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-rw-r--r--drivers/misc/habanalabs/habanalabs.h171
1 files changed, 110 insertions, 61 deletions
diff --git a/drivers/misc/habanalabs/habanalabs.h b/drivers/misc/habanalabs/habanalabs.h
index 75862be53c60..00c949f4ccd1 100644
--- a/drivers/misc/habanalabs/habanalabs.h
+++ b/drivers/misc/habanalabs/habanalabs.h
@@ -40,8 +40,6 @@
#define HL_MAX_QUEUES 128
-#define HL_MAX_JOBS_PER_CS 64
-
/* MUST BE POWER OF 2 and larger than 1 */
#define HL_MAX_PENDING_CS 64
@@ -85,12 +83,15 @@ struct hl_fpriv;
* @QUEUE_TYPE_INT: internal queue that performs DMA inside the device's
* memories and/or operates the compute engines.
* @QUEUE_TYPE_CPU: S/W queue for communication with the device's CPU.
+ * @QUEUE_TYPE_HW: queue of DMA and compute engines jobs, for which completion
+ * notifications are sent by H/W.
*/
enum hl_queue_type {
QUEUE_TYPE_NA,
QUEUE_TYPE_EXT,
QUEUE_TYPE_INT,
- QUEUE_TYPE_CPU
+ QUEUE_TYPE_CPU,
+ QUEUE_TYPE_HW
};
/**
@@ -98,10 +99,13 @@ enum hl_queue_type {
* @type: queue type.
* @driver_only: true if only the driver is allowed to send a job to this queue,
* false otherwise.
+ * @requires_kernel_cb: true if a CB handle must be provided for jobs on this
+ * queue, false otherwise (a CB address must be provided).
*/
struct hw_queue_properties {
enum hl_queue_type type;
u8 driver_only;
+ u8 requires_kernel_cb;
};
/**
@@ -110,8 +114,8 @@ struct hw_queue_properties {
* @VM_TYPE_PHYS_PACK: mapping of DRAM memory to device virtual address.
*/
enum vm_type_t {
- VM_TYPE_USERPTR,
- VM_TYPE_PHYS_PACK
+ VM_TYPE_USERPTR = 0x1,
+ VM_TYPE_PHYS_PACK = 0x2
};
/**
@@ -127,12 +131,44 @@ enum hl_device_hw_state {
};
/**
+ * struct hl_mmu_properties - ASIC specific MMU address translation properties.
+ * @hop0_shift: shift of hop 0 mask.
+ * @hop1_shift: shift of hop 1 mask.
+ * @hop2_shift: shift of hop 2 mask.
+ * @hop3_shift: shift of hop 3 mask.
+ * @hop4_shift: shift of hop 4 mask.
+ * @hop0_mask: mask to get the PTE address in hop 0.
+ * @hop1_mask: mask to get the PTE address in hop 1.
+ * @hop2_mask: mask to get the PTE address in hop 2.
+ * @hop3_mask: mask to get the PTE address in hop 3.
+ * @hop4_mask: mask to get the PTE address in hop 4.
+ * @page_size: default page size used to allocate memory.
+ * @huge_page_size: page size used to allocate memory with huge pages.
+ */
+struct hl_mmu_properties {
+ u64 hop0_shift;
+ u64 hop1_shift;
+ u64 hop2_shift;
+ u64 hop3_shift;
+ u64 hop4_shift;
+ u64 hop0_mask;
+ u64 hop1_mask;
+ u64 hop2_mask;
+ u64 hop3_mask;
+ u64 hop4_mask;
+ u32 page_size;
+ u32 huge_page_size;
+};
+
+/**
* struct asic_fixed_properties - ASIC specific immutable properties.
* @hw_queues_props: H/W queues properties.
* @armcp_info: received various information from ArmCP regarding the H/W, e.g.
* available sensors.
* @uboot_ver: F/W U-boot version.
* @preboot_ver: F/W Preboot version.
+ * @dmmu: DRAM MMU address translation properties.
