Linux 6.14-rc3

[linux.git] / drivers / gpu / drm / i915 / display / intel_dmc.c

/*
 * Copyright © 2014 Intel Corporation
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files (the "Software"),
 * to deal in the Software without restriction, including without limitation
 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
 * Software is furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice (including the next
 * paragraph) shall be included in all copies or substantial portions of the
 * Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
 * IN THE SOFTWARE.
 *
 */

#include <linux/debugfs.h>
#include <linux/firmware.h>

#include "i915_drv.h"
#include "i915_reg.h"
#include "intel_de.h"
#include "intel_dmc.h"
#include "intel_dmc_regs.h"
#include "intel_step.h"

/**
 * DOC: DMC Firmware Support
 *
 * From gen9 onwards we have newly added DMC (Display microcontroller) in display
 * engine to save and restore the state of display engine when it enter into
 * low-power state and comes back to normal.
 */

#define INTEL_DMC_FIRMWARE_URL "https://git.kernel.org/pub/scm/linux/kernel/git/firmware/linux-firmware.git"

enum intel_dmc_id {
        DMC_FW_MAIN = 0,
        DMC_FW_PIPEA,
        DMC_FW_PIPEB,
        DMC_FW_PIPEC,
        DMC_FW_PIPED,
        DMC_FW_MAX
};

struct intel_dmc {
        struct intel_display *display;
        struct work_struct work;
        const char *fw_path;
        u32 max_fw_size; /* bytes */
        u32 version;
        struct dmc_fw_info {
                u32 mmio_count;
                i915_reg_t mmioaddr[20];
                u32 mmiodata[20];
                u32 dmc_offset;
                u32 start_mmioaddr;
                u32 dmc_fw_size; /*dwords */
                u32 *payload;
                bool present;
        } dmc_info[DMC_FW_MAX];
};

/* Note: This may be NULL. */
static struct intel_dmc *display_to_dmc(struct intel_display *display)
{
        return display->dmc.dmc;
}

static const char *dmc_firmware_param(struct intel_display *display)
{
        const char *p = display->params.dmc_firmware_path;

        return p && *p ? p : NULL;
}

static bool dmc_firmware_param_disabled(struct intel_display *display)
{
        const char *p = dmc_firmware_param(display);

        /* Magic path to indicate disabled */
        return p && !strcmp(p, "/dev/null");
}

#define DMC_VERSION(major, minor)       ((major) << 16 | (minor))
#define DMC_VERSION_MAJOR(version)      ((version) >> 16)
#define DMC_VERSION_MINOR(version)      ((version) & 0xffff)

#define DMC_PATH(platform) \
        "i915/" __stringify(platform) "_dmc.bin"

/*
 * New DMC additions should not use this. This is used solely to remain
 * compatible with systems that have not yet updated DMC blobs to use
 * unversioned file names.
 */
#define DMC_LEGACY_PATH(platform, major, minor) \
        "i915/"                                 \
        __stringify(platform) "_dmc_ver"        \
        __stringify(major) "_"                  \
        __stringify(minor) ".bin"

#define XE2LPD_DMC_MAX_FW_SIZE          0x8000
#define XELPDP_DMC_MAX_FW_SIZE          0x7000
#define DISPLAY_VER13_DMC_MAX_FW_SIZE   0x20000
#define DISPLAY_VER12_DMC_MAX_FW_SIZE   ICL_DMC_MAX_FW_SIZE

#define XE3LPD_DMC_PATH                 DMC_PATH(xe3lpd)
MODULE_FIRMWARE(XE3LPD_DMC_PATH);

#define XE2LPD_DMC_PATH                 DMC_PATH(xe2lpd)
MODULE_FIRMWARE(XE2LPD_DMC_PATH);

#define BMG_DMC_PATH                    DMC_PATH(bmg)
MODULE_FIRMWARE(BMG_DMC_PATH);

#define MTL_DMC_PATH                    DMC_PATH(mtl)
MODULE_FIRMWARE(MTL_DMC_PATH);

#define DG2_DMC_PATH                    DMC_LEGACY_PATH(dg2, 2, 08)
MODULE_FIRMWARE(DG2_DMC_PATH);

#define ADLP_DMC_PATH                   DMC_PATH(adlp)
#define ADLP_DMC_FALLBACK_PATH          DMC_LEGACY_PATH(adlp, 2, 16)
MODULE_FIRMWARE(ADLP_DMC_PATH);
MODULE_FIRMWARE(ADLP_DMC_FALLBACK_PATH);

#define ADLS_DMC_PATH                   DMC_LEGACY_PATH(adls, 2, 01)
MODULE_FIRMWARE(ADLS_DMC_PATH);

#define DG1_DMC_PATH                    DMC_LEGACY_PATH(dg1, 2, 02)
MODULE_FIRMWARE(DG1_DMC_PATH);

#define RKL_DMC_PATH                    DMC_LEGACY_PATH(rkl, 2, 03)
MODULE_FIRMWARE(RKL_DMC_PATH);

#define TGL_DMC_PATH                    DMC_LEGACY_PATH(tgl, 2, 12)
MODULE_FIRMWARE(TGL_DMC_PATH);

#define ICL_DMC_PATH                    DMC_LEGACY_PATH(icl, 1, 09)
#define ICL_DMC_MAX_FW_SIZE             0x6000
MODULE_FIRMWARE(ICL_DMC_PATH);

