val), SCI_MAX_REMOTE_DEVICES);
/* /*
* Make all PEs that are unassigned match up with the * Make all PEs that are unassigned match up with the
* logical ports * logical ports
*/ */
for (index = 0; index < max_supported_ports; index++) { for (i = 0; i < scic->logical_port_entries; i++) {
struct scu_port_task_scheduler_group_registers __iomem struct scu_port_task_scheduler_group_registers __iomem
*ptsg = &scic->scu_registers->peg0.ptsg; *ptsg = &scic->scu_registers->peg0.ptsg;
writel(index, &ptsg->protocol_engine[index]); writel(i, &ptsg->protocol_engine[i]);
}
/* Record the smaller of the two capacity values */
scic->logical_port_entries =
min(max_supported_ports, scic->logical_port_entries);
scic->task_context_entries =
min(max_supported_io_requests,
scic->task_context_entries);
scic->remote_node_entries =
min(max_supported_devices, scic->remote_node_entries);
/*
* Now that we have the correct hardware reported minimum values
* build the MDL for the controller. Default to a performance
* configuration.
*/
scic_controller_set_mode(scic, SCI_MODE_SPEED);
} }
/* Initialize hardware PCI Relaxed ordering in DMA engines */ /* Initialize hardware PCI Relaxed ordering in DMA engines */
if (result == SCI_SUCCESS) { val = readl(&scic->scu_registers->sdma.pdma_configuration);
u32 dma_configuration; val |= SCU_PDMACR_GEN_BIT(PCI_RELAXED_ORDERING_ENABLE);
writel(val, &scic->scu_registers->sdma.pdma_configuration);
/* Configure the payload DMA */
dma_configuration = val = readl(&scic->scu_registers->sdma.cdma_configuration);
readl(&scic->scu_registers->sdma.pdma_configuration); val |= SCU_CDMACR_GEN_BIT(PCI_RELAXED_ORDERING_ENABLE);
dma_configuration |= writel(val, &scic->scu_registers->sdma.cdma_configuration);
SCU_PDMACR_GEN_BIT(PCI_RELAXED_ORDERING_ENABLE);
writel(dma_configuration,
&scic->scu_registers->sdma.pdma_configuration);
/* Configure the control DMA */
dma_configuration =
readl(&scic->scu_registers->sdma.cdma_configuration);
dma_configuration |=
SCU_CDMACR_GEN_BIT(PCI_RELAXED_ORDERING_ENABLE);
writel(dma_configuration,
&scic->scu_registers->sdma.cdma_configuration);
}
/* /*
* Initialize the PHYs before the PORTs because the PHY registers * Initialize the PHYs before the PORTs because the PHY registers
* are accessed during the port initialization. * are accessed during the port initialization.
*/ */
if (result == SCI_SUCCESS) { for (i = 0; i < SCI_MAX_PHYS; i++) {
/* Initialize the phys */ result = scic_sds_phy_initialize(&ihost->phys[i].sci,
for (index = 0; &scic->scu_registers->peg0.pe[i].tl,
(result == SCI_SUCCESS) && (index < SCI_MAX_PHYS); &scic->scu_registers->peg0.pe[i].ll);
index++) { if (result != SCI_SUCCESS)
result = scic_sds_phy_initialize( goto out;
&ihost->phys[index].sci,
&scic->scu_registers->peg0.pe[index].tl,
&scic->scu_registers->peg0.pe[index].ll);
}
}
if (result == SCI_SUCCESS) {
/* Initialize the logical ports */
for (index = 0;
(index < scic->logical_port_entries) &&
(result == SCI_SUCCESS);
index++) {
result = scic_sds_port_initialize(
&ihost->ports[index].sci,
&scic->scu_registers->peg0.ptsg.port[index],
&scic->scu_registers->peg0.ptsg.protocol_engine,
&scic->scu_registers->peg0.viit[index]);
} }
for (i = 0; i < scic->logical_port_entries; i++) {
result = scic_sds_port_initialize(&ihost->ports[i].sci,
&scic->scu_registers->peg0.ptsg.port[i],
&scic->scu_registers->peg0.ptsg.protocol_engine,
&scic->scu_registers->peg0.viit[i]);
if (result != SCI_SUCCESS)
goto out;
} }
if (result == SCI_SUCCESS) result = scic_sds_port_configuration_agent_initialize(scic, &scic->port_agent);
result = scic_sds_port_configuration_agent_initialize(
scic,
&scic->port_agent);
out:
/* Advance the controller state machine */ /* Advance the controller state machine */
