M7350/kernel/drivers/gpu/msm/adreno.h

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/* Copyright (c) 2008-2015, The Linux Foundation. All rights reserved.
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*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
*/
#ifndef __ADRENO_H
#define __ADRENO_H
#include "kgsl_device.h"
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#include "kgsl_sharedmem.h"
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#include "adreno_drawctxt.h"
#include "adreno_ringbuffer.h"
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#include "adreno_profile.h"
#include "adreno_dispatch.h"
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#include "kgsl_iommu.h"
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#include "adreno_perfcounter.h"
#include <linux/stat.h>
#include <linux/delay.h>
#include "a4xx_reg.h"
#ifdef CONFIG_MSM_OCMEM
#include <soc/qcom/ocmem.h>
#endif
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#define DEVICE_3D_NAME "kgsl-3d"
#define DEVICE_3D0_NAME "kgsl-3d0"
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#define ADRENO_PRIORITY_MAX_RB_LEVELS 4
/* ADRENO_DEVICE - Given a kgsl_device return the adreno device struct */
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#define ADRENO_DEVICE(device) \
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container_of(device, struct adreno_device, dev)
/* ADRENO_CONTEXT - Given a context return the adreno context struct */
#define ADRENO_CONTEXT(context) \
container_of(context, struct adreno_context, base)
/* ADRENO_GPU_DEVICE - Given an adreno device return the GPU specific struct */
#define ADRENO_GPU_DEVICE(_a) ((_a)->gpucore->gpudev)
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#define ADRENO_CHIPID_CORE(_id) (((_id) >> 24) & 0xFF)
#define ADRENO_CHIPID_MAJOR(_id) (((_id) >> 16) & 0xFF)
#define ADRENO_CHIPID_MINOR(_id) (((_id) >> 8) & 0xFF)
#define ADRENO_CHIPID_PATCH(_id) ((_id) & 0xFF)
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/* ADRENO_GPUREV - Return the GPU ID for the given adreno_device */
#define ADRENO_GPUREV(_a) ((_a)->gpucore->gpurev)
/* ADRENO_GPUREV - Return the GPU patchid for the given adreno_device */
#define ADRENO_PATCHID(_a) ((_a)->gpucore->patchid)
/*
* ADRENO_FEATURE - return true if the specified feature is supported by the GPU
* core
*/
#define ADRENO_FEATURE(_dev, _bit) \
((_dev)->gpucore->features & (_bit))
/**
* ADRENO_QUIRK - return true if the specified quirk is required by the GPU
*/
#define ADRENO_QUIRK(_dev, _bit) \
((_dev)->quirks & (_bit))
/*
* ADRENO_PREEMPT_STYLE - return preemption style
*/
#define ADRENO_PREEMPT_STYLE(flags) \
((flags & KGSL_CONTEXT_PREEMPT_STYLE_MASK) >> \
KGSL_CONTEXT_PREEMPT_STYLE_SHIFT)
/*
* return the dispatcher cmdqueue in which the given cmdbatch should
* be submitted
*/
#define ADRENO_CMDBATCH_DISPATCH_CMDQUEUE(c) \
(&((ADRENO_CONTEXT(c->context))->rb->dispatch_q))
#define ADRENO_CMDBATCH_RB(c) \
((ADRENO_CONTEXT(c->context))->rb)
/* Adreno core features */
/* The core uses OCMEM for GMEM/binning memory */
#define ADRENO_USES_OCMEM BIT(0)
/* The core supports an accelerated warm start */
#define ADRENO_WARM_START BIT(1)
/* The core supports the microcode bootstrap functionality */
#define ADRENO_USE_BOOTSTRAP BIT(2)
/* The core supports SP/TP hw controlled power collapse */
#define ADRENO_SPTP_PC BIT(3)
/* The core supports Peak Power Detection(PPD)*/
#define ADRENO_PPD BIT(4)
/* The GPU supports content protection */
#define ADRENO_CONTENT_PROTECTION BIT(5)
/* The GPU supports preemption */
#define ADRENO_PREEMPTION BIT(6)
/* The core uses GPMU for power and limit management */
#define ADRENO_GPMU BIT(7)
/* The GPMU supports Limits Management */
#define ADRENO_LM BIT(8)
/* The core uses 64 bit GPU addresses */
#define ADRENO_64BIT BIT(9)
/*
* Adreno GPU quirks - control bits for various workarounds
*/
/* Set TWOPASSUSEWFI in PC_DBG_ECO_CNTL (5XX) */
#define ADRENO_QUIRK_TWO_PASS_USE_WFI BIT(0)
/* Lock/unlock mutex to sync with the IOMMU */
#define ADRENO_QUIRK_IOMMU_SYNC BIT(1)
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/* Flags to control command packet settings */
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#define KGSL_CMD_FLAGS_NONE 0
#define KGSL_CMD_FLAGS_PMODE BIT(0)
#define KGSL_CMD_FLAGS_INTERNAL_ISSUE BIT(1)
#define KGSL_CMD_FLAGS_WFI BIT(2)
#define KGSL_CMD_FLAGS_PROFILE BIT(3)
#define KGSL_CMD_FLAGS_PWRON_FIXUP BIT(4)
#define KGSL_CMD_FLAGS_MEMLIST BIT(5)
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/* Command identifiers */
#define KGSL_CONTEXT_TO_MEM_IDENTIFIER 0x2EADBEEF
#define KGSL_CMD_IDENTIFIER 0x2EEDFACE
#define KGSL_CMD_INTERNAL_IDENTIFIER 0x2EEDD00D
#define KGSL_START_OF_IB_IDENTIFIER 0x2EADEABE
#define KGSL_END_OF_IB_IDENTIFIER 0x2ABEDEAD
#define KGSL_END_OF_FRAME_IDENTIFIER 0x2E0F2E0F
#define KGSL_NOP_IB_IDENTIFIER 0x20F20F20
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#define KGSL_START_OF_PROFILE_IDENTIFIER 0x2DEFADE1
#define KGSL_END_OF_PROFILE_IDENTIFIER 0x2DEFADE2
#define KGSL_PWRON_FIXUP_IDENTIFIER 0x2AFAFAFA
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#define ADRENO_ISTORE_START 0x5000 /* Istore offset */
#define ADRENO_NUM_CTX_SWITCH_ALLOWED_BEFORE_DRAW 50
/* One cannot wait forever for the core to idle, so set an upper limit to the
* amount of time to wait for the core to go idle
*/
#define ADRENO_IDLE_TIMEOUT (20 * 1000)
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#define ADRENO_UCHE_GMEM_BASE 0x100000
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enum adreno_gpurev {
ADRENO_REV_UNKNOWN = 0,
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ADRENO_REV_A304 = 304,
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ADRENO_REV_A305 = 305,
ADRENO_REV_A305C = 306,
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ADRENO_REV_A306 = 307,
ADRENO_REV_A306A = 308,
ADRENO_REV_A310 = 310,
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ADRENO_REV_A320 = 320,
ADRENO_REV_A330 = 330,
ADRENO_REV_A305B = 335,
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ADRENO_REV_A405 = 405,
ADRENO_REV_A418 = 418,
ADRENO_REV_A420 = 420,
ADRENO_REV_A430 = 430,