#define GLK_DMC_PATH                    DMC_LEGACY_PATH(glk, 1, 04)
#define GLK_DMC_MAX_FW_SIZE             0x4000
MODULE_FIRMWARE(GLK_DMC_PATH);

#define KBL_DMC_PATH                    DMC_LEGACY_PATH(kbl, 1, 04)
#define KBL_DMC_MAX_FW_SIZE             BXT_DMC_MAX_FW_SIZE
MODULE_FIRMWARE(KBL_DMC_PATH);

#define SKL_DMC_PATH                    DMC_LEGACY_PATH(skl, 1, 27)
#define SKL_DMC_MAX_FW_SIZE             BXT_DMC_MAX_FW_SIZE
MODULE_FIRMWARE(SKL_DMC_PATH);

#define BXT_DMC_PATH                    DMC_LEGACY_PATH(bxt, 1, 07)
#define BXT_DMC_MAX_FW_SIZE             0x3000
MODULE_FIRMWARE(BXT_DMC_PATH);

static const char *dmc_firmware_default(struct intel_display *display, u32 *size)
{
        struct drm_i915_private *i915 = to_i915(display->drm);
        const char *fw_path = NULL;
        u32 max_fw_size = 0;

        if (DISPLAY_VERx100(display) == 3000) {
                fw_path = XE3LPD_DMC_PATH;
                max_fw_size = XE2LPD_DMC_MAX_FW_SIZE;
        } else if (DISPLAY_VERx100(display) == 2000) {
                fw_path = XE2LPD_DMC_PATH;
                max_fw_size = XE2LPD_DMC_MAX_FW_SIZE;
        } else if (DISPLAY_VERx100(display) == 1401) {
                fw_path = BMG_DMC_PATH;
                max_fw_size = XELPDP_DMC_MAX_FW_SIZE;
        } else if (DISPLAY_VERx100(display) == 1400) {
                fw_path = MTL_DMC_PATH;
                max_fw_size = XELPDP_DMC_MAX_FW_SIZE;
        } else if (IS_DG2(i915)) {
                fw_path = DG2_DMC_PATH;
                max_fw_size = DISPLAY_VER13_DMC_MAX_FW_SIZE;
        } else if (IS_ALDERLAKE_P(i915)) {
                fw_path = ADLP_DMC_PATH;
                max_fw_size = DISPLAY_VER13_DMC_MAX_FW_SIZE;
        } else if (IS_ALDERLAKE_S(i915)) {
                fw_path = ADLS_DMC_PATH;
                max_fw_size = DISPLAY_VER12_DMC_MAX_FW_SIZE;
        } else if (IS_DG1(i915)) {
                fw_path = DG1_DMC_PATH;
                max_fw_size = DISPLAY_VER12_DMC_MAX_FW_SIZE;
        } else if (IS_ROCKETLAKE(i915)) {
                fw_path = RKL_DMC_PATH;
                max_fw_size = DISPLAY_VER12_DMC_MAX_FW_SIZE;
        } else if (IS_TIGERLAKE(i915)) {
                fw_path = TGL_DMC_PATH;
                max_fw_size = DISPLAY_VER12_DMC_MAX_FW_SIZE;
        } else if (DISPLAY_VER(display) == 11) {
                fw_path = ICL_DMC_PATH;
                max_fw_size = ICL_DMC_MAX_FW_SIZE;
        } else if (IS_GEMINILAKE(i915)) {
                fw_path = GLK_DMC_PATH;
                max_fw_size = GLK_DMC_MAX_FW_SIZE;
        } else if (IS_KABYLAKE(i915) ||
                   IS_COFFEELAKE(i915) ||
                   IS_COMETLAKE(i915)) {
                fw_path = KBL_DMC_PATH;
                max_fw_size = KBL_DMC_MAX_FW_SIZE;
        } else if (IS_SKYLAKE(i915)) {
                fw_path = SKL_DMC_PATH;
                max_fw_size = SKL_DMC_MAX_FW_SIZE;
        } else if (IS_BROXTON(i915)) {
                fw_path = BXT_DMC_PATH;
                max_fw_size = BXT_DMC_MAX_FW_SIZE;
        }

        *size = max_fw_size;

        return fw_path;
}

#define DMC_DEFAULT_FW_OFFSET           0xFFFFFFFF
#define PACKAGE_MAX_FW_INFO_ENTRIES     20
#define PACKAGE_V2_MAX_FW_INFO_ENTRIES  32
#define DMC_V1_MAX_MMIO_COUNT           8
#define DMC_V3_MAX_MMIO_COUNT           20
#define DMC_V1_MMIO_START_RANGE         0x80000

#define PIPE_TO_DMC_ID(pipe)             (DMC_FW_PIPEA + ((pipe) - PIPE_A))

struct intel_css_header {
        /* 0x09 for DMC */
        u32 module_type;

        /* Includes the DMC specific header in dwords */
        u32 header_len;

        /* always value would be 0x10000 */
        u32 header_ver;

        /* Not used */
        u32 module_id;

        /* Not used */
        u32 module_vendor;

        /* in YYYYMMDD format */
        u32 date;

        /* Size in dwords (CSS_Headerlen + PackageHeaderLen + dmc FWsLen)/4 */
        u32 size;

        /* Not used */
        u32 key_size;

        /* Not used */
        u32 modulus_size;

        /* Not used */
        u32 exponent_size;

        /* Not used */
        u32 reserved1[12];

        /* Major Minor */
        u32 version;

        /* Not used */
        u32 reserved2[8];