if (result == SCI_SUCCESS) if (result == SCI_SUCCESS)
state = SCIC_INITIALIZED; state = SCIC_INITIALIZED;
...@@ -2480,47 +2356,38 @@ static enum sci_status scic_user_parameters_set( ...@@ -2480,47 +2356,38 @@ static enum sci_status scic_user_parameters_set(
static int scic_controller_mem_init(struct scic_sds_controller *scic) static int scic_controller_mem_init(struct scic_sds_controller *scic)
{ {
struct device *dev = scic_to_dev(scic); struct device *dev = scic_to_dev(scic);
dma_addr_t dma_handle; dma_addr_t dma;
enum sci_status result; size_t size;
int err;
scic->completion_queue = dmam_alloc_coherent(dev, size = SCU_MAX_COMPLETION_QUEUE_ENTRIES * sizeof(u32);
scic->completion_queue_entries * sizeof(u32), scic->completion_queue = dmam_alloc_coherent(dev, size, &dma, GFP_KERNEL);
&dma_handle, GFP_KERNEL);
if (!scic->completion_queue) if (!scic->completion_queue)
return -ENOMEM; return -ENOMEM;
writel(lower_32_bits(dma_handle), writel(lower_32_bits(dma), &scic->smu_registers->completion_queue_lower);
&scic->smu_registers->completion_queue_lower); writel(upper_32_bits(dma), &scic->smu_registers->completion_queue_upper);
writel(upper_32_bits(dma_handle),
&scic->smu_registers->completion_queue_upper);
scic->remote_node_context_table = dmam_alloc_coherent(dev, size = scic->remote_node_entries * sizeof(union scu_remote_node_context);
scic->remote_node_entries * scic->remote_node_context_table = dmam_alloc_coherent(dev, size, &dma,
sizeof(union scu_remote_node_context), GFP_KERNEL);
&dma_handle, GFP_KERNEL);
if (!scic->remote_node_context_table) if (!scic->remote_node_context_table)
return -ENOMEM; return -ENOMEM;
writel(lower_32_bits(dma_handle), writel(lower_32_bits(dma), &scic->smu_registers->remote_node_context_lower);
&scic->smu_registers->remote_node_context_lower); writel(upper_32_bits(dma), &scic->smu_registers->remote_node_context_upper);
writel(upper_32_bits(dma_handle),
&scic->smu_registers->remote_node_context_upper);
scic->task_context_table = dmam_alloc_coherent(dev, size = scic->task_context_entries * sizeof(struct scu_task_context),
scic->task_context_entries * scic->task_context_table = dmam_alloc_coherent(dev, size, &dma, GFP_KERNEL);
sizeof(struct scu_task_context),
&dma_handle, GFP_KERNEL);
if (!scic->task_context_table) if (!scic->task_context_table)
return -ENOMEM; return -ENOMEM;
writel(lower_32_bits(dma_handle), writel(lower_32_bits(dma), &scic->smu_registers->host_task_table_lower);
&scic->smu_registers->host_task_table_lower); writel(upper_32_bits(dma), &scic->smu_registers->host_task_table_upper);
writel(upper_32_bits(dma_handle),
&scic->smu_registers->host_task_table_upper);
result = scic_sds_unsolicited_frame_control_construct(scic); err = scic_sds_unsolicited_frame_control_construct(scic);
if (result) if (err)
return result; return err;
/* /*
* Inform the silicon as to the location of the UF headers and * Inform the silicon as to the location of the UF headers and
......
...@@ -239,18 +239,6 @@ struct scic_sds_controller { ...@@ -239,18 +239,6 @@ struct scic_sds_controller {
*/ */
u32 logical_port_entries; u32 logical_port_entries;
/**
* This field is the minimum number of hardware supported completion queue
* entries and the software requested completion queue entries.
*/
u32 completion_queue_entries;
/**
* This field is the minimum number of hardware supported event entries and
* the software requested event entries.
*/
u32 completion_event_entries;
/** /**
* This field is the minimum number of devices supported by the hardware and * This field is the minimum number of devices supported by the hardware and
* the number of devices requested by the software. * the number of devices requested by the software.