ADRENO_REV_A505 = 505,
ADRENO_REV_A506 = 506,
ADRENO_REV_A510 = 510,
ADRENO_REV_A530 = 530,
ADRENO_REV_A540 = 540,
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};
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#define ADRENO_START_WARM 0
#define ADRENO_START_COLD 1
#define ADRENO_SOFT_FAULT BIT(0)
#define ADRENO_HARD_FAULT BIT(1)
#define ADRENO_TIMEOUT_FAULT BIT(2)
#define ADRENO_IOMMU_PAGE_FAULT BIT(3)
#define ADRENO_PREEMPT_FAULT BIT(4)
#define ADRENO_SPTP_PC_CTRL 0
#define ADRENO_PPD_CTRL 1
#define ADRENO_LM_CTRL 2
/* number of throttle counters for DCVS adjustment */
#define ADRENO_GPMU_THROTTLE_COUNTERS 4
/* base for throttle counters */
#define ADRENO_GPMU_THROTTLE_COUNTERS_BASE_REG 43
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struct adreno_gpudev;
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struct adreno_busy_data {
unsigned int gpu_busy;
unsigned int vbif_ram_cycles;
unsigned int vbif_starved_ram;
unsigned int throttle_cycles[ADRENO_GPMU_THROTTLE_COUNTERS];
};
/**
* struct adreno_gpu_core - A specific GPU core definition
* @gpurev: Unique GPU revision identifier
* @core: Match for the core version of the GPU
* @major: Match for the major version of the GPU
* @minor: Match for the minor version of the GPU
* @patchid: Match for the patch revision of the GPU
* @features: Common adreno features supported by this core
* @pm4fw_name: Filename for th PM4 firmware
* @pfpfw_name: Filename for the PFP firmware
* @zap_name: Filename for the Zap Shader ucode
* @gpudev: Pointer to the GPU family specific functions for this core
* @gmem_size: Amount of binning memory (GMEM/OCMEM) to reserve for the core
* @pm4_jt_idx: Index of the jump table in the PM4 microcode
* @pm4_jt_addr: Address offset to load the jump table for the PM4 microcode
* @pfp_jt_idx: Index of the jump table in the PFP microcode
* @pfp_jt_addr: Address offset to load the jump table for the PFP microcode
* @pm4_bstrp_size: Size of the bootstrap loader for PM4 microcode
* @pfp_bstrp_size: Size of the bootstrap loader for PFP microcde
* @pfp_bstrp_ver: Version of the PFP microcode that supports bootstraping
* @shader_offset: Offset of shader from gpu reg base
* @shader_size: Shader size
* @num_protected_regs: number of protected registers
* @gpmufw_name: Filename for the GPMU firmware
* @gpmu_major: Match for the GPMU & firmware, major revision
* @gpmu_minor: Match for the GPMU & firmware, minor revision
* @gpmu_features: Supported features for any given GPMU version
* @busy_mask: mask to check if GPU is busy in RBBM_STATUS
* @lm_major: Limits Management register sequence, major revision
* @lm_minor: LM register sequence, minor revision
* @regfw_name: Filename for the register sequence firmware
* @gpmu_tsens: ID for the temporature sensor used by the GPMU
* @max_power: Max possible power draw of a core, units elephant tail hairs
*/
struct adreno_gpu_core {
enum adreno_gpurev gpurev;
unsigned int core, major, minor, patchid;
unsigned long features;
const char *pm4fw_name;
const char *pfpfw_name;
const char *zap_name;
struct adreno_gpudev *gpudev;
size_t gmem_size;
unsigned int pm4_jt_idx;
unsigned int pm4_jt_addr;
unsigned int pfp_jt_idx;
unsigned int pfp_jt_addr;
unsigned int pm4_bstrp_size;
unsigned int pfp_bstrp_size;
unsigned int pfp_bstrp_ver;
unsigned long shader_offset;
unsigned int shader_size;
unsigned int num_protected_regs;
const char *gpmufw_name;
unsigned int gpmu_major;
unsigned int gpmu_minor;
unsigned int gpmu_features;
unsigned int busy_mask;
unsigned int lm_major, lm_minor;
const char *regfw_name;
unsigned int gpmu_tsens;
unsigned int max_power;
};
/**
* struct adreno_device - The mothership structure for all adreno related info
* @dev: Reference to struct kgsl_device
* @priv: Holds the private flags specific to the adreno_device
* @chipid: Chip ID specific to the GPU
* @gmem_base: Base physical address of GMEM
* @gmem_size: GMEM size
* @gpucore: Pointer to the adreno_gpu_core structure
* @pfp_fw: Buffer which holds the pfp ucode
* @pfp_fw_size: Size of pfp ucode buffer
* @pfp_fw_version: Version of pfp ucode
* @pfp: Memory descriptor which holds pfp ucode buffer info
* @pm4_fw: Buffer which holds the pm4 ucode
* @pm4_fw_size: Size of pm4 ucode buffer
* @pm4_fw_version: Version of pm4 ucode
* @pm4: Memory descriptor which holds pm4 ucode buffer info
* @gpmu_cmds_size: Length of gpmu cmd stream
* @gpmu_cmds: gpmu cmd stream
* @ringbuffers: Array of pointers to adreno_ringbuffers
* @num_ringbuffers: Number of ringbuffers for the GPU
* @cur_rb: Pointer to the current ringbuffer
* @next_rb: Ringbuffer we are switching to during preemption
* @prev_rb: Ringbuffer we are switching from during preemption
* @fast_hang_detect: Software fault detection availability
* @ft_policy: Defines the fault tolerance policy
* @long_ib_detect: Long IB detection availability
* @ft_pf_policy: Defines the fault policy for page faults
* @ocmem_hdl: Handle to the ocmem allocated buffer
* @profile: Container for adreno profiler information
* @dispatcher: Container for adreno GPU dispatcher
* @pwron_fixup: Command buffer to run a post-power collapse shader workaround
* @pwron_fixup_dwords: Number of dwords in the command buffer
* @input_work: Work struct for turning on the GPU after a touch event
* @busy_data: Struct holding GPU VBIF busy stats
* @ram_cycles_lo: Number of DDR clock cycles for the monitor session
* @perfctr_pwr_lo: Number of cycles VBIF is stalled by DDR
* @halt: Atomic variable to check whether the GPU is currently halted
* @ctx_d_debugfs: Context debugfs node
* @pwrctrl_flag: Flag to hold adreno specific power attributes
* @cmdbatch_profile_buffer: Memdesc holding the cmdbatch profiling buffer
* @cmdbatch_profile_index: Index to store the start/stop ticks in the profiling
* buffer
* @sp_local_gpuaddr: Base GPU virtual address for SP local memory
* @sp_pvt_gpuaddr: Base GPU virtual address for SP private memory
* @lm_fw: The LM firmware handle
* @lm_sequence: Pointer to the start of the register write sequence for LM
* @lm_size: The dword size of the LM sequence
* @lm_limit: limiting value for LM
* @lm_threshold_count: register value for counter for lm threshold breakin