        /* Not used */
        u32 kernel_header_info;
} __packed;

struct intel_fw_info {
        u8 reserved1;

        /* reserved on package_header version 1, must be 0 on version 2 */
        u8 dmc_id;

        /* Stepping (A, B, C, ..., *). * is a wildcard */
        char stepping;

        /* Sub-stepping (0, 1, ..., *). * is a wildcard */
        char substepping;

        u32 offset;
        u32 reserved2;
} __packed;

struct intel_package_header {
        /* DMC container header length in dwords */
        u8 header_len;

        /* 0x01, 0x02 */
        u8 header_ver;

        u8 reserved[10];

        /* Number of valid entries in the FWInfo array below */
        u32 num_entries;
} __packed;

struct intel_dmc_header_base {
        /* always value would be 0x40403E3E */
        u32 signature;

        /* DMC binary header length */
        u8 header_len;

        /* 0x01 */
        u8 header_ver;

        /* Reserved */
        u16 dmcc_ver;

        /* Major, Minor */
        u32 project;

        /* Firmware program size (excluding header) in dwords */
        u32 fw_size;

        /* Major Minor version */
        u32 fw_version;
} __packed;

struct intel_dmc_header_v1 {
        struct intel_dmc_header_base base;

        /* Number of valid MMIO cycles present. */
        u32 mmio_count;

        /* MMIO address */
        u32 mmioaddr[DMC_V1_MAX_MMIO_COUNT];

        /* MMIO data */
        u32 mmiodata[DMC_V1_MAX_MMIO_COUNT];

        /* FW filename  */
        char dfile[32];

        u32 reserved1[2];
} __packed;

struct intel_dmc_header_v3 {
        struct intel_dmc_header_base base;

        /* DMC RAM start MMIO address */
        u32 start_mmioaddr;

        u32 reserved[9];

        /* FW filename */
        char dfile[32];

        /* Number of valid MMIO cycles present. */
        u32 mmio_count;

        /* MMIO address */
        u32 mmioaddr[DMC_V3_MAX_MMIO_COUNT];

        /* MMIO data */
        u32 mmiodata[DMC_V3_MAX_MMIO_COUNT];
} __packed;

struct stepping_info {
        char stepping;
        char substepping;
};

#define for_each_dmc_id(__dmc_id) \
        for ((__dmc_id) = DMC_FW_MAIN; (__dmc_id) < DMC_FW_MAX; (__dmc_id)++)

static bool is_valid_dmc_id(enum intel_dmc_id dmc_id)
{
        return dmc_id >= DMC_FW_MAIN && dmc_id < DMC_FW_MAX;
}

static bool has_dmc_id_fw(struct intel_display *display, enum intel_dmc_id dmc_id)
{
        struct intel_dmc *dmc = display_to_dmc(display);

        return dmc && dmc->dmc_info[dmc_id].payload;
}

bool intel_dmc_has_payload(struct intel_display *display)
{
        return has_dmc_id_fw(display, DMC_FW_MAIN);
}

static const struct stepping_info *
intel_get_stepping_info(struct intel_display *display,
                        struct stepping_info *si)
{
        const char *step_name = intel_step_name(INTEL_DISPLAY_STEP(display));

        si->stepping = step_name[0];
        si->substepping = step_name[1];
        return si;
}

static void gen9_set_dc_state_debugmask(struct intel_display *display)
{
        /* The below bit doesn't need to be cleared ever afterwards */
        intel_de_rmw(display, DC_STATE_DEBUG, 0,
                     DC_STATE_DEBUG_MASK_CORES | DC_STATE_DEBUG_MASK_MEMORY_UP);
        intel_de_posting_read(display, DC_STATE_DEBUG);
}

static void disable_event_handler(struct intel_display *display,
                                  i915_reg_t ctl_reg, i915_reg_t htp_reg)
{
        intel_de_write(display, ctl_reg,
                       REG_FIELD_PREP(DMC_EVT_CTL_TYPE_MASK,
                                      DMC_EVT_CTL_TYPE_EDGE_0_1) |
                       REG_FIELD_PREP(DMC_EVT_CTL_EVENT_ID_MASK,
                                      DMC_EVT_CTL_EVENT_ID_FALSE));
        intel_de_write(display, htp_reg, 0);
}

static void disable_all_event_handlers(struct intel_display *display)
{
        enum intel_dmc_id dmc_id;

        /* TODO: disable the event handlers on pre-GEN12 platforms as well */
        if (DISPLAY_VER(display) < 12)
                return;

        for_each_dmc_id(dmc_id) {
                int handler;

                if (!has_dmc_id_fw(display, dmc_id))
                        continue;

                for (handler = 0; handler < DMC_EVENT_HANDLER_COUNT_GEN12; handler++)
                        disable_event_handler(display,
                                              DMC_EVT_CTL(display, dmc_id, handler),
                                              DMC_EVT_HTP(display, dmc_id, handler));
        }
}

static void adlp_pipedmc_clock_gating_wa(struct intel_display *display, bool enable)
{
        enum pipe pipe;