...@@ -325,7 +313,6 @@ struct isci_host { ...@@ -325,7 +313,6 @@ struct isci_host {
union scic_oem_parameters oem_parameters; union scic_oem_parameters oem_parameters;
int id; /* unique within a given pci device */ int id; /* unique within a given pci device */
void *core_ctrl_memory;
struct dma_pool *dma_pool; struct dma_pool *dma_pool;
struct isci_phy phys[SCI_MAX_PHYS]; struct isci_phy phys[SCI_MAX_PHYS];
struct isci_port ports[SCI_MAX_PORTS + 1]; /* includes dummy port */ struct isci_port ports[SCI_MAX_PORTS + 1]; /* includes dummy port */
......
...@@ -78,39 +78,16 @@ enum sci_controller_mode { ...@@ -78,39 +78,16 @@ enum sci_controller_mode {
SCI_MODE_SIZE /* deprecated */ SCI_MODE_SIZE /* deprecated */
}; };
#define SCI_MAX_PHYS (4) #define SCI_MAX_PHYS (4UL)
#define SCI_MAX_PORTS SCI_MAX_PHYS #define SCI_MAX_PORTS SCI_MAX_PHYS
#define SCI_MIN_SMP_PHYS (38)
#define SCI_MAX_SMP_PHYS (384) /* not silicon constrained */ #define SCI_MAX_SMP_PHYS (384) /* not silicon constrained */
#define SCI_MAX_REMOTE_DEVICES (256) #define SCI_MAX_REMOTE_DEVICES (256UL)
#define SCI_MIN_REMOTE_DEVICES (16) #define SCI_MAX_IO_REQUESTS (256UL)
#define SCI_MAX_IO_REQUESTS (256)
#define SCI_MIN_IO_REQUESTS (1)
#define SCI_MAX_MSIX_MESSAGES (2) #define SCI_MAX_MSIX_MESSAGES (2)
#define SCI_MAX_SCATTER_GATHER_ELEMENTS 130 /* not silicon constrained */ #define SCI_MAX_SCATTER_GATHER_ELEMENTS 130 /* not silicon constrained */
#define SCI_MIN_SCATTER_GATHER_ELEMENTS 1
#define SCI_MAX_CONTROLLERS 2 #define SCI_MAX_CONTROLLERS 2
#define SCI_MAX_DOMAINS SCI_MAX_PORTS #define SCI_MAX_DOMAINS SCI_MAX_PORTS
/* 2 indicates the maximum number of UFs that can occur for a given IO request.
* The hardware handles reception of additional unsolicited frames while all
* UFs are in use, by holding off the transmitting device. This number could
* be theoretically reduced to 1, but 2 provides for more reliable operation.
* During SATA PIO operation, it is possible under some conditions for there to
* be 3 separate FISes received, back to back to back (PIO Setup, Data, D2H
* Register). It is unlikely to have all 3 pending all at once without some of
* them already being processed.
*/
#define SCU_MIN_UNSOLICITED_FRAMES (1)
#define SCU_MIN_CRITICAL_NOTIFICATIONS (24)
#define SCU_MIN_EVENTS (4)
#define SCU_MIN_COMPLETION_QUEUE_SCRATCH (2)
#define SCU_MIN_COMPLETION_QUEUE_ENTRIES (SCU_MIN_CRITICAL_NOTIFICATIONS \
+ SCU_MIN_EVENTS \
+ SCU_MIN_UNSOLICITED_FRAMES \
+ SCI_MIN_IO_REQUESTS \
+ SCU_MIN_COMPLETION_QUEUE_SCRATCH)
#define SCU_MAX_CRITICAL_NOTIFICATIONS (384) #define SCU_MAX_CRITICAL_NOTIFICATIONS (384)
#define SCU_MAX_EVENTS (128) #define SCU_MAX_EVENTS (128)
#define SCU_MAX_UNSOLICITED_FRAMES (128) #define SCU_MAX_UNSOLICITED_FRAMES (128)
...@@ -121,51 +98,6 @@ enum sci_controller_mode { ...@@ -121,51 +98,6 @@ enum sci_controller_mode {
+ SCI_MAX_IO_REQUESTS \ + SCI_MAX_IO_REQUESTS \