* @lm_threshold_cross: number of current peaks exceeding threshold
* @speed_bin: Indicate which power level set to use
* @csdev: Pointer to a coresight device (if applicable)
* @gpmu_throttle_counters - counteers for number of throttled clocks
*/
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struct adreno_device {
struct kgsl_device dev; /* Must be first field in this struct */
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unsigned long priv;
unsigned int chipid;
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unsigned long gmem_base;
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unsigned long gmem_size;
const struct adreno_gpu_core *gpucore;
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unsigned int *pfp_fw;
size_t pfp_fw_size;
unsigned int pfp_fw_version;
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struct kgsl_memdesc pfp;
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unsigned int *pm4_fw;
size_t pm4_fw_size;
unsigned int pm4_fw_version;
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struct kgsl_memdesc pm4;
size_t gpmu_cmds_size;
unsigned int *gpmu_cmds;
struct adreno_ringbuffer ringbuffers[ADRENO_PRIORITY_MAX_RB_LEVELS];
int num_ringbuffers;
struct adreno_ringbuffer *cur_rb;
struct adreno_ringbuffer *next_rb;
struct adreno_ringbuffer *prev_rb;
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unsigned int fast_hang_detect;
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unsigned long ft_policy;
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unsigned int long_ib_detect;
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unsigned long ft_pf_policy;
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struct ocmem_buf *ocmem_hdl;
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struct adreno_profile profile;
struct adreno_dispatcher dispatcher;
struct kgsl_memdesc pwron_fixup;
unsigned int pwron_fixup_dwords;
struct work_struct input_work;
struct adreno_busy_data busy_data;
unsigned int ram_cycles_lo;
unsigned int starved_ram_lo;
unsigned int perfctr_pwr_lo;
atomic_t halt;
struct dentry *ctx_d_debugfs;
unsigned long pwrctrl_flag;
struct kgsl_memdesc cmdbatch_profile_buffer;
unsigned int cmdbatch_profile_index;
uint64_t sp_local_gpuaddr;
uint64_t sp_pvt_gpuaddr;
const struct firmware *lm_fw;
uint32_t *lm_sequence;
uint32_t lm_size;
struct kgsl_memdesc preemption_counters;
struct work_struct gpmu_work;
uint32_t lm_leakage;
uint32_t lm_limit;
uint32_t lm_threshold_count;
uint32_t lm_threshold_cross;
unsigned int speed_bin;
unsigned int quirks;
struct coresight_device *csdev;
uint32_t gpmu_throttle_counters[ADRENO_GPMU_THROTTLE_COUNTERS];
};
/**
* enum adreno_device_flags - Private flags for the adreno_device
* @ADRENO_DEVICE_PWRON - Set during init after a power collapse
* @ADRENO_DEVICE_PWRON_FIXUP - Set if the target requires the shader fixup
* after power collapse
* @ADRENO_DEVICE_CORESIGHT - Set if the coresight (trace bus) registers should
* be restored after power collapse
* @ADRENO_DEVICE_HANG_INTR - Set if the hang interrupt should be enabled for
* this target
* @ADRENO_DEVICE_STARTED - Set if the device start sequence is in progress
* @ADRENO_DEVICE_FAULT - Set if the device is currently in fault (and shouldn't
* send any more commands to the ringbuffer)
* @ADRENO_DEVICE_CMDBATCH_PROFILE - Set if the device supports command batch
* profiling via the ALWAYSON counter
* @ADRENO_DEVICE_PREEMPTION - Turn on/off preemption
* @ADRENO_DEVICE_SOFT_FAULT_DETECT - Set if soft fault detect is enabled
* @ADRENO_DEVICE_GPMU_INITIALIZED - Set if GPMU firmware initialization succeed
* @ADRENO_DEVICE_ISDB_ENABLED - Set if the Integrated Shader DeBugger is
* attached and enabled
*/
enum adreno_device_flags {
ADRENO_DEVICE_PWRON = 0,
ADRENO_DEVICE_PWRON_FIXUP = 1,
ADRENO_DEVICE_INITIALIZED = 2,
ADRENO_DEVICE_CORESIGHT = 3,
ADRENO_DEVICE_HANG_INTR = 4,
ADRENO_DEVICE_STARTED = 5,
ADRENO_DEVICE_FAULT = 6,
ADRENO_DEVICE_CMDBATCH_PROFILE = 7,
ADRENO_DEVICE_GPU_REGULATOR_ENABLED = 8,
ADRENO_DEVICE_PREEMPTION = 9,
ADRENO_DEVICE_SOFT_FAULT_DETECT = 10,
ADRENO_DEVICE_GPMU_INITIALIZED = 11,
ADRENO_DEVICE_ISDB_ENABLED = 12,
};
/**
* struct adreno_cmdbatch_profile_entry - a single command batch entry in the
* kernel profiling buffer
* @started: Number of GPU ticks at start of the command batch
* @retired: Number of GPU ticks at the end of the command batch
*/
struct adreno_cmdbatch_profile_entry {
uint64_t started;
uint64_t retired;
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};
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#define ADRENO_CMDBATCH_PROFILE_COUNT \
(PAGE_SIZE / sizeof(struct adreno_cmdbatch_profile_entry))
#define ADRENO_CMDBATCH_PROFILE_OFFSET(_index, _member) \
((_index) * sizeof(struct adreno_cmdbatch_profile_entry) \
+ offsetof(struct adreno_cmdbatch_profile_entry, _member))
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/**
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* adreno_regs: List of registers that are used in kgsl driver for all
* 3D devices. Each device type has different offset value for the same
* register, so an array of register offsets are declared for every device
* and are indexed by the enumeration values defined in this enum
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*/
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enum adreno_regs {
ADRENO_REG_CP_ME_RAM_WADDR,
ADRENO_REG_CP_ME_RAM_DATA,
ADRENO_REG_CP_PFP_UCODE_DATA,
ADRENO_REG_CP_PFP_UCODE_ADDR,
ADRENO_REG_CP_WFI_PEND_CTR,
ADRENO_REG_CP_RB_BASE,
ADRENO_REG_CP_RB_BASE_HI,
ADRENO_REG_CP_RB_RPTR,
ADRENO_REG_CP_RB_WPTR,
ADRENO_REG_CP_CNTL,
ADRENO_REG_CP_ME_CNTL,
ADRENO_REG_CP_RB_CNTL,
ADRENO_REG_CP_IB1_BASE,
ADRENO_REG_CP_IB1_BASE_HI,
ADRENO_REG_CP_IB1_BUFSZ,
ADRENO_REG_CP_IB2_BASE,
ADRENO_REG_CP_IB2_BASE_HI,
ADRENO_REG_CP_IB2_BUFSZ,
ADRENO_REG_CP_TIMESTAMP,
ADRENO_REG_CP_SCRATCH_REG6,
ADRENO_REG_CP_SCRATCH_REG7,
ADRENO_REG_CP_ME_RAM_RADDR,
ADRENO_REG_CP_ROQ_ADDR,
ADRENO_REG_CP_ROQ_DATA,
ADRENO_REG_CP_MERCIU_ADDR,
ADRENO_REG_CP_MERCIU_DATA,
ADRENO_REG_CP_MERCIU_DATA2,
ADRENO_REG_CP_MEQ_ADDR,
ADRENO_REG_CP_MEQ_DATA,
ADRENO_REG_CP_HW_FAULT,
ADRENO_REG_CP_PROTECT_STATUS,
ADRENO_REG_CP_PREEMPT,