        /*
         * Wa_16015201720:adl-p,dg2
         * The WA requires clock gating to be disabled all the time
         * for pipe A and B.
         * For pipe C and D clock gating needs to be disabled only
         * during initializing the firmware.
         */
        if (enable)
                for (pipe = PIPE_A; pipe <= PIPE_D; pipe++)
                        intel_de_rmw(display, CLKGATE_DIS_PSL_EXT(pipe),
                                     0, PIPEDMC_GATING_DIS);
        else
                for (pipe = PIPE_C; pipe <= PIPE_D; pipe++)
                        intel_de_rmw(display, CLKGATE_DIS_PSL_EXT(pipe),
                                     PIPEDMC_GATING_DIS, 0);
}

static void mtl_pipedmc_clock_gating_wa(struct intel_display *display)
{
        /*
         * Wa_16015201720
         * The WA requires clock gating to be disabled all the time
         * for pipe A and B.
         */
        intel_de_rmw(display, GEN9_CLKGATE_DIS_0, 0,
                     MTL_PIPEDMC_GATING_DIS_A | MTL_PIPEDMC_GATING_DIS_B);
}

static void pipedmc_clock_gating_wa(struct intel_display *display, bool enable)
{
        if (DISPLAY_VER(display) >= 14 && enable)
                mtl_pipedmc_clock_gating_wa(display);
        else if (DISPLAY_VER(display) == 13)
                adlp_pipedmc_clock_gating_wa(display, enable);
}

void intel_dmc_enable_pipe(struct intel_display *display, enum pipe pipe)
{
        enum intel_dmc_id dmc_id = PIPE_TO_DMC_ID(pipe);

        if (!is_valid_dmc_id(dmc_id) || !has_dmc_id_fw(display, dmc_id))
                return;

        if (DISPLAY_VER(display) >= 14)
                intel_de_rmw(display, MTL_PIPEDMC_CONTROL, 0, PIPEDMC_ENABLE_MTL(pipe));
        else
                intel_de_rmw(display, PIPEDMC_CONTROL(pipe), 0, PIPEDMC_ENABLE);
}

void intel_dmc_disable_pipe(struct intel_display *display, enum pipe pipe)
{
        enum intel_dmc_id dmc_id = PIPE_TO_DMC_ID(pipe);

        if (!is_valid_dmc_id(dmc_id) || !has_dmc_id_fw(display, dmc_id))
                return;

        if (DISPLAY_VER(display) >= 14)
                intel_de_rmw(display, MTL_PIPEDMC_CONTROL, PIPEDMC_ENABLE_MTL(pipe), 0);
        else
                intel_de_rmw(display, PIPEDMC_CONTROL(pipe), PIPEDMC_ENABLE, 0);
}

static bool is_dmc_evt_ctl_reg(struct intel_display *display,
                               enum intel_dmc_id dmc_id, i915_reg_t reg)
{
        u32 offset = i915_mmio_reg_offset(reg);
        u32 start = i915_mmio_reg_offset(DMC_EVT_CTL(display, dmc_id, 0));
        u32 end = i915_mmio_reg_offset(DMC_EVT_CTL(display, dmc_id, DMC_EVENT_HANDLER_COUNT_GEN12));

        return offset >= start && offset < end;
}

static bool is_dmc_evt_htp_reg(struct intel_display *display,
                               enum intel_dmc_id dmc_id, i915_reg_t reg)
{
        u32 offset = i915_mmio_reg_offset(reg);
        u32 start = i915_mmio_reg_offset(DMC_EVT_HTP(display, dmc_id, 0));
        u32 end = i915_mmio_reg_offset(DMC_EVT_HTP(display, dmc_id, DMC_EVENT_HANDLER_COUNT_GEN12));

        return offset >= start && offset < end;
}

static bool disable_dmc_evt(struct intel_display *display,
                            enum intel_dmc_id dmc_id,
                            i915_reg_t reg, u32 data)
{
        struct drm_i915_private *i915 = to_i915(display->drm);

        if (!is_dmc_evt_ctl_reg(display, dmc_id, reg))
                return false;

        /* keep all pipe DMC events disabled by default */
        if (dmc_id != DMC_FW_MAIN)
                return true;

        /* also disable the flip queue event on the main DMC on TGL */
        if (IS_TIGERLAKE(i915) &&
            REG_FIELD_GET(DMC_EVT_CTL_EVENT_ID_MASK, data) == DMC_EVT_CTL_EVENT_ID_CLK_MSEC)
                return true;

        /* also disable the HRR event on the main DMC on TGL/ADLS */
        if ((IS_TIGERLAKE(i915) || IS_ALDERLAKE_S(i915)) &&
            REG_FIELD_GET(DMC_EVT_CTL_EVENT_ID_MASK, data) == DMC_EVT_CTL_EVENT_ID_VBLANK_A)
                return true;

        return false;
}

static u32 dmc_mmiodata(struct intel_display *display,
                        struct intel_dmc *dmc,
                        enum intel_dmc_id dmc_id, int i)
{
        if (disable_dmc_evt(display, dmc_id,
                            dmc->dmc_info[dmc_id].mmioaddr[i],
                            dmc->dmc_info[dmc_id].mmiodata[i]))
                return REG_FIELD_PREP(DMC_EVT_CTL_TYPE_MASK,
                                      DMC_EVT_CTL_TYPE_EDGE_0_1) |
                        REG_FIELD_PREP(DMC_EVT_CTL_EVENT_ID_MASK,
                                       DMC_EVT_CTL_EVENT_ID_FALSE);
        else
                return dmc->dmc_info[dmc_id].mmiodata[i];
}