+ SCU_MAX_COMPLETION_QUEUE_SCRATCH) + SCU_MAX_COMPLETION_QUEUE_SCRATCH)
#if !defined(ENABLE_MINIMUM_MEMORY_MODE)
#define SCU_UNSOLICITED_FRAME_COUNT SCU_MAX_UNSOLICITED_FRAMES
#define SCU_CRITICAL_NOTIFICATION_COUNT SCU_MAX_CRITICAL_NOTIFICATIONS
#define SCU_EVENT_COUNT SCU_MAX_EVENTS
#define SCU_COMPLETION_QUEUE_SCRATCH SCU_MAX_COMPLETION_QUEUE_SCRATCH
#define SCU_IO_REQUEST_COUNT SCI_MAX_IO_REQUESTS
#define SCU_IO_REQUEST_SGE_COUNT SCI_MAX_SCATTER_GATHER_ELEMENTS
#define SCU_COMPLETION_QUEUE_COUNT SCU_MAX_COMPLETION_QUEUE_ENTRIES
#else
#define SCU_UNSOLICITED_FRAME_COUNT SCU_MIN_UNSOLICITED_FRAMES
#define SCU_CRITICAL_NOTIFICATION_COUNT SCU_MIN_CRITICAL_NOTIFICATIONS
#define SCU_EVENT_COUNT SCU_MIN_EVENTS
#define SCU_COMPLETION_QUEUE_SCRATCH SCU_MIN_COMPLETION_QUEUE_SCRATCH
#define SCU_IO_REQUEST_COUNT SCI_MIN_IO_REQUESTS
#define SCU_IO_REQUEST_SGE_COUNT SCI_MIN_SCATTER_GATHER_ELEMENTS
#define SCU_COMPLETION_QUEUE_COUNT SCU_MIN_COMPLETION_QUEUE_ENTRIES
#endif /* !defined(ENABLE_MINIMUM_MEMORY_OPERATION) */
/**
*
*
* The SCU_COMPLETION_QUEUE_COUNT constant indicates the size of the completion
* queue into which the hardware DMAs 32-bit quantas (completion entries).
*/
/**
*
*
* This queue must be programmed to a power of 2 size (e.g. 32, 64, 1024, etc.).
*/
#if (SCU_COMPLETION_QUEUE_COUNT != 16) && \
(SCU_COMPLETION_QUEUE_COUNT != 32) && \
(SCU_COMPLETION_QUEUE_COUNT != 64) && \
(SCU_COMPLETION_QUEUE_COUNT != 128) && \
(SCU_COMPLETION_QUEUE_COUNT != 256) && \
(SCU_COMPLETION_QUEUE_COUNT != 512) && \
(SCU_COMPLETION_QUEUE_COUNT != 1024)
#error "SCU_COMPLETION_QUEUE_COUNT must be set to a power of 2."
#endif
#if SCU_MIN_UNSOLICITED_FRAMES > SCU_MAX_UNSOLICITED_FRAMES
#error "Invalid configuration of unsolicited frame constants"
#endif /* SCU_MIN_UNSOLICITED_FRAMES > SCU_MAX_UNSOLICITED_FRAMES */
#define SCU_MIN_UF_TABLE_ENTRIES (8)
#define SCU_ABSOLUTE_MAX_UNSOLICITED_FRAMES (4096) #define SCU_ABSOLUTE_MAX_UNSOLICITED_FRAMES (4096)
#define SCU_UNSOLICITED_FRAME_BUFFER_SIZE (1024) #define SCU_UNSOLICITED_FRAME_BUFFER_SIZE (1024)
#define SCU_INVALID_FRAME_INDEX (0xFFFF) #define SCU_INVALID_FRAME_INDEX (0xFFFF)
...@@ -173,14 +105,14 @@ enum sci_controller_mode { ...@@ -173,14 +105,14 @@ enum sci_controller_mode {
#define SCU_IO_REQUEST_MAX_SGE_SIZE (0x00FFFFFF) #define SCU_IO_REQUEST_MAX_SGE_SIZE (0x00FFFFFF)
#define SCU_IO_REQUEST_MAX_TRANSFER_LENGTH (0x00FFFFFF) #define SCU_IO_REQUEST_MAX_TRANSFER_LENGTH (0x00FFFFFF)
/* static inline void check_sizes(void)
* Determine the size of the unsolicited frame array including {
* unused buffers. */ BUILD_BUG_ON_NOT_POWER_OF_2(SCU_MAX_EVENTS);
#if SCU_UNSOLICITED_FRAME_COUNT <= SCU_MIN_UF_TABLE_ENTRIES BUILD_BUG_ON(SCU_MAX_UNSOLICITED_FRAMES <= 8);
#define SCU_UNSOLICITED_FRAME_CONTROL_ARRAY_SIZE SCU_MIN_UF_TABLE_ENTRIES BUILD_BUG_ON_NOT_POWER_OF_2(SCU_MAX_UNSOLICITED_FRAMES);