ADRENO_REG_CP_PREEMPT_DEBUG,
ADRENO_REG_CP_PREEMPT_DISABLE,
ADRENO_REG_CP_PROTECT_REG_0,
ADRENO_REG_CP_CONTEXT_SWITCH_SMMU_INFO_LO,
ADRENO_REG_CP_CONTEXT_SWITCH_SMMU_INFO_HI,
ADRENO_REG_RBBM_STATUS,
ADRENO_REG_RBBM_STATUS3,
ADRENO_REG_RBBM_PERFCTR_CTL,
ADRENO_REG_RBBM_PERFCTR_LOAD_CMD0,
ADRENO_REG_RBBM_PERFCTR_LOAD_CMD1,
ADRENO_REG_RBBM_PERFCTR_LOAD_CMD2,
ADRENO_REG_RBBM_PERFCTR_LOAD_CMD3,
ADRENO_REG_RBBM_PERFCTR_PWR_1_LO,
ADRENO_REG_RBBM_INT_0_MASK,
ADRENO_REG_RBBM_INT_0_STATUS,
ADRENO_REG_RBBM_PM_OVERRIDE2,
ADRENO_REG_RBBM_INT_CLEAR_CMD,
ADRENO_REG_RBBM_SW_RESET_CMD,
ADRENO_REG_RBBM_BLOCK_SW_RESET_CMD,
ADRENO_REG_RBBM_BLOCK_SW_RESET_CMD2,
ADRENO_REG_RBBM_CLOCK_CTL,
ADRENO_REG_VPC_DEBUG_RAM_SEL,
ADRENO_REG_VPC_DEBUG_RAM_READ,
ADRENO_REG_PA_SC_AA_CONFIG,
ADRENO_REG_SQ_GPR_MANAGEMENT,
ADRENO_REG_SQ_INST_STORE_MANAGMENT,
ADRENO_REG_TP0_CHICKEN,
ADRENO_REG_RBBM_RBBM_CTL,
ADRENO_REG_UCHE_INVALIDATE0,
ADRENO_REG_UCHE_INVALIDATE1,
ADRENO_REG_RBBM_PERFCTR_LOAD_VALUE_LO,
ADRENO_REG_RBBM_PERFCTR_LOAD_VALUE_HI,
ADRENO_REG_RBBM_SECVID_TRUST_CONTROL,
ADRENO_REG_RBBM_ALWAYSON_COUNTER_LO,
ADRENO_REG_RBBM_ALWAYSON_COUNTER_HI,
ADRENO_REG_RBBM_SECVID_TRUST_CONFIG,
ADRENO_REG_RBBM_SECVID_TSB_CONTROL,
ADRENO_REG_RBBM_SECVID_TSB_TRUSTED_BASE,
ADRENO_REG_RBBM_SECVID_TSB_TRUSTED_BASE_HI,
ADRENO_REG_RBBM_SECVID_TSB_TRUSTED_SIZE,
ADRENO_REG_VBIF_XIN_HALT_CTRL0,
ADRENO_REG_VBIF_XIN_HALT_CTRL1,
ADRENO_REG_VBIF_VERSION,
ADRENO_REG_REGISTER_MAX,
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};
/**
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* adreno_reg_offsets: Holds array of register offsets
* @offsets: Offset array of size defined by enum adreno_regs
* @offset_0: This is the index of the register in offset array whose value
* is 0. 0 is a valid register offset and during initialization of the
* offset array we need to know if an offset value is correctly defined to 0
*/
struct adreno_reg_offsets {
unsigned int *const offsets;
enum adreno_regs offset_0;
};
#define ADRENO_REG_UNUSED 0xFFFFFFFF
#define ADRENO_REG_SKIP 0xFFFFFFFE
#define ADRENO_REG_DEFINE(_offset, _reg) [_offset] = _reg
/*
* struct adreno_vbif_data - Describes vbif register value pair
* @reg: Offset to vbif register
* @val: The value that should be programmed in the register at reg
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*/
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struct adreno_vbif_data {
unsigned int reg;
unsigned int val;
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};
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/*
* struct adreno_vbif_platform - Holds an array of vbif reg value pairs
* for a particular core
* @devfunc: Pointer to platform/core identification function
* @vbif: Array of reg value pairs for vbif registers
*/
struct adreno_vbif_platform {
int(*devfunc)(struct adreno_device *);
const struct adreno_vbif_data *vbif;
};
/*
* struct adreno_vbif_snapshot_registers - Holds an array of vbif registers
* listed for snapshot dump for a particular core
* @version: vbif version
* @registers: vbif registers listed for snapshot dump
* @count: count of vbif registers listed for snapshot
*/
struct adreno_vbif_snapshot_registers {
const unsigned int version;
const unsigned int *registers;
const int count;
};
/**
* struct adreno_coresight_register - Definition for a coresight (tracebus)
* debug register
* @offset: Offset of the debug register in the KGSL mmio region
* @initial: Default value to write when coresight is enabled
* @value: Current shadow value of the register (to be reprogrammed after power
* collapse)
*/
struct adreno_coresight_register {
unsigned int offset;
unsigned int initial;
unsigned int value;
};
struct adreno_coresight_attr {
struct device_attribute attr;
struct adreno_coresight_register *reg;
};
ssize_t adreno_coresight_show_register(struct device *device,
struct device_attribute *attr, char *buf);
ssize_t adreno_coresight_store_register(struct device *dev,
struct device_attribute *attr, const char *buf, size_t size);
#define ADRENO_CORESIGHT_ATTR(_attrname, _reg) \
struct adreno_coresight_attr coresight_attr_##_attrname = { \
__ATTR(_attrname, S_IRUGO | S_IWUSR, \
adreno_coresight_show_register, \
adreno_coresight_store_register), \
(_reg), }
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/**
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* struct adreno_coresight - GPU specific coresight definition
* @registers - Array of GPU specific registers to configure trace bus output
* @count - Number of registers in the array
* @groups - Pointer to an attribute list of control files
*/
struct adreno_coresight {
struct adreno_coresight_register *registers;
unsigned int count;
const struct attribute_group **groups;
};
struct adreno_irq_funcs {
void (*func)(struct adreno_device *, int);
};
#define ADRENO_IRQ_CALLBACK(_c) { .func = _c }
struct adreno_irq {
unsigned int mask;
struct adreno_irq_funcs *funcs;
};
/*
* struct adreno_debugbus_block - Holds info about debug buses of a chip
* @block_id: Bus identifier
* @dwords: Number of dwords of data that this block holds
*/
struct adreno_debugbus_block {
unsigned int block_id;
unsigned int dwords;
};
/*
* struct adreno_snapshot_section_sizes - Structure holding the size of
* different sections dumped during device snapshot
* @cp_pfp: CP PFP data section size
* @cp_me: CP ME data section size
* @vpc_mem: VPC memory section size
* @cp_meq: CP MEQ size
* @shader_mem: Size of shader memory of 1 shader section
* @cp_merciu: CP MERCIU size
* @roq: ROQ size
*/
struct adreno_snapshot_sizes {
int cp_pfp;
int cp_me;
int vpc_mem;
int cp_meq;
int shader_mem;
int cp_merciu;
int roq;
};
/*
* struct adreno_snapshot_data - Holds data used in snapshot
* @sect_sizes: Has sections sizes
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*/
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struct adreno_snapshot_data {
struct adreno_snapshot_sizes *sect_sizes;
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};
struct adreno_gpudev {
/*
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* These registers are in a different location on different devices,
* so define them in the structure and use them as variables.
