[PATCH 1/6] staging: kpc2000: fix indent in cell_probe.c

From: Simon SandstrÃm
Date: Wed May 22 2019 - 17:02:16 EST


Use tabs instead of spaces for indentation.

Signed-off-by: Simon SandstrÃm <simon@xxxxxxxxxx>
---
drivers/staging/kpc2000/kpc2000/cell_probe.c | 574 +++++++++----------
1 file changed, 287 insertions(+), 287 deletions(-)

diff --git a/drivers/staging/kpc2000/kpc2000/cell_probe.c b/drivers/staging/kpc2000/kpc2000/cell_probe.c
index 0181b0a8ff82..6e034d115b47 100644
--- a/drivers/staging/kpc2000/kpc2000/cell_probe.c
+++ b/drivers/staging/kpc2000/kpc2000/cell_probe.c
@@ -25,7 +25,7 @@
* D C2S DMA Present
* DDD C2S DMA Channel Number [up to 8 channels]
* II IRQ Count [0 to 3 IRQs per core]
- 1111111000
+ * 1111111000
* IIIIIII IRQ Base Number [up to 128 IRQs per card]
* ___ Spare
*
@@ -40,45 +40,45 @@
#define KP_CORE_ID_SPI 5

struct core_table_entry {
- u16 type;
- u32 offset;
- u32 length;
- bool s2c_dma_present;
- u8 s2c_dma_channel_num;
- bool c2s_dma_present;
- u8 c2s_dma_channel_num;
- u8 irq_count;
- u8 irq_base_num;
+ u16 type;
+ u32 offset;
+ u32 length;
+ bool s2c_dma_present;
+ u8 s2c_dma_channel_num;
+ bool c2s_dma_present;
+ u8 c2s_dma_channel_num;
+ u8 irq_count;
+ u8 irq_base_num;
};

static
void parse_core_table_entry_v0(struct core_table_entry *cte, const u64 read_val)
{
- cte->type = ((read_val & 0xFFF0000000000000) >> 52);
- cte->offset = ((read_val & 0x00000000FFFF0000) >> 16) * 4096;
- cte->length = ((read_val & 0x0000FFFF00000000) >> 32) * 8;
- cte->s2c_dma_present = ((read_val & 0x0008000000000000) >> 51);
- cte->s2c_dma_channel_num = ((read_val & 0x0007000000000000) >> 48);
- cte->c2s_dma_present = ((read_val & 0x0000000000008000) >> 15);
- cte->c2s_dma_channel_num = ((read_val & 0x0000000000007000) >> 12);
- cte->irq_count = ((read_val & 0x0000000000000C00) >> 10);
- cte->irq_base_num = ((read_val & 0x00000000000003F8) >> 3);
+ cte->type = ((read_val & 0xFFF0000000000000) >> 52);
+ cte->offset = ((read_val & 0x00000000FFFF0000) >> 16) * 4096;
+ cte->length = ((read_val & 0x0000FFFF00000000) >> 32) * 8;
+ cte->s2c_dma_present = ((read_val & 0x0008000000000000) >> 51);
+ cte->s2c_dma_channel_num = ((read_val & 0x0007000000000000) >> 48);
+ cte->c2s_dma_present = ((read_val & 0x0000000000008000) >> 15);
+ cte->c2s_dma_channel_num = ((read_val & 0x0000000000007000) >> 12);
+ cte->irq_count = ((read_val & 0x0000000000000C00) >> 10);
+ cte->irq_base_num = ((read_val & 0x00000000000003F8) >> 3);
}