+ * @pmmu: PCI (host) MMU address translation properties.
* @sram_base_address: SRAM physical start address.
* @sram_end_address: SRAM physical end address.
* @sram_user_base_address - SRAM physical start address for user access.
@@ -169,53 +205,55 @@ enum hl_device_hw_state {
* @psoc_pci_pll_nf: PCI PLL NF value.
* @psoc_pci_pll_od: PCI PLL OD value.
* @psoc_pci_pll_div_factor: PCI PLL DIV FACTOR 1 value.
- * @completion_queues_count: number of completion queues.
* @high_pll: high PLL frequency used by the device.
* @cb_pool_cb_cnt: number of CBs in the CB pool.
* @cb_pool_cb_size: size of each CB in the CB pool.
* @tpc_enabled_mask: which TPCs are enabled.
+ * @completion_queues_count: number of completion queues.
*/
struct asic_fixed_properties {
struct hw_queue_properties hw_queues_props[HL_MAX_QUEUES];
- struct armcp_info armcp_info;
- char uboot_ver[VERSION_MAX_LEN];
- char preboot_ver[VERSION_MAX_LEN];
- u64 sram_base_address;
- u64 sram_end_address;
- u64 sram_user_base_address;
- u64 dram_base_address;
- u64 dram_end_address;
- u64 dram_user_base_address;
- u64 dram_size;
- u64 dram_pci_bar_size;
- u64 max_power_default;
- u64 va_space_host_start_address;
- u64 va_space_host_end_address;
- u64 va_space_dram_start_address;
- u64 va_space_dram_end_address;
- u64 dram_size_for_default_page_mapping;
- u64 pcie_dbi_base_address;
- u64 pcie_aux_dbi_reg_addr;
- u64 mmu_pgt_addr;
- u64 mmu_dram_default_page_addr;
- u32 mmu_pgt_size;
- u32 mmu_pte_size;
- u32 mmu_hop_table_size;
- u32 mmu_hop0_tables_total_size;
- u32 dram_page_size;
- u32 cfg_size;
- u32 sram_size;
- u32 max_asid;
- u32 num_of_events;
- u32 psoc_pci_pll_nr;
- u32 psoc_pci_pll_nf;
- u32 psoc_pci_pll_od;
- u32 psoc_pci_pll_div_factor;
- u32 high_pll;
- u32 cb_pool_cb_cnt;
- u32 cb_pool_cb_size;
- u8 completion_queues_count;
- u8 tpc_enabled_mask;
+ struct armcp_info armcp_info;
+ char uboot_ver[VERSION_MAX_LEN];
+ char preboot_ver[VERSION_MAX_LEN];
+ struct hl_mmu_properties dmmu;
+ struct hl_mmu_properties pmmu;
+ u64 sram_base_address;
+ u64 sram_end_address;
+ u64 sram_user_base_address;
+ u64 dram_base_address;
+ u64 dram_end_address;
+ u64 dram_user_base_address;
+ u64 dram_size;
+ u64 dram_pci_bar_size;
+ u64 max_power_default;
+ u64 va_space_host_start_address;
+ u64 va_space_host_end_address;
+ u64 va_space_dram_start_address;
+ u64 va_space_dram_end_address;
+ u64 dram_size_for_default_page_mapping;
+ u64 pcie_dbi_base_address;
+ u64 pcie_aux_dbi_reg_addr;
+ u64 mmu_pgt_addr;
+ u64 mmu_dram_default_page_addr;
+ u32 mmu_pgt_size;
+ u32 mmu_pte_size;
+ u32 mmu_hop_table_size;
+ u32 mmu_hop0_tables_total_size;
+ u32 dram_page_size;
+ u32 cfg_size;
+ u32 sram_size;
+ u32 max_asid;
+ u32 num_of_events;
+ u32 psoc_pci_pll_nr;
+ u32 psoc_pci_pll_nf;
+ u32 psoc_pci_pll_od;
+ u32 psoc_pci_pll_div_factor;
+ u32 high_pll;
+ u32 cb_pool_cb_cnt;
+ u32 cb_pool_cb_size;
+ u8 tpc_enabled_mask;
+ u8 completion_queues_count;
};
/**
@@ -236,8 +274,6 @@ struct hl_dma_fence {
* Command Buffers
*/
-#define HL_MAX_CB_SIZE 0x200000 /* 2MB */
-
/**
* struct hl_cb_mgr - describes a Command Buffer Manager.