#else BUILD_BUG_ON_NOT_POWER_OF_2(SCU_MAX_COMPLETION_QUEUE_ENTRIES);
#define SCU_UNSOLICITED_FRAME_CONTROL_ARRAY_SIZE SCU_MAX_UNSOLICITED_FRAMES BUILD_BUG_ON(SCU_MAX_UNSOLICITED_FRAMES > SCU_ABSOLUTE_MAX_UNSOLICITED_FRAMES);
#endif /* SCU_UNSOLICITED_FRAME_COUNT <= SCU_MIN_UF_TABLE_ENTRIES */ }
/** /**
* enum sci_status - This is the general return status enumeration for non-IO, * enum sci_status - This is the general return status enumeration for non-IO,
......
...@@ -213,7 +213,7 @@ struct scic_sds_request { ...@@ -213,7 +213,7 @@ struct scic_sds_request {
struct scu_task_context tc ____cacheline_aligned; struct scu_task_context tc ____cacheline_aligned;
/* could be larger with sg chaining */ /* could be larger with sg chaining */
#define SCU_SGL_SIZE ((SCU_IO_REQUEST_SGE_COUNT + 1) / 2) #define SCU_SGL_SIZE ((SCI_MAX_SCATTER_GATHER_ELEMENTS + 1) / 2)
struct scu_sgl_element_pair sg_table[SCU_SGL_SIZE] __attribute__ ((aligned(32))); struct scu_sgl_element_pair sg_table[SCU_SGL_SIZE] __attribute__ ((aligned(32)));
/* /*
......
...@@ -57,120 +57,30 @@ ...@@ -57,120 +57,30 @@
#include "unsolicited_frame_control.h" #include "unsolicited_frame_control.h"
#include "registers.h" #include "registers.h"
/**
* This method will program the unsolicited frames (UFs) into the UF address
* table and construct the UF frame structure being modeled in the core. It
* will handle the case where some of the UFs are not being used and thus
* should have entries programmed to zero in the address table.
* @uf_control: This parameter specifies the unsolicted frame control object
* for which to construct the unsolicited frames objects.
* @uf_buffer_phys_address: This parameter specifies the physical address for
* the first unsolicited frame buffer.
* @uf_buffer_virt_address: This parameter specifies the virtual address for
* the first unsolicited frame buffer.
* @unused_uf_header_entries: This parameter specifies the number of unused UF
* headers. This value can be non-zero when there are a non-power of 2
* number of unsolicited frames being supported.
* @used_uf_header_entries: This parameter specifies the number of actually
* utilized UF headers.
*
*/
static void scic_sds_unsolicited_frame_control_construct_frames(
struct scic_sds_unsolicited_frame_control *uf_control,
dma_addr_t uf_buffer_phys_address,
void *uf_buffer_virt_address,
u32 unused_uf_header_entries,
u32 used_uf_header_entries)
{
u32 index;
struct scic_sds_unsolicited_frame *uf;
/*
* Program the unused buffers into the UF address table and the
* controller's array of UFs.
*/
for (index = 0; index < unused_uf_header_entries; index++) {
uf = &uf_control->buffers.array[index];
uf->buffer = NULL;
uf_control->address_table.array[index] = 0;
uf->header = &uf_control->headers.array[index];
uf->state = UNSOLICITED_FRAME_EMPTY;
}
/*
* Program the actual used UF buffers into the UF address table and
* the controller's array of UFs.