static
void dbg_cte(struct kp2000_device *pcard, struct core_table_entry *cte)
{
- dev_dbg(&pcard->pdev->dev, "CTE: type:%3d offset:%3d (%3d) length:%3d (%3d) s2c:%d c2s:%d irq_count:%d base_irq:%d\n",
- cte->type,
- cte->offset,
- cte->offset / 4096,
- cte->length,
- cte->length / 8,
- (cte->s2c_dma_present ? cte->s2c_dma_channel_num : -1),
- (cte->c2s_dma_present ? cte->c2s_dma_channel_num : -1),
- cte->irq_count,
- cte->irq_base_num
- );
+ dev_dbg(&pcard->pdev->dev, "CTE: type:%3d offset:%3d (%3d) length:%3d (%3d) s2c:%d c2s:%d irq_count:%d base_irq:%d\n",
+ cte->type,
+ cte->offset,
+ cte->offset / 4096,
+ cte->length,
+ cte->length / 8,
+ (cte->s2c_dma_present ? cte->s2c_dma_channel_num : -1),
+ (cte->c2s_dma_present ? cte->c2s_dma_channel_num : -1),
+ cte->irq_count,
+ cte->irq_base_num
+ );
}

static
@@ -94,55 +94,55 @@ void parse_core_table_entry(struct core_table_entry *cte, const u64 read_val, co
static int probe_core_basic(unsigned int core_num, struct kp2000_device *pcard,
char *name, const struct core_table_entry cte)
{
- struct mfd_cell cell = { .id = core_num, .name = name };
- struct resource resources[2];
+ struct mfd_cell cell = { .id = core_num, .name = name };
+ struct resource resources[2];

- struct kpc_core_device_platdata core_pdata = {
- .card_id = pcard->card_id,
- .build_version = pcard->build_version,
- .hardware_revision = pcard->hardware_revision,
- .ssid = pcard->ssid,
- .ddna = pcard->ddna,
- };
+ struct kpc_core_device_platdata core_pdata = {
+ .card_id = pcard->card_id,
+ .build_version = pcard->build_version,
+ .hardware_revision = pcard->hardware_revision,
+ .ssid = pcard->ssid,
+ .ddna = pcard->ddna,
+ };

- dev_dbg(&pcard->pdev->dev, "Found Basic core: type = %02d dma = %02x / %02x offset = 0x%x length = 0x%x (%d regs)\n", cte.type, KPC_OLD_S2C_DMA_CH_NUM(cte), KPC_OLD_C2S_DMA_CH_NUM(cte), cte.offset, cte.length, cte.length / 8);
+ dev_dbg(&pcard->pdev->dev, "Found Basic core: type = %02d dma = %02x / %02x offset = 0x%x length = 0x%x (%d regs)\n", cte.type, KPC_OLD_S2C_DMA_CH_NUM(cte), KPC_OLD_C2S_DMA_CH_NUM(cte), cte.offset, cte.length, cte.length / 8);


- cell.platform_data = &core_pdata;
- cell.pdata_size = sizeof(struct kpc_core_device_platdata);
- cell.num_resources = 2;
+ cell.platform_data = &core_pdata;
+ cell.pdata_size = sizeof(struct kpc_core_device_platdata);
+ cell.num_resources = 2;

- memset(&resources, 0, sizeof(resources));
+ memset(&resources, 0, sizeof(resources));

- resources[0].start = cte.offset;
- resources[0].end = cte.offset + (cte.length - 1);
- resources[0].flags = IORESOURCE_MEM;
+ resources[0].start = cte.offset;
+ resources[0].end = cte.offset + (cte.length - 1);
+ resources[0].flags = IORESOURCE_MEM;

- resources[1].start = pcard->pdev->irq;
- resources[1].end = pcard->pdev->irq;
- resources[1].flags = IORESOURCE_IRQ;
+ resources[1].start = pcard->pdev->irq;
+ resources[1].end = pcard->pdev->irq;
+ resources[1].flags = IORESOURCE_IRQ;

- cell.resources = resources;
+ cell.resources = resources;