/**
 * intel_dmc_load_program() - write the firmware from memory to register.
 * @display: display instance
 *
 * DMC firmware is read from a .bin file and kept in internal memory one time.
 * Everytime display comes back from low power state this function is called to
 * copy the firmware from internal memory to registers.
 */
void intel_dmc_load_program(struct intel_display *display)
{
        struct drm_i915_private *i915 __maybe_unused = to_i915(display->drm);
        struct i915_power_domains *power_domains = &display->power.domains;
        struct intel_dmc *dmc = display_to_dmc(display);
        enum intel_dmc_id dmc_id;
        u32 i;

        if (!intel_dmc_has_payload(display))
                return;

        pipedmc_clock_gating_wa(display, true);

        disable_all_event_handlers(display);

        assert_rpm_wakelock_held(&i915->runtime_pm);

        preempt_disable();

        for_each_dmc_id(dmc_id) {
                for (i = 0; i < dmc->dmc_info[dmc_id].dmc_fw_size; i++) {
                        intel_de_write_fw(display,
                                          DMC_PROGRAM(dmc->dmc_info[dmc_id].start_mmioaddr, i),
                                          dmc->dmc_info[dmc_id].payload[i]);
                }
        }

        preempt_enable();

        for_each_dmc_id(dmc_id) {
                for (i = 0; i < dmc->dmc_info[dmc_id].mmio_count; i++) {
                        intel_de_write(display, dmc->dmc_info[dmc_id].mmioaddr[i],
                                       dmc_mmiodata(display, dmc, dmc_id, i));
                }
        }

        power_domains->dc_state = 0;

        gen9_set_dc_state_debugmask(display);

        pipedmc_clock_gating_wa(display, false);
}

/**
 * intel_dmc_disable_program() - disable the firmware
 * @display: display instance
 *
 * Disable all event handlers in the firmware, making sure the firmware is
 * inactive after the display is uninitialized.
 */
void intel_dmc_disable_program(struct intel_display *display)
{
        if (!intel_dmc_has_payload(display))
                return;

        pipedmc_clock_gating_wa(display, true);
        disable_all_event_handlers(display);
        pipedmc_clock_gating_wa(display, false);
}

void assert_dmc_loaded(struct intel_display *display)
{
        struct intel_dmc *dmc = display_to_dmc(display);

        drm_WARN_ONCE(display->drm, !dmc, "DMC not initialized\n");
        drm_WARN_ONCE(display->drm, dmc &&
                      !intel_de_read(display, DMC_PROGRAM(dmc->dmc_info[DMC_FW_MAIN].start_mmioaddr, 0)),
                      "DMC program storage start is NULL\n");
        drm_WARN_ONCE(display->drm, !intel_de_read(display, DMC_SSP_BASE),
                      "DMC SSP Base Not fine\n");
        drm_WARN_ONCE(display->drm, !intel_de_read(display, DMC_HTP_SKL),
                      "DMC HTP Not fine\n");
}

static bool fw_info_matches_stepping(const struct intel_fw_info *fw_info,
                                     const struct stepping_info *si)
{
        if ((fw_info->substepping == '*' && si->stepping == fw_info->stepping) ||
            (si->stepping == fw_info->stepping && si->substepping == fw_info->substepping) ||
            /*
             * If we don't find a more specific one from above two checks, we
             * then check for the generic one to be sure to work even with
             * "broken firmware"
             */
            (si->stepping == '*' && si->substepping == fw_info->substepping) ||
            (fw_info->stepping == '*' && fw_info->substepping == '*'))
                return true;

        return false;
}

/*
 * Search fw_info table for dmc_offset to find firmware binary: num_entries is
 * already sanitized.
 */
static void dmc_set_fw_offset(struct intel_dmc *dmc,
                              const struct intel_fw_info *fw_info,
                              unsigned int num_entries,
                              const struct stepping_info *si,
                              u8 package_ver)
{
        struct intel_display *display = dmc->display;
        enum intel_dmc_id dmc_id;
        unsigned int i;

        for (i = 0; i < num_entries; i++) {
                dmc_id = package_ver <= 1 ? DMC_FW_MAIN : fw_info[i].dmc_id;

                if (!is_valid_dmc_id(dmc_id)) {
                        drm_dbg(display->drm, "Unsupported firmware id: %u\n", dmc_id);
                        continue;
                }

                /* More specific versions come first, so we don't even have to
                 * check for the stepping since we already found a previous FW
                 * for this id.
                 */
                if (dmc->dmc_info[dmc_id].present)
                        continue;

                if (fw_info_matches_stepping(&fw_info[i], si)) {
                        dmc->dmc_info[dmc_id].present = true;
                        dmc->dmc_info[dmc_id].dmc_offset = fw_info[i].offset;
                }
        }
}

static bool dmc_mmio_addr_sanity_check(struct intel_dmc *dmc,
                                       const u32 *mmioaddr, u32 mmio_count,
                                       int header_ver, enum intel_dmc_id dmc_id)
{
        struct intel_display *display = dmc->display;
        u32 start_range, end_range;
        int i;

        if (header_ver == 1) {
                start_range = DMC_MMIO_START_RANGE;
                end_range = DMC_MMIO_END_RANGE;
        } else if (dmc_id == DMC_FW_MAIN) {
                start_range = TGL_MAIN_MMIO_START;
                end_range = TGL_MAIN_MMIO_END;
        } else if (DISPLAY_VER(display) >= 13) {
                start_range = ADLP_PIPE_MMIO_START;
                end_range = ADLP_PIPE_MMIO_END;
        } else if (DISPLAY_VER(display) >= 12) {
                start_range = TGL_PIPE_MMIO_START(dmc_id);
                end_range = TGL_PIPE_MMIO_END(dmc_id);
        } else {
                drm_warn(display->drm, "Unknown mmio range for sanity check");
                return false;
        }