*/
for (index = unused_uf_header_entries;
index < unused_uf_header_entries + used_uf_header_entries;
index++) {
uf = &uf_control->buffers.array[index];
uf_control->address_table.array[index] = uf_buffer_phys_address;
uf->buffer = uf_buffer_virt_address;
uf->header = &uf_control->headers.array[index];
uf->state = UNSOLICITED_FRAME_EMPTY;
/*
* Increment the address of the physical and virtual memory
* pointers. Everything is aligned on 1k boundary with an
* increment of 1k.
*/
uf_buffer_virt_address += SCU_UNSOLICITED_FRAME_BUFFER_SIZE;
uf_buffer_phys_address += SCU_UNSOLICITED_FRAME_BUFFER_SIZE;
}
}
int scic_sds_unsolicited_frame_control_construct(struct scic_sds_controller *scic) int scic_sds_unsolicited_frame_control_construct(struct scic_sds_controller *scic)
{ {
struct scic_sds_unsolicited_frame_control *uf_control = &scic->uf_control; struct scic_sds_unsolicited_frame_control *uf_control = &scic->uf_control;
u32 unused_uf_header_entries; struct scic_sds_unsolicited_frame *uf;
u32 used_uf_header_entries; u32 buf_len, header_len, i;
u32 used_uf_buffer_bytes; dma_addr_t dma;
u32 unused_uf_header_bytes;
u32 used_uf_header_bytes;
dma_addr_t uf_buffer_phys_address;
void *uf_buffer_virt_address;
size_t size; size_t size;
void *virt;
/*
* The UF buffer address table size must be programmed to a power
* of 2. Find the first power of 2 that is equal to or greater then
* the number of unsolicited frame buffers to be utilized.
*/
uf_control->address_table.count = SCU_MIN_UF_TABLE_ENTRIES;
while (uf_control->address_table.count < uf_control->buffers.count &&
uf_control->address_table.count < SCU_ABSOLUTE_MAX_UNSOLICITED_FRAMES)
uf_control->address_table.count <<= 1;
/* /*
* Prepare all of the memory sizes for the UF headers, UF address * Prepare all of the memory sizes for the UF headers, UF address
* table, and UF buffers themselves. * table, and UF buffers themselves.
*/ */
used_uf_buffer_bytes = uf_control->buffers.count buf_len = SCU_MAX_UNSOLICITED_FRAMES * SCU_UNSOLICITED_FRAME_BUFFER_SIZE;
* SCU_UNSOLICITED_FRAME_BUFFER_SIZE; header_len = SCU_MAX_UNSOLICITED_FRAMES * sizeof(struct scu_unsolicited_frame_header);
unused_uf_header_entries = uf_control->address_table.count size = buf_len + header_len + SCU_MAX_UNSOLICITED_FRAMES * sizeof(dma_addr_t);
- uf_control->buffers.count;
used_uf_header_entries = uf_control->buffers.count;
unused_uf_header_bytes = unused_uf_header_entries
* sizeof(struct scu_unsolicited_frame_header);
used_uf_header_bytes = used_uf_header_entries
* sizeof(struct scu_unsolicited_frame_header);
size = used_uf_buffer_bytes + used_uf_header_bytes +
uf_control->address_table.count * sizeof(dma_addr_t);
/* /*
* The Unsolicited Frame buffers are set at the start of the UF * The Unsolicited Frame buffers are set at the start of the UF
* memory descriptor entry. The headers and address table will be * memory descriptor entry. The headers and address table will be
* placed after the buffers. * placed after the buffers.
*/ */
uf_buffer_virt_address = dmam_alloc_coherent(scic_to_dev(scic), size, virt = dmam_alloc_coherent(scic_to_dev(scic), size, &dma, GFP_KERNEL);
&uf_buffer_phys_address, GFP_KERNEL); if (!virt)
if (!uf_buffer_virt_address)
return -ENOMEM; return -ENOMEM;
/* /*
...@@ -183,15 +93,8 @@ int scic_sds_unsolicited_frame_control_construct(struct scic_sds_controller *sci ...@@ -183,15 +93,8 @@ int scic_sds_unsolicited_frame_control_construct(struct scic_sds_controller *sci
* headers, since we program the UF address table pointers to * headers, since we program the UF address table pointers to
* NULL. * NULL.