- return mfd_add_devices(
- PCARD_TO_DEV(pcard), // parent
- pcard->card_num * 100, // id
- &cell, // struct mfd_cell *
- 1, // ndevs
- &pcard->regs_base_resource,
- 0, // irq_base
- NULL // struct irq_domain *
- );
+ return mfd_add_devices(
+ PCARD_TO_DEV(pcard), // parent
+ pcard->card_num * 100, // id
+ &cell, // struct mfd_cell *
+ 1, // ndevs
+ &pcard->regs_base_resource,
+ 0, // irq_base
+ NULL // struct irq_domain *
+ );
}


struct kpc_uio_device {
- struct list_head list;
- struct kp2000_device *pcard;
- struct device *dev;
- struct uio_info uioinfo;
- struct core_table_entry cte;
- u16 core_num;
+ struct list_head list;
+ struct kp2000_device *pcard;
+ struct device *dev;
+ struct uio_info uioinfo;
+ struct core_table_entry cte;
+ u16 core_num;
};

static ssize_t offset_show(struct device *dev, struct device_attribute *attr,
@@ -238,273 +238,273 @@ struct attribute *kpc_uio_class_attrs[] = {
static
int kp2000_check_uio_irq(struct kp2000_device *pcard, u32 irq_num)
{
- u64 interrupt_active = readq(pcard->sysinfo_regs_base + REG_INTERRUPT_ACTIVE);
- u64 interrupt_mask_inv = ~readq(pcard->sysinfo_regs_base + REG_INTERRUPT_MASK);
- u64 irq_check_mask = (1 << irq_num);
- if (interrupt_active & irq_check_mask){ // if it's active (interrupt pending)
- if (interrupt_mask_inv & irq_check_mask){ // and if it's not masked off
- return 1;
- }
- }
- return 0;
+ u64 interrupt_active = readq(pcard->sysinfo_regs_base + REG_INTERRUPT_ACTIVE);
+ u64 interrupt_mask_inv = ~readq(pcard->sysinfo_regs_base + REG_INTERRUPT_MASK);
+ u64 irq_check_mask = (1 << irq_num);
+ if (interrupt_active & irq_check_mask){ // if it's active (interrupt pending)
+ if (interrupt_mask_inv & irq_check_mask){ // and if it's not masked off
+ return 1;
+ }
+ }
+ return 0;
}

static
irqreturn_t kuio_handler(int irq, struct uio_info *uioinfo)
{
- struct kpc_uio_device *kudev = uioinfo->priv;
- if (irq != kudev->pcard->pdev->irq)
- return IRQ_NONE;
-
- if (kp2000_check_uio_irq(kudev->pcard, kudev->cte.irq_base_num)){
- writeq((1 << kudev->cte.irq_base_num), kudev->pcard->sysinfo_regs_base + REG_INTERRUPT_ACTIVE); // Clear the active flag
- return IRQ_HANDLED;
- }
- return IRQ_NONE;
+ struct kpc_uio_device *kudev = uioinfo->priv;
+ if (irq != kudev->pcard->pdev->irq)
+ return IRQ_NONE;
+
+ if (kp2000_check_uio_irq(kudev->pcard, kudev->cte.irq_base_num)){
+ writeq((1 << kudev->cte.irq_base_num), kudev->pcard->sysinfo_regs_base + REG_INTERRUPT_ACTIVE); // Clear the active flag
+ return IRQ_HANDLED;
+ }
+ return IRQ_NONE;
}

static
int kuio_irqcontrol(struct uio_info *uioinfo, s32 irq_on)
{
- struct kpc_uio_device *kudev = uioinfo->priv;
- struct kp2000_device *pcard = kudev->pcard;
- u64 mask;
+ struct kpc_uio_device *kudev = uioinfo->priv;
+ struct kp2000_device *pcard = kudev->pcard;
+ u64 mask;