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*/
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const struct adreno_reg_offsets *reg_offsets;
const struct adreno_ft_perf_counters *ft_perf_counters;
unsigned int ft_perf_counters_count;
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struct adreno_perfcounters *perfcounters;
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const struct adreno_invalid_countables
*invalid_countables;
struct adreno_snapshot_data *snapshot_data;
struct adreno_coresight *coresight;
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struct adreno_irq *irq;
int num_prio_levels;
unsigned int vbif_xin_halt_ctrl0_mask;
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/* GPU specific function hooks */
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void (*irq_trace)(struct adreno_device *, unsigned int status);
void (*snapshot)(struct adreno_device *, struct kgsl_snapshot *);
void (*platform_setup)(struct adreno_device *);
void (*init)(struct adreno_device *);
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int (*rb_init)(struct adreno_device *, struct adreno_ringbuffer *);
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int (*hw_init)(struct adreno_device *);
int (*microcode_read)(struct adreno_device *);
int (*microcode_load)(struct adreno_device *, unsigned int start_type);
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void (*perfcounter_init)(struct adreno_device *);
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void (*perfcounter_close)(struct adreno_device *);
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void (*start)(struct adreno_device *);
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bool (*is_sptp_idle)(struct adreno_device *);
int (*regulator_enable)(struct adreno_device *);
void (*regulator_disable)(struct adreno_device *);
void (*pwrlevel_change_settings)(struct adreno_device *,
unsigned int prelevel, unsigned int postlevel,
bool post);
int (*preemption_pre_ibsubmit)(struct adreno_device *,
struct adreno_ringbuffer *, unsigned int *,
struct kgsl_context *, uint64_t cond_addr,
struct kgsl_memobj_node *);
int (*preemption_post_ibsubmit)(struct adreno_device *,
struct adreno_ringbuffer *, unsigned int *,
struct kgsl_context *);
int (*preemption_token)(struct adreno_device *,
struct adreno_ringbuffer *, unsigned int *,
uint64_t gpuaddr);
int (*preemption_init)(struct adreno_device *);
void (*preemption_schedule)(struct adreno_device *);
void (*enable_64bit)(struct adreno_device *);
void (*pre_reset)(struct adreno_device *);
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};
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struct log_field {
bool show;
const char *display;
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};
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/**
* enum kgsl_ft_policy_bits - KGSL fault tolerance policy bits
* @KGSL_FT_OFF: Disable fault detection (not used)
* @KGSL_FT_REPLAY: Replay the faulting command
* @KGSL_FT_SKIPIB: Skip the faulting indirect buffer
* @KGSL_FT_SKIPFRAME: Skip the frame containing the faulting IB
* @KGSL_FT_DISABLE: Tells the dispatcher to disable FT for the command batch
* @KGSL_FT_TEMP_DISABLE: Disables FT for all commands
* @KGSL_FT_THROTTLE: Disable the context if it faults too often
* @KGSL_FT_SKIPCMD: Skip the command containing the faulting IB
*/
enum kgsl_ft_policy_bits {
KGSL_FT_OFF = 0,
KGSL_FT_REPLAY = 1,
KGSL_FT_SKIPIB = 2,
KGSL_FT_SKIPFRAME = 3,
KGSL_FT_DISABLE = 4,
KGSL_FT_TEMP_DISABLE = 5,
KGSL_FT_THROTTLE = 6,
KGSL_FT_SKIPCMD = 7,
/* KGSL_FT_MAX_BITS is used to calculate the mask */
KGSL_FT_MAX_BITS,
/* Internal bits - set during GFT */
/* Skip the PM dump on replayed command batches */
KGSL_FT_SKIP_PMDUMP = 31,
};
#define KGSL_FT_POLICY_MASK GENMASK(KGSL_FT_MAX_BITS - 1, 0)
#define KGSL_FT_DEFAULT_POLICY \
(BIT(KGSL_FT_REPLAY) | \
BIT(KGSL_FT_SKIPCMD) | \
BIT(KGSL_FT_THROTTLE))
#define ADRENO_FT_TYPES \
{ BIT(KGSL_FT_OFF), "off" }, \
{ BIT(KGSL_FT_REPLAY), "replay" }, \
{ BIT(KGSL_FT_SKIPIB), "skipib" }, \
{ BIT(KGSL_FT_SKIPFRAME), "skipframe" }, \
{ BIT(KGSL_FT_DISABLE), "disable" }, \
{ BIT(KGSL_FT_TEMP_DISABLE), "temp" }, \
{ BIT(KGSL_FT_THROTTLE), "throttle"}, \
{ BIT(KGSL_FT_SKIPCMD), "skipcmd" }
/**
* enum kgsl_ft_pagefault_policy_bits - KGSL pagefault policy bits
* @KGSL_FT_PAGEFAULT_INT_ENABLE: No longer used, but retained for compatibility
* @KGSL_FT_PAGEFAULT_GPUHALT_ENABLE: enable GPU halt on pagefaults
* @KGSL_FT_PAGEFAULT_LOG_ONE_PER_PAGE: log one pagefault per page
* @KGSL_FT_PAGEFAULT_LOG_ONE_PER_INT: log one pagefault per interrupt
*/
enum {
KGSL_FT_PAGEFAULT_INT_ENABLE = 0,
KGSL_FT_PAGEFAULT_GPUHALT_ENABLE = 1,
KGSL_FT_PAGEFAULT_LOG_ONE_PER_PAGE = 2,
KGSL_FT_PAGEFAULT_LOG_ONE_PER_INT = 3,
/* KGSL_FT_PAGEFAULT_MAX_BITS is used to calculate the mask */
KGSL_FT_PAGEFAULT_MAX_BITS,
};
#define KGSL_FT_PAGEFAULT_MASK GENMASK(KGSL_FT_PAGEFAULT_MAX_BITS - 1, 0)
#define KGSL_FT_PAGEFAULT_DEFAULT_POLICY 0
#define FOR_EACH_RINGBUFFER(_dev, _rb, _i) \
for ((_i) = 0, (_rb) = &((_dev)->ringbuffers[0]); \
(_i) < (_dev)->num_ringbuffers; \
(_i)++, (_rb)++)
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struct adreno_ft_perf_counters {
unsigned int counter;
unsigned int countable;
};
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extern unsigned int *adreno_ft_regs;
extern unsigned int adreno_ft_regs_num;
extern unsigned int *adreno_ft_regs_val;
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extern struct adreno_gpudev adreno_a3xx_gpudev;
extern struct adreno_gpudev adreno_a4xx_gpudev;
extern struct adreno_gpudev adreno_a5xx_gpudev;
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extern int adreno_wake_nice;
extern unsigned int adreno_wake_timeout;
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long adreno_ioctl(struct kgsl_device_private *dev_priv,
unsigned int cmd, unsigned long arg);
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long adreno_ioctl_helper(struct kgsl_device_private *dev_priv,
unsigned int cmd, unsigned long arg,
const struct kgsl_ioctl *cmds, int len);
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int adreno_spin_idle(struct kgsl_device *device, unsigned int timeout);
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int adreno_idle(struct kgsl_device *device);
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bool adreno_isidle(struct kgsl_device *device);
int adreno_set_constraint(struct kgsl_device *device,
struct kgsl_context *context,
struct kgsl_device_constraint *constraint);
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void adreno_shadermem_regread(struct kgsl_device *device,
unsigned int offsetwords,
unsigned int *value);
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void adreno_snapshot(struct kgsl_device *device,
struct kgsl_snapshot *snapshot,
struct kgsl_context *context);
int adreno_reset(struct kgsl_device *device, int fault);
void adreno_fault_skipcmd_detached(struct kgsl_device *device,
struct adreno_context *drawctxt,
struct kgsl_cmdbatch *cmdbatch);
int adreno_a3xx_pwron_fixup_init(struct adreno_device *adreno_dev);
int adreno_a4xx_pwron_fixup_init(struct adreno_device *adreno_dev);
int adreno_coresight_init(struct adreno_device *adreno_dev);
void adreno_coresight_start(struct adreno_device *adreno_dev);
void adreno_coresight_stop(struct adreno_device *adreno_dev);
void adreno_coresight_remove(struct adreno_device *adreno_dev);
bool adreno_hw_isidle(struct adreno_device *adreno_dev);
int adreno_iommu_set_pt_ctx(struct adreno_ringbuffer *rb,
struct kgsl_pagetable *new_pt,
struct adreno_context *drawctxt);
int adreno_iommu_init(struct adreno_device *adreno_dev);
void adreno_iommu_set_pt_generate_rb_cmds(struct adreno_ringbuffer *rb,