* @cb_lock: protects cb_handles.
@@ -481,8 +517,8 @@ enum hl_pll_frequency {
* @get_events_stat: retrieve event queue entries histogram.
* @read_pte: read MMU page table entry from DRAM.
* @write_pte: write MMU page table entry to DRAM.
- * @mmu_invalidate_cache: flush MMU STLB cache, either with soft (L1 only) or
- * hard (L0 & L1) flush.
+ * @mmu_invalidate_cache: flush MMU STLB host/DRAM cache, either with soft
+ * (L1 only) or hard (L0 & L1) flush.
* @mmu_invalidate_cache_range: flush specific MMU STLB cache lines with
* ASID-VA-size mask.
* @send_heartbeat: send is-alive packet to ArmCP and verify response.
@@ -502,6 +538,7 @@ enum hl_pll_frequency {
* @rreg: Read a register. Needed for simulator support.
* @wreg: Write a register. Needed for simulator support.
* @halt_coresight: stop the ETF and ETR traces.
+ * @get_clk_rate: Retrieve the ASIC current and maximum clock rate in MHz
*/
struct hl_asic_funcs {
int (*early_init)(struct hl_device *hdev);
@@ -562,7 +599,8 @@ struct hl_asic_funcs {
u32 *size);
u64 (*read_pte)(struct hl_device *hdev, u64 addr);
void (*write_pte)(struct hl_device *hdev, u64 addr, u64 val);
- void (*mmu_invalidate_cache)(struct hl_device *hdev, bool is_hard);
+ void (*mmu_invalidate_cache)(struct hl_device *hdev, bool is_hard,
+ u32 flags);
void (*mmu_invalidate_cache_range)(struct hl_device *hdev, bool is_hard,
u32 asid, u64 va, u64 size);
int (*send_heartbeat)(struct hl_device *hdev);
@@ -584,6 +622,7 @@ struct hl_asic_funcs {
u32 (*rreg)(struct hl_device *hdev, u32 reg);
void (*wreg)(struct hl_device *hdev, u32 reg, u32 val);
void (*halt_coresight)(struct hl_device *hdev);
+ int (*get_clk_rate)(struct hl_device *hdev, u32 *cur_clk, u32 *max_clk);
};
@@ -688,7 +727,7 @@ struct hl_ctx_mgr {
* @sgt: pointer to the scatter-gather table that holds the pages.
* @dir: for DMA unmapping, the direction must be supplied, so save it.
* @debugfs_list: node in debugfs list of command submissions.
- * @addr: user-space virtual pointer to the start of the memory area.
+ * @addr: user-space virtual address of the start of the memory area.
* @size: size of the memory area to pin & map.
* @dma_mapped: true if the SG was mapped to DMA addresses, false otherwise.
*/
@@ -752,11 +791,14 @@ struct hl_cs {
* @userptr_list: linked-list of userptr mappings that belong to this job and
* wait for completion.
* @debugfs_list: node in debugfs list of command submission jobs.
+ * @queue_type: the type of the H/W queue this job is submitted to.
* @id: the id of this job inside a CS.
* @hw_queue_id: the id of the H/W queue this job is submitted to.
* @user_cb_size: the actual size of the CB we got from the user.
* @job_cb_size: the actual size of the CB that we put on the queue.
- * @ext_queue: whether the job is for external queue or internal queue.
+ * @is_kernel_allocated_cb: true if the CB handle we got from the user holds a
+ * handle to a kernel-allocated CB object, false
+ * otherwise (SRAM/DRAM/host address).