mutex_lock(&pcard->sem);
- mask = readq(pcard->sysinfo_regs_base + REG_INTERRUPT_MASK);
- if (irq_on){
- mask &= ~(1 << (kudev->cte.irq_base_num));
- } else {
- mask |= (1 << (kudev->cte.irq_base_num));
- }
- writeq(mask, pcard->sysinfo_regs_base + REG_INTERRUPT_MASK);
+ mask = readq(pcard->sysinfo_regs_base + REG_INTERRUPT_MASK);
+ if (irq_on){
+ mask &= ~(1 << (kudev->cte.irq_base_num));
+ } else {
+ mask |= (1 << (kudev->cte.irq_base_num));
+ }
+ writeq(mask, pcard->sysinfo_regs_base + REG_INTERRUPT_MASK);
mutex_unlock(&pcard->sem);

- return 0;
+ return 0;
}

static int probe_core_uio(unsigned int core_num, struct kp2000_device *pcard,
char *name, const struct core_table_entry cte)
{
- struct kpc_uio_device *kudev;
- int rv;
-
- dev_dbg(&pcard->pdev->dev, "Found UIO core: type = %02d dma = %02x / %02x offset = 0x%x length = 0x%x (%d regs)\n", cte.type, KPC_OLD_S2C_DMA_CH_NUM(cte), KPC_OLD_C2S_DMA_CH_NUM(cte), cte.offset, cte.length, cte.length / 8);
-
- kudev = kzalloc(sizeof(struct kpc_uio_device), GFP_KERNEL);
- if (!kudev){
- dev_err(&pcard->pdev->dev, "probe_core_uio: failed to kzalloc kpc_uio_device\n");
- return -ENOMEM;
- }
-
- INIT_LIST_HEAD(&kudev->list);
- kudev->pcard = pcard;
- kudev->cte = cte;
- kudev->core_num = core_num;
-
- kudev->uioinfo.priv = kudev;
- kudev->uioinfo.name = name;
- kudev->uioinfo.version = "0.0";
- if (cte.irq_count > 0){
- kudev->uioinfo.irq_flags = IRQF_SHARED;
- kudev->uioinfo.irq = pcard->pdev->irq;
- kudev->uioinfo.handler = kuio_handler;
- kudev->uioinfo.irqcontrol = kuio_irqcontrol;
- } else {
- kudev->uioinfo.irq = 0;
- }
-
- kudev->uioinfo.mem[0].name = "uiomap";
- kudev->uioinfo.mem[0].addr = pci_resource_start(pcard->pdev, REG_BAR) + cte.offset;
- kudev->uioinfo.mem[0].size = (cte.length + PAGE_SIZE-1) & ~(PAGE_SIZE-1); // Round up to nearest PAGE_SIZE boundary
- kudev->uioinfo.mem[0].memtype = UIO_MEM_PHYS;
-
- kudev->dev = device_create(kpc_uio_class, &pcard->pdev->dev, MKDEV(0,0), kudev, "%s.%d.%d.%d", kudev->uioinfo.name, pcard->card_num, cte.type, kudev->core_num);
- if (IS_ERR(kudev->dev)) {
- dev_err(&pcard->pdev->dev, "probe_core_uio device_create failed!\n");
- kfree(kudev);
- return -ENODEV;
- }
- dev_set_drvdata(kudev->dev, kudev);
-
- rv = uio_register_device(kudev->dev, &kudev->uioinfo);
- if (rv){
- dev_err(&pcard->pdev->dev, "probe_core_uio failed uio_register_device: %d\n", rv);
- put_device(kudev->dev);
- kfree(kudev);
- return rv;
- }
-
- list_add_tail(&kudev->list, &pcard->uio_devices_list);
-
- return 0;
+ struct kpc_uio_device *kudev;
+ int rv;
+
+ dev_dbg(&pcard->pdev->dev, "Found UIO core: type = %02d dma = %02x / %02x offset = 0x%x length = 0x%x (%d regs)\n", cte.type, KPC_OLD_S2C_DMA_CH_NUM(cte), KPC_OLD_C2S_DMA_CH_NUM(cte), cte.offset, cte.length, cte.length / 8);
+
+ kudev = kzalloc(sizeof(struct kpc_uio_device), GFP_KERNEL);
+ if (!kudev){
+ dev_err(&pcard->pdev->dev, "probe_core_uio: failed to kzalloc kpc_uio_device\n");
+ return -ENOMEM;
+ }
+
+ INIT_LIST_HEAD(&kudev->list);
+ kudev->pcard = pcard;
+ kudev->cte = cte;
+ kudev->core_num = core_num;
+
+ kudev->uioinfo.priv = kudev;
+ kudev->uioinfo.name = name;
+ kudev->uioinfo.version = "0.0";
+ if (cte.irq_count > 0){
+ kudev->uioinfo.irq_flags = IRQF_SHARED;
+ kudev->uioinfo.irq = pcard->pdev->irq;
+ kudev->uioinfo.handler = kuio_handler;
+ kudev->uioinfo.irqcontrol = kuio_irqcontrol;
+ } else {
+ kudev->uioinfo.irq = 0;
+ }
+
+ kudev->uioinfo.mem[0].name = "uiomap";
+ kudev->uioinfo.mem[0].addr = pci_resource_start(pcard->pdev, REG_BAR) + cte.offset;
+ kudev->uioinfo.mem[0].size = (cte.length + PAGE_SIZE-1) & ~(PAGE_SIZE-1); // Round up to nearest PAGE_SIZE boundary
+ kudev->uioinfo.mem[0].memtype = UIO_MEM_PHYS;
+
+ kudev->dev = device_create(kpc_uio_class, &pcard->pdev->dev, MKDEV(0,0), kudev, "%s.%d.%d.%d", kudev->uioinfo.name, pcard->card_num, cte.type, kudev->core_num);
+ if (IS_ERR(kudev->dev)) {
+ dev_err(&pcard->pdev->dev, "probe_core_uio device_create failed!\n");
+ kfree(kudev);
+ return -ENODEV;
+ }
+ dev_set_drvdata(kudev->dev, kudev);
+
+ rv = uio_register_device(kudev->dev, &kudev->uioinfo);
+ if (rv){
+ dev_err(&pcard->pdev->dev, "probe_core_uio failed uio_register_device: %d\n", rv);
+ put_device(kudev->dev);
+ kfree(kudev);
+ return rv;
+ }
+
+ list_add_tail(&kudev->list, &pcard->uio_devices_list);
+
+ return 0;
}