struct kgsl_pagetable *pt);
void adreno_fault_detect_start(struct adreno_device *adreno_dev);
void adreno_fault_detect_stop(struct adreno_device *adreno_dev);
void adreno_hang_int_callback(struct adreno_device *adreno_dev, int bit);
void adreno_cp_callback(struct adreno_device *adreno_dev, int bit);
unsigned int adreno_iommu_set_pt_ib(struct adreno_ringbuffer *rb,
unsigned int *cmds,
struct kgsl_pagetable *pt);
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unsigned int adreno_iommu_set_pt_generate_cmds(
struct adreno_ringbuffer *rb,
unsigned int *cmds,
struct kgsl_pagetable *pt);
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int adreno_sysfs_init(struct kgsl_device *device);
void adreno_sysfs_close(struct kgsl_device *device);
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void adreno_irqctrl(struct adreno_device *adreno_dev, int state);
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long adreno_ioctl_perfcounter_get(struct kgsl_device_private *dev_priv,
unsigned int cmd, void *data);
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long adreno_ioctl_perfcounter_put(struct kgsl_device_private *dev_priv,
unsigned int cmd, void *data);
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int adreno_efuse_map(struct adreno_device *adreno_dev);
int adreno_efuse_read_u32(struct adreno_device *adreno_dev, unsigned int offset,
unsigned int *val);
void adreno_efuse_unmap(struct adreno_device *adreno_dev);
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#define ADRENO_TARGET(_name, _id) \
static inline int adreno_is_##_name(struct adreno_device *adreno_dev) \
{ \
return (ADRENO_GPUREV(adreno_dev) == (_id)); \
}
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static inline int adreno_is_a3xx(struct adreno_device *adreno_dev)
{
return ((ADRENO_GPUREV(adreno_dev) >= 300) &&
(ADRENO_GPUREV(adreno_dev) < 400));
}
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ADRENO_TARGET(a304, ADRENO_REV_A304)
ADRENO_TARGET(a305, ADRENO_REV_A305)
ADRENO_TARGET(a305b, ADRENO_REV_A305B)
ADRENO_TARGET(a305c, ADRENO_REV_A305C)
ADRENO_TARGET(a306, ADRENO_REV_A306)
ADRENO_TARGET(a306a, ADRENO_REV_A306A)
ADRENO_TARGET(a310, ADRENO_REV_A310)
ADRENO_TARGET(a320, ADRENO_REV_A320)
ADRENO_TARGET(a330, ADRENO_REV_A330)
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static inline int adreno_is_a330v2(struct adreno_device *adreno_dev)
{
return ((ADRENO_GPUREV(adreno_dev) == ADRENO_REV_A330) &&
(ADRENO_CHIPID_PATCH(adreno_dev->chipid) > 0));
}
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static inline int adreno_is_a330v21(struct adreno_device *adreno_dev)
{
return ((ADRENO_GPUREV(adreno_dev) == ADRENO_REV_A330) &&
(ADRENO_CHIPID_PATCH(adreno_dev->chipid) > 0xF));
}
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static inline int adreno_is_a4xx(struct adreno_device *adreno_dev)
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{
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return ADRENO_GPUREV(adreno_dev) >= 400 &&
ADRENO_GPUREV(adreno_dev) < 500;
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}
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ADRENO_TARGET(a405, ADRENO_REV_A405);
static inline int adreno_is_a405v2(struct adreno_device *adreno_dev)
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{
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return (ADRENO_GPUREV(adreno_dev) == ADRENO_REV_A405) &&
(ADRENO_CHIPID_PATCH(adreno_dev->chipid) == 0x10);
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}
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ADRENO_TARGET(a418, ADRENO_REV_A418)
ADRENO_TARGET(a420, ADRENO_REV_A420)
ADRENO_TARGET(a430, ADRENO_REV_A430)
static inline int adreno_is_a430v2(struct adreno_device *adreno_dev)
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{
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return ((ADRENO_GPUREV(adreno_dev) == ADRENO_REV_A430) &&
(ADRENO_CHIPID_PATCH(adreno_dev->chipid) == 1));
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}
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static inline int adreno_is_a5xx(struct adreno_device *adreno_dev)
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{
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return ADRENO_GPUREV(adreno_dev) >= 500 &&
ADRENO_GPUREV(adreno_dev) < 600;
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}
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ADRENO_TARGET(a505, ADRENO_REV_A505)
ADRENO_TARGET(a506, ADRENO_REV_A506)
ADRENO_TARGET(a510, ADRENO_REV_A510)
ADRENO_TARGET(a530, ADRENO_REV_A530)
ADRENO_TARGET(a540, ADRENO_REV_A540)
static inline int adreno_is_a530v1(struct adreno_device *adreno_dev)
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{
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return (ADRENO_GPUREV(adreno_dev) == ADRENO_REV_A530) &&
(ADRENO_CHIPID_PATCH(adreno_dev->chipid) == 0);
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}
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static inline int adreno_is_a530v2(struct adreno_device *adreno_dev)
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{
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return (ADRENO_GPUREV(adreno_dev) == ADRENO_REV_A530) &&
(ADRENO_CHIPID_PATCH(adreno_dev->chipid) == 1);
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}
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static inline int adreno_is_a530v3(struct adreno_device *adreno_dev)
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{
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return (ADRENO_GPUREV(adreno_dev) == ADRENO_REV_A530) &&
(ADRENO_CHIPID_PATCH(adreno_dev->chipid) == 2);
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}
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static inline int adreno_is_a505_or_a506(struct adreno_device *adreno_dev)
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{
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return ADRENO_GPUREV(adreno_dev) >= 505 &&
ADRENO_GPUREV(adreno_dev) <= 506;
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}
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static inline int adreno_is_a540v1(struct adreno_device *adreno_dev)
{
return (ADRENO_GPUREV(adreno_dev) == ADRENO_REV_A540) &&
(ADRENO_CHIPID_PATCH(adreno_dev->chipid) == 0);
}
/**
* adreno_context_timestamp() - Return the last queued timestamp for the context
* @k_ctxt: Pointer to the KGSL context to query
*
* Return the last queued context for the given context. This is used to verify
* that incoming requests are not using an invalid (unsubmitted) timestamp
*/
static inline int adreno_context_timestamp(struct kgsl_context *k_ctxt)
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{
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struct adreno_context *drawctxt = ADRENO_CONTEXT(k_ctxt);
return drawctxt->timestamp;
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}
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/*
* adreno_checkreg_off() - Checks the validity of a register enum
* @adreno_dev: Pointer to adreno device
* @offset_name: The register enum that is checked
*/
static inline bool adreno_checkreg_off(struct adreno_device *adreno_dev,
enum adreno_regs offset_name)
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{
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struct adreno_gpudev *gpudev = ADRENO_GPU_DEVICE(adreno_dev);
if (offset_name >= ADRENO_REG_REGISTER_MAX ||
ADRENO_REG_UNUSED == gpudev->reg_offsets->offsets[offset_name])
BUG();
/*
* GPU register programming is kept common as much as possible
* across the cores, Use ADRENO_REG_SKIP when certain register
* programming needs to be skipped for certain GPU cores.