        for (i = 0; i < mmio_count; i++) {
                if (mmioaddr[i] < start_range || mmioaddr[i] > end_range)
                        return false;
        }

        return true;
}

static u32 parse_dmc_fw_header(struct intel_dmc *dmc,
                               const struct intel_dmc_header_base *dmc_header,
                               size_t rem_size, enum intel_dmc_id dmc_id)
{
        struct intel_display *display = dmc->display;
        struct dmc_fw_info *dmc_info = &dmc->dmc_info[dmc_id];
        unsigned int header_len_bytes, dmc_header_size, payload_size, i;
        const u32 *mmioaddr, *mmiodata;
        u32 mmio_count, mmio_count_max, start_mmioaddr;
        u8 *payload;

        BUILD_BUG_ON(ARRAY_SIZE(dmc_info->mmioaddr) < DMC_V3_MAX_MMIO_COUNT ||
                     ARRAY_SIZE(dmc_info->mmioaddr) < DMC_V1_MAX_MMIO_COUNT);

        /*
         * Check if we can access common fields, we will checkc again below
         * after we have read the version
         */
        if (rem_size < sizeof(struct intel_dmc_header_base))
                goto error_truncated;

        /* Cope with small differences between v1 and v3 */
        if (dmc_header->header_ver == 3) {
                const struct intel_dmc_header_v3 *v3 =
                        (const struct intel_dmc_header_v3 *)dmc_header;

                if (rem_size < sizeof(struct intel_dmc_header_v3))
                        goto error_truncated;

                mmioaddr = v3->mmioaddr;
                mmiodata = v3->mmiodata;
                mmio_count = v3->mmio_count;
                mmio_count_max = DMC_V3_MAX_MMIO_COUNT;
                /* header_len is in dwords */
                header_len_bytes = dmc_header->header_len * 4;
                start_mmioaddr = v3->start_mmioaddr;
                dmc_header_size = sizeof(*v3);
        } else if (dmc_header->header_ver == 1) {
                const struct intel_dmc_header_v1 *v1 =
                        (const struct intel_dmc_header_v1 *)dmc_header;

                if (rem_size < sizeof(struct intel_dmc_header_v1))
                        goto error_truncated;

                mmioaddr = v1->mmioaddr;
                mmiodata = v1->mmiodata;
                mmio_count = v1->mmio_count;
                mmio_count_max = DMC_V1_MAX_MMIO_COUNT;
                header_len_bytes = dmc_header->header_len;
                start_mmioaddr = DMC_V1_MMIO_START_RANGE;
                dmc_header_size = sizeof(*v1);
        } else {
                drm_err(display->drm, "Unknown DMC fw header version: %u\n",
                        dmc_header->header_ver);
                return 0;
        }

        if (header_len_bytes != dmc_header_size) {
                drm_err(display->drm, "DMC firmware has wrong dmc header length "
                        "(%u bytes)\n", header_len_bytes);
                return 0;
        }

        /* Cache the dmc header info. */
        if (mmio_count > mmio_count_max) {
                drm_err(display->drm, "DMC firmware has wrong mmio count %u\n", mmio_count);
                return 0;
        }

        if (!dmc_mmio_addr_sanity_check(dmc, mmioaddr, mmio_count,
                                        dmc_header->header_ver, dmc_id)) {
                drm_err(display->drm, "DMC firmware has Wrong MMIO Addresses\n");
                return 0;
        }

        drm_dbg_kms(display->drm, "DMC %d:\n", dmc_id);
        for (i = 0; i < mmio_count; i++) {
                dmc_info->mmioaddr[i] = _MMIO(mmioaddr[i]);
                dmc_info->mmiodata[i] = mmiodata[i];

                drm_dbg_kms(display->drm, " mmio[%d]: 0x%x = 0x%x%s%s\n",
                            i, mmioaddr[i], mmiodata[i],
                            is_dmc_evt_ctl_reg(display, dmc_id, dmc_info->mmioaddr[i]) ? " (EVT_CTL)" :
                            is_dmc_evt_htp_reg(display, dmc_id, dmc_info->mmioaddr[i]) ? " (EVT_HTP)" : "",
                            disable_dmc_evt(display, dmc_id, dmc_info->mmioaddr[i],
                                            dmc_info->mmiodata[i]) ? " (disabling)" : "");
        }
        dmc_info->mmio_count = mmio_count;
        dmc_info->start_mmioaddr = start_mmioaddr;

        rem_size -= header_len_bytes;

        /* fw_size is in dwords, so multiplied by 4 to convert into bytes. */
        payload_size = dmc_header->fw_size * 4;
        if (rem_size < payload_size)
                goto error_truncated;

        if (payload_size > dmc->max_fw_size) {
                drm_err(display->drm, "DMC FW too big (%u bytes)\n", payload_size);
                return 0;
        }
        dmc_info->dmc_fw_size = dmc_header->fw_size;

        dmc_info->payload = kmalloc(payload_size, GFP_KERNEL);
        if (!dmc_info->payload)
                return 0;

        payload = (u8 *)(dmc_header) + header_len_bytes;
        memcpy(dmc_info->payload, payload, payload_size);

        return header_len_bytes + payload_size;

error_truncated:
        drm_err(display->drm, "Truncated DMC firmware, refusing.\n");
        return 0;
}

static u32
parse_dmc_fw_package(struct intel_dmc *dmc,
                     const struct intel_package_header *package_header,
                     const struct stepping_info *si,
                     size_t rem_size)
{
        struct intel_display *display = dmc->display;
        u32 package_size = sizeof(struct intel_package_header);
        u32 num_entries, max_entries;
        const struct intel_fw_info *fw_info;

        if (rem_size < package_size)
                goto error_truncated;

        if (package_header->header_ver == 1) {
                max_entries = PACKAGE_MAX_FW_INFO_ENTRIES;
        } else if (package_header->header_ver == 2) {
                max_entries = PACKAGE_V2_MAX_FW_INFO_ENTRIES;
        } else {
                drm_err(display->drm, "DMC firmware has unknown header version %u\n",
                        package_header->header_ver);
                return 0;
        }