static int create_dma_engine_core(struct kp2000_device *pcard, size_t engine_regs_offset, int engine_num, int irq_num)
{
- struct mfd_cell cell = { .id = engine_num };
- struct resource resources[2];
+ struct mfd_cell cell = { .id = engine_num };
+ struct resource resources[2];

- dev_dbg(&pcard->pdev->dev, "create_dma_core(pcard = [%p], engine_regs_offset = %zx, engine_num = %d)\n", pcard, engine_regs_offset, engine_num);
+ dev_dbg(&pcard->pdev->dev, "create_dma_core(pcard = [%p], engine_regs_offset = %zx, engine_num = %d)\n", pcard, engine_regs_offset, engine_num);

- cell.platform_data = NULL;
- cell.pdata_size = 0;
- cell.name = KP_DRIVER_NAME_DMA_CONTROLLER;
- cell.num_resources = 2;
+ cell.platform_data = NULL;
+ cell.pdata_size = 0;
+ cell.name = KP_DRIVER_NAME_DMA_CONTROLLER;
+ cell.num_resources = 2;

- memset(&resources, 0, sizeof(resources));
+ memset(&resources, 0, sizeof(resources));

- resources[0].start = engine_regs_offset;
- resources[0].end = engine_regs_offset + (KPC_DMA_ENGINE_SIZE - 1);
- resources[0].flags = IORESOURCE_MEM;
+ resources[0].start = engine_regs_offset;
+ resources[0].end = engine_regs_offset + (KPC_DMA_ENGINE_SIZE - 1);
+ resources[0].flags = IORESOURCE_MEM;