*/ */
uf_control->headers.physical_address = uf_control->headers.physical_address = dma + buf_len;
uf_buffer_phys_address + uf_control->headers.array = virt + buf_len;
used_uf_buffer_bytes -
unused_uf_header_bytes;
uf_control->headers.array =
uf_buffer_virt_address +
used_uf_buffer_bytes -
unused_uf_header_bytes;
/* /*
* Program the location of the UF address table into the SCU. * Program the location of the UF address table into the SCU.
...@@ -200,16 +103,8 @@ int scic_sds_unsolicited_frame_control_construct(struct scic_sds_controller *sci ...@@ -200,16 +103,8 @@ int scic_sds_unsolicited_frame_control_construct(struct scic_sds_controller *sci
* byte boundary already due to above programming headers being on a * byte boundary already due to above programming headers being on a
* 64-bit boundary and headers are on a 64-bytes in size. * 64-bit boundary and headers are on a 64-bytes in size.
*/ */
uf_control->address_table.physical_address = uf_control->address_table.physical_address = dma + buf_len + header_len;
uf_buffer_phys_address + uf_control->address_table.array = virt + buf_len + header_len;
used_uf_buffer_bytes +
used_uf_header_bytes;
uf_control->address_table.array =
uf_buffer_virt_address +
used_uf_buffer_bytes +
used_uf_header_bytes;
uf_control->get = 0; uf_control->get = 0;
/* /*
...@@ -220,16 +115,26 @@ int scic_sds_unsolicited_frame_control_construct(struct scic_sds_controller *sci ...@@ -220,16 +115,26 @@ int scic_sds_unsolicited_frame_control_construct(struct scic_sds_controller *sci
* - Aligned on a 1KB boundary. */ * - Aligned on a 1KB boundary. */
/* /*
* If the user provided less then the maximum amount of memory, * Program the actual used UF buffers into the UF address table and
* then be sure that we programm the first entries in the UF * the controller's array of UFs.
* address table to NULL. */ */
scic_sds_unsolicited_frame_control_construct_frames( for (i = 0; i < SCU_MAX_UNSOLICITED_FRAMES; i++) {
uf_control, uf = &uf_control->buffers.array[i];
uf_buffer_phys_address,
uf_buffer_virt_address, uf_control->address_table.array[i] = dma;
unused_uf_header_entries,
used_uf_header_entries uf->buffer = virt;
); uf->header = &uf_control->headers.array[i];
uf->state = UNSOLICITED_FRAME_EMPTY;
/*
* Increment the address of the physical and virtual memory
* pointers. Everything is aligned on 1k boundary with an
* increment of 1k.
*/
virt += SCU_UNSOLICITED_FRAME_BUFFER_SIZE;
dma += SCU_UNSOLICITED_FRAME_BUFFER_SIZE;
}
return 0; return 0;
} }
...@@ -247,7 +152,7 @@ enum sci_status scic_sds_unsolicited_frame_control_get_header( ...@@ -247,7 +152,7 @@ enum sci_status scic_sds_unsolicited_frame_control_get_header(
u32 frame_index, u32 frame_index,
void **frame_header) void **frame_header)
{ {
if (frame_index < uf_control->address_table.count) { if (frame_index < SCU_MAX_UNSOLICITED_FRAMES) {
/* /*
* Skip the first word in the frame since this is a controll word used * Skip the first word in the frame since this is a controll word used
* by the hardware. */ * by the hardware. */
...@@ -272,7 +177,7 @@ enum sci_status scic_sds_unsolicited_frame_control_get_buffer( ...@@ -272,7 +177,7 @@ enum sci_status scic_sds_unsolicited_frame_control_get_buffer(
u32 frame_index, u32 frame_index,
void **frame_buffer) void **frame_buffer)
{ {
if (frame_index < uf_control->address_table.count) { if (frame_index < SCU_MAX_UNSOLICITED_FRAMES) {
*frame_buffer = uf_control->buffers.array[frame_index].buffer; *frame_buffer = uf_control->buffers.array[frame_index].buffer;
return SCI_SUCCESS; return SCI_SUCCESS;
...@@ -298,26 +203,24 @@ bool scic_sds_unsolicited_frame_control_release_frame( ...@@ -298,26 +203,24 @@ bool scic_sds_unsolicited_frame_control_release_frame(
u32 frame_get; u32 frame_get;
u32 frame_cycle; u32 frame_cycle;
frame_get = uf_control->get & (uf_control->address_table.count - 1); frame_get = uf_control->get & (SCU_MAX_UNSOLICITED_FRAMES - 1);