* Example: Certain registers on a5xx like IB1_BASE are 64 bit.
* Common programming programs 64bit register but upper 32 bits
* are skipped in a4xx and a3xx using ADRENO_REG_SKIP.
*/
if (ADRENO_REG_SKIP == gpudev->reg_offsets->offsets[offset_name])
return false;
return true;
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}
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/*
* adreno_readreg() - Read a register by getting its offset from the
* offset array defined in gpudev node
* @adreno_dev: Pointer to the the adreno device
* @offset_name: The register enum that is to be read
* @val: Register value read is placed here
*/
static inline void adreno_readreg(struct adreno_device *adreno_dev,
enum adreno_regs offset_name, unsigned int *val)
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{
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struct adreno_gpudev *gpudev = ADRENO_GPU_DEVICE(adreno_dev);
if (adreno_checkreg_off(adreno_dev, offset_name))
kgsl_regread(&adreno_dev->dev,
gpudev->reg_offsets->offsets[offset_name], val);
else
*val = 0;
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}
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/*
* adreno_writereg() - Write a register by getting its offset from the
* offset array defined in gpudev node
* @adreno_dev: Pointer to the the adreno device
* @offset_name: The register enum that is to be written
* @val: Value to write
*/
static inline void adreno_writereg(struct adreno_device *adreno_dev,
enum adreno_regs offset_name, unsigned int val)
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{
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struct adreno_gpudev *gpudev = ADRENO_GPU_DEVICE(adreno_dev);
if (adreno_checkreg_off(adreno_dev, offset_name))
kgsl_regwrite(&adreno_dev->dev,
gpudev->reg_offsets->offsets[offset_name], val);
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}
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/*
* adreno_getreg() - Returns the offset value of a register from the
* register offset array in the gpudev node
* @adreno_dev: Pointer to the the adreno device
* @offset_name: The register enum whore offset is returned
*/
static inline unsigned int adreno_getreg(struct adreno_device *adreno_dev,
enum adreno_regs offset_name)
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{
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struct adreno_gpudev *gpudev = ADRENO_GPU_DEVICE(adreno_dev);
if (!adreno_checkreg_off(adreno_dev, offset_name))
return ADRENO_REG_REGISTER_MAX;
return gpudev->reg_offsets->offsets[offset_name];
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}
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/**
* adreno_gpu_fault() - Return the current state of the GPU
* @adreno_dev: A pointer to the adreno_device to query
*
* Return 0 if there is no fault or positive with the last type of fault that
* occurred
*/
static inline unsigned int adreno_gpu_fault(struct adreno_device *adreno_dev)
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{
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smp_rmb();
return atomic_read(&adreno_dev->dispatcher.fault);
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}
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/**
* adreno_set_gpu_fault() - Set the current fault status of the GPU
* @adreno_dev: A pointer to the adreno_device to set
* @state: fault state to set
*
*/
static inline void adreno_set_gpu_fault(struct adreno_device *adreno_dev,
int state)
{
/* only set the fault bit w/o overwriting other bits */
atomic_add(state, &adreno_dev->dispatcher.fault);
smp_wmb();
}
/**
* adreno_clear_gpu_fault() - Clear the GPU fault register
* @adreno_dev: A pointer to an adreno_device structure
*
* Clear the GPU fault status for the adreno device
*/
static inline void adreno_clear_gpu_fault(struct adreno_device *adreno_dev)
{
atomic_set(&adreno_dev->dispatcher.fault, 0);
smp_wmb();
}
/**
* adreno_gpu_halt() - Return the GPU halt refcount
* @adreno_dev: A pointer to the adreno_device
*/
static inline int adreno_gpu_halt(struct adreno_device *adreno_dev)
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{
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smp_rmb();
return atomic_read(&adreno_dev->halt);
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}
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/**
* adreno_clear_gpu_halt() - Clear the GPU halt refcount
* @adreno_dev: A pointer to the adreno_device
*/
static inline void adreno_clear_gpu_halt(struct adreno_device *adreno_dev)
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{
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atomic_set(&adreno_dev->halt, 0);
smp_wmb();
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}
/**
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* adreno_get_gpu_halt() - Increment GPU halt refcount
* @adreno_dev: A pointer to the adreno_device
*/
static inline void adreno_get_gpu_halt(struct adreno_device *adreno_dev)
{
atomic_inc(&adreno_dev->halt);
}
/**
* adreno_put_gpu_halt() - Decrement GPU halt refcount
* @adreno_dev: A pointer to the adreno_device
*/
static inline void adreno_put_gpu_halt(struct adreno_device *adreno_dev)
{
if (atomic_dec_return(&adreno_dev->halt) < 0)
BUG();
}
/*
* adreno_vbif_start() - Program VBIF registers, called in device start
* @adreno_dev: Pointer to device whose vbif data is to be programmed
* @vbif_platforms: list register value pair of vbif for a family
* of adreno cores
* @num_platforms: Number of platforms contained in vbif_platforms
*/
static inline void adreno_vbif_start(struct adreno_device *adreno_dev,
const struct adreno_vbif_platform *vbif_platforms,
int num_platforms)
{
int i;
const struct adreno_vbif_data *vbif = NULL;
for (i = 0; i < num_platforms; i++) {
if (vbif_platforms[i].devfunc(adreno_dev)) {
vbif = vbif_platforms[i].vbif;
break;
}
}
while ((vbif != NULL) && (vbif->reg != 0)) {
kgsl_regwrite(&adreno_dev->dev, vbif->reg, vbif->val);
vbif++;
}
}
/**
* adreno_set_protected_registers() - Protect the specified range of registers
* from being accessed by the GPU
* @adreno_dev: pointer to the Adreno device
* @index: Pointer to the index of the protect mode register to write to
* @reg: Starting dword register to write
* @mask_len: Size of the mask to protect (# of registers = 2 ** mask_len)
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*
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* Add the range of registers to the list of protected mode registers that will
* cause an exception if the GPU accesses them. There are 16 available
* protected mode registers. Index is used to specify which register to write
* to - the intent is to call this function multiple times with the same index
* pointer for each range and the registers will be magically programmed in
* incremental fashion
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*/
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static inline void adreno_set_protected_registers(
struct adreno_device *adreno_dev, unsigned int *index,
unsigned int reg, int mask_len)
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{
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unsigned int val;
unsigned int base =
adreno_getreg(adreno_dev, ADRENO_REG_CP_PROTECT_REG_0);
unsigned int offset = *index;
if (adreno_dev->gpucore->num_protected_regs)
BUG_ON(*index >= adreno_dev->gpucore->num_protected_regs);
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else
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BUG_ON(*index >= 16);
/*
* On A4XX targets with more than 16 protected mode registers
* the upper registers are not contiguous with the lower 16
* registers so we have to adjust the base and offset accordingly
*/
if (adreno_is_a4xx(adreno_dev) && *index >= 0x10) {
base = A4XX_CP_PROTECT_REG_10;
offset = *index - 0x10;
}
val = 0x60000000 | ((mask_len & 0x1F) << 24) | ((reg << 2) & 0xFFFFF);
kgsl_regwrite(&adreno_dev->dev, base + offset, val);
*index = *index + 1;
}
#ifdef CONFIG_DEBUG_FS
void adreno_debugfs_init(struct adreno_device *adreno_dev);
void adreno_context_debugfs_init(struct adreno_device *,
struct adreno_context *);
#else
static inline void adreno_debugfs_init(struct adreno_device *adreno_dev) { }
static inline void adreno_context_debugfs_init(struct adreno_device *device,
struct adreno_context *context)
{ }
#endif
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/**
* adreno_compare_pm4_version() - Compare the PM4 microcode version
* @adreno_dev: Pointer to the adreno_device struct
* @version: Version number to compare again
*
* Compare the current version against the specified version and return -1 if
* the current code is older, 0 if equal or 1 if newer.