- resources[1].start = irq_num;
- resources[1].end = irq_num;
- resources[1].flags = IORESOURCE_IRQ;
+ resources[1].start = irq_num;
+ resources[1].end = irq_num;
+ resources[1].flags = IORESOURCE_IRQ;

- cell.resources = resources;
+ cell.resources = resources;

- return mfd_add_devices(
- PCARD_TO_DEV(pcard), // parent
- pcard->card_num * 100, // id
- &cell, // struct mfd_cell *
- 1, // ndevs
- &pcard->dma_base_resource,
- 0, // irq_base
- NULL // struct irq_domain *
- );
+ return mfd_add_devices(
+ PCARD_TO_DEV(pcard), // parent
+ pcard->card_num * 100, // id
+ &cell, // struct mfd_cell *
+ 1, // ndevs
+ &pcard->dma_base_resource,
+ 0, // irq_base
+ NULL // struct irq_domain *
+ );
}

static int kp2000_setup_dma_controller(struct kp2000_device *pcard)
{
- int err;
- unsigned int i;
- u64 capabilities_reg;
-
- // S2C Engines
- for (i = 0 ; i < 32 ; i++){
- capabilities_reg = readq( pcard->dma_bar_base + KPC_DMA_S2C_BASE_OFFSET + (KPC_DMA_ENGINE_SIZE * i) );
- if (capabilities_reg & ENGINE_CAP_PRESENT_MASK){
- err = create_dma_engine_core(pcard, (KPC_DMA_S2C_BASE_OFFSET + (KPC_DMA_ENGINE_SIZE * i)), i, pcard->pdev->irq);
- if (err) goto err_out;
- }
- }
- // C2S Engines
- for (i = 0 ; i < 32 ; i++){
- capabilities_reg = readq( pcard->dma_bar_base + KPC_DMA_C2S_BASE_OFFSET + (KPC_DMA_ENGINE_SIZE * i) );
- if (capabilities_reg & ENGINE_CAP_PRESENT_MASK){
- err = create_dma_engine_core(pcard, (KPC_DMA_C2S_BASE_OFFSET + (KPC_DMA_ENGINE_SIZE * i)), 32+i, pcard->pdev->irq);
- if (err) goto err_out;
- }
- }
-
- return 0;
+ int err;
+ unsigned int i;
+ u64 capabilities_reg;
+
+ // S2C Engines
+ for (i = 0 ; i < 32 ; i++){
+ capabilities_reg = readq( pcard->dma_bar_base + KPC_DMA_S2C_BASE_OFFSET + (KPC_DMA_ENGINE_SIZE * i) );
+ if (capabilities_reg & ENGINE_CAP_PRESENT_MASK){
+ err = create_dma_engine_core(pcard, (KPC_DMA_S2C_BASE_OFFSET + (KPC_DMA_ENGINE_SIZE * i)), i, pcard->pdev->irq);
+ if (err) goto err_out;
+ }
+ }
+ // C2S Engines
+ for (i = 0 ; i < 32 ; i++){
+ capabilities_reg = readq( pcard->dma_bar_base + KPC_DMA_C2S_BASE_OFFSET + (KPC_DMA_ENGINE_SIZE * i) );
+ if (capabilities_reg & ENGINE_CAP_PRESENT_MASK){
+ err = create_dma_engine_core(pcard, (KPC_DMA_C2S_BASE_OFFSET + (KPC_DMA_ENGINE_SIZE * i)), 32+i, pcard->pdev->irq);
+ if (err) goto err_out;
+ }
+ }
+
+ return 0;

err_out:
- dev_err(&pcard->pdev->dev, "kp2000_setup_dma_controller: failed to add a DMA Engine: %d\n", err);
- return err;
+ dev_err(&pcard->pdev->dev, "kp2000_setup_dma_controller: failed to add a DMA Engine: %d\n", err);
+ return err;
}