frame_cycle = uf_control->get & uf_control->address_table.count; frame_cycle = uf_control->get & SCU_MAX_UNSOLICITED_FRAMES;
/* /*
* In the event there are NULL entries in the UF table, we need to * In the event there are NULL entries in the UF table, we need to
* advance the get pointer in order to find out if this frame should * advance the get pointer in order to find out if this frame should
* be released (i.e. update the get pointer). */ * be released (i.e. update the get pointer). */
while (((lower_32_bits(uf_control->address_table.array[frame_get]) while (lower_32_bits(uf_control->address_table.array[frame_get]) == 0 &&
== 0) && upper_32_bits(uf_control->address_table.array[frame_get]) == 0 &&
(upper_32_bits(uf_control->address_table.array[frame_get]) frame_get < SCU_MAX_UNSOLICITED_FRAMES)
== 0)) &&
(frame_get < uf_control->address_table.count))
frame_get++; frame_get++;
/* /*
* The table has a NULL entry as it's last element. This is * The table has a NULL entry as it's last element. This is
* illegal. */ * illegal. */
BUG_ON(frame_get >= uf_control->address_table.count); BUG_ON(frame_get >= SCU_MAX_UNSOLICITED_FRAMES);
if (frame_index < uf_control->address_table.count) { if (frame_index < SCU_MAX_UNSOLICITED_FRAMES) {
uf_control->buffers.array[frame_index].state = UNSOLICITED_FRAME_RELEASED; uf_control->buffers.array[frame_index].state = UNSOLICITED_FRAME_RELEASED;
/* /*
...@@ -333,9 +236,8 @@ bool scic_sds_unsolicited_frame_control_release_frame( ...@@ -333,9 +236,8 @@ bool scic_sds_unsolicited_frame_control_release_frame(
INCREMENT_QUEUE_GET( INCREMENT_QUEUE_GET(
frame_get, frame_get,
frame_cycle, frame_cycle,
uf_control->address_table.count - 1, SCU_MAX_UNSOLICITED_FRAMES - 1,
uf_control->address_table.count SCU_MAX_UNSOLICITED_FRAMES);
);
} }
uf_control->get = uf_control->get =
......
...@@ -144,25 +144,18 @@ struct scic_sds_uf_header_array { ...@@ -144,25 +144,18 @@ struct scic_sds_uf_header_array {
*/ */
struct scic_sds_uf_buffer_array { struct scic_sds_uf_buffer_array {
/** /**
* This field is the minimum number of unsolicited frames supported by the * This field is the unsolicited frame data its used to manage
* hardware and the number of unsolicited frames requested by the software.
*/
u32 count;
/**
* This field is the SCIC_UNSOLICITED_FRAME data its used to manage
* the data for the unsolicited frame requests. It also represents * the data for the unsolicited frame requests. It also represents
* the virtual address location that corresponds to the * the virtual address location that corresponds to the
* physical_address field. * physical_address field.
*/ */
struct scic_sds_unsolicited_frame array[SCU_UNSOLICITED_FRAME_CONTROL_ARRAY_SIZE]; struct scic_sds_unsolicited_frame array[SCU_MAX_UNSOLICITED_FRAMES];
/** /**
* This field specifies the physical address location for the UF * This field specifies the physical address location for the UF
* buffer array. * buffer array.
*/ */
dma_addr_t physical_address; dma_addr_t physical_address;
}; };
/** /**
...@@ -173,15 +166,6 @@ struct scic_sds_uf_buffer_array { ...@@ -173,15 +166,6 @@ struct scic_sds_uf_buffer_array {
* 1KB buffers into which the silicon will DMA unsolicited frames. * 1KB buffers into which the silicon will DMA unsolicited frames.
*/ */
struct scic_sds_uf_address_table_array { struct scic_sds_uf_address_table_array {
/**
* This field specifies the actual programmed size of the
* unsolicited frame buffer address table. The size of the table
* can be larger than the actual number of UF buffers, but it must
* be a power of 2 and the last entry in the table is not allowed
* to be NULL.
*/
u32 count;
/** /**
* This field represents a virtual pointer that refers to the * This field represents a virtual pointer that refers to the
* starting address of the UF address table. * starting address of the UF address table.
......
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