        /*
         * We should always have space for max_entries,
         * even if not all are used
         */
        package_size += max_entries * sizeof(struct intel_fw_info);
        if (rem_size < package_size)
                goto error_truncated;

        if (package_header->header_len * 4 != package_size) {
                drm_err(display->drm, "DMC firmware has wrong package header length "
                        "(%u bytes)\n", package_size);
                return 0;
        }

        num_entries = package_header->num_entries;
        if (WARN_ON(package_header->num_entries > max_entries))
                num_entries = max_entries;

        fw_info = (const struct intel_fw_info *)
                ((u8 *)package_header + sizeof(*package_header));
        dmc_set_fw_offset(dmc, fw_info, num_entries, si,
                          package_header->header_ver);

        /* dmc_offset is in dwords */
        return package_size;

error_truncated:
        drm_err(display->drm, "Truncated DMC firmware, refusing.\n");
        return 0;
}

/* Return number of bytes parsed or 0 on error */
static u32 parse_dmc_fw_css(struct intel_dmc *dmc,
                            struct intel_css_header *css_header,
                            size_t rem_size)
{
        struct intel_display *display = dmc->display;

        if (rem_size < sizeof(struct intel_css_header)) {
                drm_err(display->drm, "Truncated DMC firmware, refusing.\n");
                return 0;
        }

        if (sizeof(struct intel_css_header) !=
            (css_header->header_len * 4)) {
                drm_err(display->drm, "DMC firmware has wrong CSS header length "
                        "(%u bytes)\n",
                        (css_header->header_len * 4));
                return 0;
        }

        dmc->version = css_header->version;

        return sizeof(struct intel_css_header);
}

static int parse_dmc_fw(struct intel_dmc *dmc, const struct firmware *fw)
{
        struct intel_display *display = dmc->display;
        struct intel_css_header *css_header;
        struct intel_package_header *package_header;
        struct intel_dmc_header_base *dmc_header;
        struct stepping_info display_info = { '*', '*'};
        const struct stepping_info *si = intel_get_stepping_info(display, &display_info);
        enum intel_dmc_id dmc_id;
        u32 readcount = 0;
        u32 r, offset;

        if (!fw)
                return -EINVAL;

        /* Extract CSS Header information */
        css_header = (struct intel_css_header *)fw->data;
        r = parse_dmc_fw_css(dmc, css_header, fw->size);
        if (!r)
                return -EINVAL;

        readcount += r;

        /* Extract Package Header information */
        package_header = (struct intel_package_header *)&fw->data[readcount];
        r = parse_dmc_fw_package(dmc, package_header, si, fw->size - readcount);
        if (!r)
                return -EINVAL;

        readcount += r;

        for_each_dmc_id(dmc_id) {
                if (!dmc->dmc_info[dmc_id].present)
                        continue;

                offset = readcount + dmc->dmc_info[dmc_id].dmc_offset * 4;
                if (offset > fw->size) {
                        drm_err(display->drm, "Reading beyond the fw_size\n");
                        continue;
                }

                dmc_header = (struct intel_dmc_header_base *)&fw->data[offset];
                parse_dmc_fw_header(dmc, dmc_header, fw->size - offset, dmc_id);
        }

        if (!intel_dmc_has_payload(display)) {
                drm_err(display->drm, "DMC firmware main program not found\n");
                return -ENOENT;
        }

        return 0;
}

static void intel_dmc_runtime_pm_get(struct intel_display *display)
{
        struct drm_i915_private *i915 = to_i915(display->drm);

        drm_WARN_ON(display->drm, display->dmc.wakeref);
        display->dmc.wakeref = intel_display_power_get(i915, POWER_DOMAIN_INIT);
}

static void intel_dmc_runtime_pm_put(struct intel_display *display)
{
        struct drm_i915_private *i915 = to_i915(display->drm);
        intel_wakeref_t wakeref __maybe_unused =
                fetch_and_zero(&display->dmc.wakeref);

        intel_display_power_put(i915, POWER_DOMAIN_INIT, wakeref);
}

static const char *dmc_fallback_path(struct intel_display *display)
{
        struct drm_i915_private *i915 = to_i915(display->drm);

        if (IS_ALDERLAKE_P(i915))
                return ADLP_DMC_FALLBACK_PATH;

        return NULL;
}

static void dmc_load_work_fn(struct work_struct *work)
{
        struct intel_dmc *dmc = container_of(work, typeof(*dmc), work);
        struct intel_display *display = dmc->display;
        const struct firmware *fw = NULL;
        const char *fallback_path;
        int err;

        err = request_firmware(&fw, dmc->fw_path, display->drm->dev);