int kp2000_probe_cores(struct kp2000_device *pcard)
{
- int err = 0;
- int i;
- int current_type_id;
- u64 read_val;
- unsigned int highest_core_id = 0;
- struct core_table_entry cte;
-
- dev_dbg(&pcard->pdev->dev, "kp2000_probe_cores(pcard = %p / %d)\n", pcard, pcard->card_num);
-
- err = kp2000_setup_dma_controller(pcard);
- if (err) return err;
-
- INIT_LIST_HEAD(&pcard->uio_devices_list);
-
- // First, iterate the core table looking for the highest CORE_ID
- for (i = 0 ; i < pcard->core_table_length ; i++){
- read_val = readq(pcard->sysinfo_regs_base + ((pcard->core_table_offset + i) * 8));
- parse_core_table_entry(&cte, read_val, pcard->core_table_rev);
- dbg_cte(pcard, &cte);
- if (cte.type > highest_core_id){
- highest_core_id = cte.type;
- }
- if (cte.type == KP_CORE_ID_INVALID){
- dev_info(&pcard->pdev->dev, "Found Invalid core: %016llx\n", read_val);
- }
- }
- // Then, iterate over the possible core types.
- for (current_type_id = 1 ; current_type_id <= highest_core_id ; current_type_id++){
- unsigned int core_num = 0;
- // Foreach core type, iterate the whole table and instantiate subdevices for each core.
- // Yes, this is O(n*m) but the actual runtime is small enough that it's an acceptable tradeoff.
- for (i = 0 ; i < pcard->core_table_length ; i++){
- read_val = readq(pcard->sysinfo_regs_base + ((pcard->core_table_offset + i) * 8));
- parse_core_table_entry(&cte, read_val, pcard->core_table_rev);
-
- if (cte.type != current_type_id)
- continue;
-
- switch (cte.type) {
- case KP_CORE_ID_I2C:
- err = probe_core_basic(core_num, pcard,
- KP_DRIVER_NAME_I2C, cte);
- break;
-
- case KP_CORE_ID_SPI:
- err = probe_core_basic(core_num, pcard,
- KP_DRIVER_NAME_SPI, cte);
- break;
-
- default:
- err = probe_core_uio(core_num, pcard, "kpc_uio", cte);
- break;
- }
- if (err) {
- dev_err(&pcard->pdev->dev,
- "kp2000_probe_cores: failed to add core %d: %d\n",
- i, err);
- goto error;
- }
- core_num++;
- }
- }
-
- // Finally, instantiate a UIO device for the core_table.
- cte.type = 0; // CORE_ID_BOARD_INFO
- cte.offset = 0; // board info is always at the beginning
- cte.length = 512*8;
- cte.s2c_dma_present = false;
- cte.s2c_dma_channel_num = 0;
- cte.c2s_dma_present = false;
- cte.c2s_dma_channel_num = 0;
- cte.irq_count = 0;
- cte.irq_base_num = 0;
- err = probe_core_uio(0, pcard, "kpc_uio", cte);
- if (err){
- dev_err(&pcard->pdev->dev, "kp2000_probe_cores: failed to add board_info core: %d\n", err);
- goto error;
- }
-
- return 0;
+ int err = 0;
+ int i;
+ int current_type_id;
+ u64 read_val;
+ unsigned int highest_core_id = 0;
+ struct core_table_entry cte;
+
+ dev_dbg(&pcard->pdev->dev, "kp2000_probe_cores(pcard = %p / %d)\n", pcard, pcard->card_num);
+
+ err = kp2000_setup_dma_controller(pcard);
+ if (err) return err;
+
+ INIT_LIST_HEAD(&pcard->uio_devices_list);
+
+ // First, iterate the core table looking for the highest CORE_ID