*/
struct hl_cs_job {
struct list_head cs_node;
@@ -766,39 +808,44 @@ struct hl_cs_job {
struct work_struct finish_work;
struct list_head userptr_list;
struct list_head debugfs_list;
+ enum hl_queue_type queue_type;
u32 id;
u32 hw_queue_id;
u32 user_cb_size;
u32 job_cb_size;
- u8 ext_queue;
+ u8 is_kernel_allocated_cb;
};
/**
- * struct hl_cs_parser - command submission paerser properties.
+ * struct hl_cs_parser - command submission parser properties.
* @user_cb: the CB we got from the user.
* @patched_cb: in case of patching, this is internal CB which is submitted on
* the queue instead of the CB we got from the IOCTL.
* @job_userptr_list: linked-list of userptr mappings that belong to the related
* job and wait for completion.
* @cs_sequence: the sequence number of the related CS.
+ * @queue_type: the type of the H/W queue this job is submitted to.
* @ctx_id: the ID of the context the related CS belongs to.
* @hw_queue_id: the id of the H/W queue this job is submitted to.
* @user_cb_size: the actual size of the CB we got from the user.
* @patched_cb_size: the size of the CB after parsing.
- * @ext_queue: whether the job is for external queue or internal queue.
* @job_id: the id of the related job inside the related CS.
+ * @is_kernel_allocated_cb: true if the CB handle we got from the user holds a
+ * handle to a kernel-allocated CB object, false
+ * otherwise (SRAM/DRAM/host address).
*/
struct hl_cs_parser {
struct hl_cb *user_cb;
struct hl_cb *patched_cb;
struct list_head *job_userptr_list;
u64 cs_sequence;
+ enum hl_queue_type queue_type;
u32 ctx_id;
u32 hw_queue_id;
u32 user_cb_size;
u32 patched_cb_size;
- u8 ext_queue;
u8 job_id;
+ u8 is_kernel_allocated_cb;
};
@@ -1048,9 +1095,10 @@ void hl_wreg(struct hl_device *hdev, u32 reg, u32 val);
#define REG_FIELD_SHIFT(reg, field) reg##_##field##_SHIFT
#define REG_FIELD_MASK(reg, field) reg##_##field##_MASK
-#define WREG32_FIELD(reg, field, val) \
- WREG32(mm##reg, (RREG32(mm##reg) & ~REG_FIELD_MASK(reg, field)) | \
- (val) << REG_FIELD_SHIFT(reg, field))
+#define WREG32_FIELD(reg, offset, field, val) \
+ WREG32(mm##reg + offset, (RREG32(mm##reg + offset) & \
+ ~REG_FIELD_MASK(reg, field)) | \
+ (val) << REG_FIELD_SHIFT(reg, field))
/* Timeout should be longer when working with simulator but cap the
* increased timeout to some maximum
@@ -1501,7 +1549,8 @@ int hl_cb_pool_init(struct hl_device *hdev);
int hl_cb_pool_fini(struct hl_device *hdev);
void hl_cs_rollback_all(struct hl_device *hdev);
-struct hl_cs_job *hl_cs_allocate_job(struct hl_device *hdev, bool ext_queue);
+struct hl_cs_job *hl_cs_allocate_job(struct hl_device *hdev,
+ enum hl_queue_type queue_type, bool is_kernel_allocated_cb);
void goya_set_asic_funcs(struct hl_device *hdev);
@@ -1513,7 +1562,7 @@ void hl_vm_fini(struct hl_device *hdev);
int hl_pin_host_memory(struct hl_device *hdev, u64 addr, u64 size,
struct hl_userptr *userptr);
-int hl_unpin_host_memory(struct hl_device *hdev, struct hl_userptr *userptr);
+void hl_unpin_host_memory(struct hl_device *hdev, struct hl_userptr *userptr);
void hl_userptr_delete_list(struct hl_device *hdev,
struct list_head *userptr_list);
bool hl_userptr_is_pinned(struct hl_device *hdev, u64 addr, u32 size,