*/
static inline int adreno_compare_pm4_version(struct adreno_device *adreno_dev,
unsigned int version)
{
if (adreno_dev->pm4_fw_version == version)
return 0;
return (adreno_dev->pm4_fw_version > version) ? 1 : -1;
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}
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/**
* adreno_compare_pfp_version() - Compare the PFP microcode version
* @adreno_dev: Pointer to the adreno_device struct
* @version: Version number to compare against
*
* Compare the current version against the specified version and return -1 if
* the current code is older, 0 if equal or 1 if newer.
*/
static inline int adreno_compare_pfp_version(struct adreno_device *adreno_dev,
unsigned int version)
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{
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if (adreno_dev->pfp_fw_version == version)
return 0;
return (adreno_dev->pfp_fw_version > version) ? 1 : -1;
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}
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/*
* adreno_bootstrap_ucode() - Checks if Ucode bootstrapping is supported
* @adreno_dev: Pointer to the the adreno device
*/
static inline int adreno_bootstrap_ucode(struct adreno_device *adreno_dev)
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{
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return (ADRENO_FEATURE(adreno_dev, ADRENO_USE_BOOTSTRAP) &&
adreno_compare_pfp_version(adreno_dev,
adreno_dev->gpucore->pfp_bstrp_ver) >= 0) ? 1 : 0;
}
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/**
* adreno_preempt_state() - Check if preemption state is equal to given state
* @adreno_dev: Device whose preemption state is checked
* @state: State to compare against
*/
static inline unsigned int adreno_preempt_state(
struct adreno_device *adreno_dev,
enum adreno_dispatcher_preempt_states state)
{
return atomic_read(&adreno_dev->dispatcher.preemption_state) ==
state;
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}
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/**
* adreno_get_rptr() - Get the current ringbuffer read pointer
* @rb: Pointer the ringbuffer to query
*
* Get the current read pointer from the GPU register.
*/
static inline unsigned int
adreno_get_rptr(struct adreno_ringbuffer *rb)
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{
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struct adreno_device *adreno_dev = ADRENO_DEVICE(rb->device);
if (adreno_dev->cur_rb == rb &&
adreno_preempt_state(adreno_dev,
ADRENO_DISPATCHER_PREEMPT_CLEAR))
adreno_readreg(adreno_dev, ADRENO_REG_CP_RB_RPTR, &(rb->rptr));
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return rb->rptr;
}
static inline bool adreno_is_preemption_enabled(
struct adreno_device *adreno_dev)
{
return test_bit(ADRENO_DEVICE_PREEMPTION, &adreno_dev->priv);
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}
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/**
* adreno_ctx_get_rb() - Return the ringbuffer that a context should
* use based on priority
* @adreno_dev: The adreno device that context is using
* @drawctxt: The context pointer
*/
static inline struct adreno_ringbuffer *adreno_ctx_get_rb(
struct adreno_device *adreno_dev,
struct adreno_context *drawctxt)
{
struct kgsl_context *context;
int level;
if (!drawctxt)
return NULL;
context = &(drawctxt->base);
/*
* If preemption is disabled then everybody needs to go on the same
* ringbuffer
*/
if (!adreno_is_preemption_enabled(adreno_dev))
return &(adreno_dev->ringbuffers[0]);
/*
* Math to convert the priority field in context structure to an RB ID.
* Divide up the context priority based on number of ringbuffer levels.
*/
level = context->priority / adreno_dev->num_ringbuffers;
if (level < adreno_dev->num_ringbuffers)
return &(adreno_dev->ringbuffers[level]);
else
return &(adreno_dev->ringbuffers[
adreno_dev->num_ringbuffers - 1]);
}
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/*
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* adreno_set_active_ctxs_null() - Put back reference to any active context
* and set the active context to NULL
* @adreno_dev: The adreno device
*/
static inline void adreno_set_active_ctxs_null(struct adreno_device *adreno_dev)
{
int i;
struct adreno_ringbuffer *rb;
FOR_EACH_RINGBUFFER(adreno_dev, rb, i) {
if (rb->drawctxt_active)
kgsl_context_put(&(rb->drawctxt_active->base));
rb->drawctxt_active = NULL;
kgsl_sharedmem_writel(rb->device, &rb->pagetable_desc,
offsetof(struct adreno_ringbuffer_pagetable_info,
current_rb_ptname), 0);
}
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}
/*
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* adreno_compare_prio_level() - Compares 2 priority levels based on enum values
* @p1: First priority level
* @p2: Second priority level
*
* Returns greater than 0 if p1 is higher priority, 0 if levels are equal else
* less than 0
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*/
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static inline int adreno_compare_prio_level(int p1, int p2)
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{
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return p2 - p1;
}
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void adreno_readreg64(struct adreno_device *adreno_dev,
enum adreno_regs lo, enum adreno_regs hi, uint64_t *val);
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void adreno_writereg64(struct adreno_device *adreno_dev,
enum adreno_regs lo, enum adreno_regs hi, uint64_t val);
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unsigned int adreno_iommu_set_apriv(struct adreno_device *adreno_dev,
unsigned int *cmds, int set);
static inline bool adreno_soft_fault_detect(struct adreno_device *adreno_dev)
{
return adreno_dev->fast_hang_detect &&
!test_bit(ADRENO_DEVICE_ISDB_ENABLED, &adreno_dev->priv);
}
static inline bool adreno_long_ib_detect(struct adreno_device *adreno_dev)
{
return adreno_dev->long_ib_detect &&
!test_bit(ADRENO_DEVICE_ISDB_ENABLED, &adreno_dev->priv);
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}
/*
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* adreno_support_64bit() - Check the feature flag only if it is in
* 64bit kernel otherwise return false
* adreno_dev: The adreno device
*/
#if BITS_PER_LONG == 64
static inline bool adreno_support_64bit(struct adreno_device *adreno_dev)
{
return ADRENO_FEATURE(adreno_dev, ADRENO_64BIT);
}
#else
static inline bool adreno_support_64bit(struct adreno_device *adreno_dev)
{
return false;
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}
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#endif /*BITS_PER_LONG*/
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#endif /*__ADRENO_H */