+ for (i = 0 ; i < pcard->core_table_length ; i++){
+ read_val = readq(pcard->sysinfo_regs_base + ((pcard->core_table_offset + i) * 8));
+ parse_core_table_entry(&cte, read_val, pcard->core_table_rev);
+ dbg_cte(pcard, &cte);
+ if (cte.type > highest_core_id){
+ highest_core_id = cte.type;
+ }
+ if (cte.type == KP_CORE_ID_INVALID){
+ dev_info(&pcard->pdev->dev, "Found Invalid core: %016llx\n", read_val);
+ }
+ }
+ // Then, iterate over the possible core types.
+ for (current_type_id = 1 ; current_type_id <= highest_core_id ; current_type_id++){
+ unsigned int core_num = 0;
+ // Foreach core type, iterate the whole table and instantiate subdevices for each core.
+ // Yes, this is O(n*m) but the actual runtime is small enough that it's an acceptable tradeoff.
+ for (i = 0 ; i < pcard->core_table_length ; i++){
+ read_val = readq(pcard->sysinfo_regs_base + ((pcard->core_table_offset + i) * 8));
+ parse_core_table_entry(&cte, read_val, pcard->core_table_rev);
+
+ if (cte.type != current_type_id)
+ continue;
+
+ switch (cte.type) {
+ case KP_CORE_ID_I2C:
+ err = probe_core_basic(core_num, pcard,
+ KP_DRIVER_NAME_I2C, cte);
+ break;
+
+ case KP_CORE_ID_SPI:
+ err = probe_core_basic(core_num, pcard,
+ KP_DRIVER_NAME_SPI, cte);
+ break;
+
+ default:
+ err = probe_core_uio(core_num, pcard, "kpc_uio", cte);
+ break;
+ }
+ if (err) {
+ dev_err(&pcard->pdev->dev,
+ "kp2000_probe_cores: failed to add core %d: %d\n",
+ i, err);
+ goto error;
+ }
+ core_num++;
+ }
+ }
+
+ // Finally, instantiate a UIO device for the core_table.
+ cte.type = 0; // CORE_ID_BOARD_INFO
+ cte.offset = 0; // board info is always at the beginning
+ cte.length = 512*8;
+ cte.s2c_dma_present = false;
+ cte.s2c_dma_channel_num = 0;
+ cte.c2s_dma_present = false;
+ cte.c2s_dma_channel_num = 0;
+ cte.irq_count = 0;
+ cte.irq_base_num = 0;
+ err = probe_core_uio(0, pcard, "kpc_uio", cte);
+ if (err){
+ dev_err(&pcard->pdev->dev, "kp2000_probe_cores: failed to add board_info core: %d\n", err);
+ goto error;
+ }
+
+ return 0;

error:
- kp2000_remove_cores(pcard);
- mfd_remove_devices(PCARD_TO_DEV(pcard));
- return err;
+ kp2000_remove_cores(pcard);
+ mfd_remove_devices(PCARD_TO_DEV(pcard));
+ return err;
}

void kp2000_remove_cores(struct kp2000_device *pcard)
{
- struct list_head *ptr;
- struct list_head *next;
- list_for_each_safe(ptr, next, &pcard->uio_devices_list){
- struct kpc_uio_device *kudev = list_entry(ptr, struct kpc_uio_device, list);
- uio_unregister_device(&kudev->uioinfo);
- device_unregister(kudev->dev);
- list_del(&kudev->list);
- kfree(kudev);
- }
+ struct list_head *ptr;
+ struct list_head *next;
+ list_for_each_safe(ptr, next, &pcard->uio_devices_list){
+ struct kpc_uio_device *kudev = list_entry(ptr, struct kpc_uio_device, list);
+ uio_unregister_device(&kudev->uioinfo);
+ device_unregister(kudev->dev);
+ list_del(&kudev->list);
+ kfree(kudev);
+ }
}

--
2.20.1