        if (err == -ENOENT && !dmc_firmware_param(display)) {
                fallback_path = dmc_fallback_path(display);
                if (fallback_path) {
                        drm_dbg_kms(display->drm, "%s not found, falling back to %s\n",
                                    dmc->fw_path, fallback_path);
                        err = request_firmware(&fw, fallback_path, display->drm->dev);
                        if (err == 0)
                                dmc->fw_path = fallback_path;
                }
        }

        if (err) {
                drm_notice(display->drm,
                           "Failed to load DMC firmware %s (%pe). Disabling runtime power management.\n",
                           dmc->fw_path, ERR_PTR(err));
                drm_notice(display->drm, "DMC firmware homepage: %s",
                           INTEL_DMC_FIRMWARE_URL);
                return;
        }

        err = parse_dmc_fw(dmc, fw);
        if (err) {
                drm_notice(display->drm,
                           "Failed to parse DMC firmware %s (%pe). Disabling runtime power management.\n",
                           dmc->fw_path, ERR_PTR(err));
                goto out;
        }

        intel_dmc_load_program(display);
        intel_dmc_runtime_pm_put(display);

        drm_info(display->drm, "Finished loading DMC firmware %s (v%u.%u)\n",
                 dmc->fw_path, DMC_VERSION_MAJOR(dmc->version),
                 DMC_VERSION_MINOR(dmc->version));

out:
        release_firmware(fw);
}

/**
 * intel_dmc_init() - initialize the firmware loading.
 * @display: display instance
 *
 * This function is called at the time of loading the display driver to read
 * firmware from a .bin file and copied into a internal memory.
 */
void intel_dmc_init(struct intel_display *display)
{
        struct drm_i915_private *i915 = to_i915(display->drm);
        struct intel_dmc *dmc;

        if (!HAS_DMC(display))
                return;

        /*
         * Obtain a runtime pm reference, until DMC is loaded, to avoid entering
         * runtime-suspend.
         *
         * On error, we return with the rpm wakeref held to prevent runtime
         * suspend as runtime suspend *requires* a working DMC for whatever
         * reason.
         */
        intel_dmc_runtime_pm_get(display);

        dmc = kzalloc(sizeof(*dmc), GFP_KERNEL);
        if (!dmc)
                return;

        dmc->display = display;

        INIT_WORK(&dmc->work, dmc_load_work_fn);

        dmc->fw_path = dmc_firmware_default(display, &dmc->max_fw_size);

        if (dmc_firmware_param_disabled(display)) {
                drm_info(display->drm, "Disabling DMC firmware and runtime PM\n");
                goto out;
        }

        if (dmc_firmware_param(display))
                dmc->fw_path = dmc_firmware_param(display);

        if (!dmc->fw_path) {
                drm_dbg_kms(display->drm,
                            "No known DMC firmware for platform, disabling runtime PM\n");
                goto out;
        }

        display->dmc.dmc = dmc;

        drm_dbg_kms(display->drm, "Loading %s\n", dmc->fw_path);
        queue_work(i915->unordered_wq, &dmc->work);

        return;

out:
        kfree(dmc);
}

/**
 * intel_dmc_suspend() - prepare DMC firmware before system suspend
 * @display: display instance
 *
 * Prepare the DMC firmware before entering system suspend. This includes
 * flushing pending work items and releasing any resources acquired during
 * init.
 */
void intel_dmc_suspend(struct intel_display *display)
{
        struct intel_dmc *dmc = display_to_dmc(display);

        if (!HAS_DMC(display))
                return;

        if (dmc)
                flush_work(&dmc->work);

        /* Drop the reference held in case DMC isn't loaded. */
        if (!intel_dmc_has_payload(display))
                intel_dmc_runtime_pm_put(display);
}

/**
 * intel_dmc_resume() - init DMC firmware during system resume
 * @display: display instance
 *
 * Reinitialize the DMC firmware during system resume, reacquiring any
 * resources released in intel_dmc_suspend().
 */
void intel_dmc_resume(struct intel_display *display)
{
        if (!HAS_DMC(display))
                return;

        /*
         * Reacquire the reference to keep RPM disabled in case DMC isn't
         * loaded.
         */
        if (!intel_dmc_has_payload(display))
                intel_dmc_runtime_pm_get(display);
}

/**
 * intel_dmc_fini() - unload the DMC firmware.
 * @display: display instance
 *
 * Firmmware unloading includes freeing the internal memory and reset the
 * firmware loading status.
 */
void intel_dmc_fini(struct intel_display *display)
{
        struct intel_dmc *dmc = display_to_dmc(display);
        enum intel_dmc_id dmc_id;

        if (!HAS_DMC(display))
                return;

        intel_dmc_suspend(display);
        drm_WARN_ON(display->drm, display->dmc.wakeref);

        if (dmc) {
                for_each_dmc_id(dmc_id)
                        kfree(dmc->dmc_info[dmc_id].payload);

                kfree(dmc);
                display->dmc.dmc = NULL;
        }
}

struct intel_dmc_snapshot {
        bool initialized;
        bool loaded;
        u32 version;
};

struct intel_dmc_snapshot *intel_dmc_snapshot_capture(struct intel_display *display)
{
        struct intel_dmc *dmc = display_to_dmc(display);
        struct intel_dmc_snapshot *snapshot;

        if (!HAS_DMC(display))
                return NULL;

        snapshot = kzalloc(sizeof(*snapshot), GFP_ATOMIC);
        if (!snapshot)
                return NULL;

        snapshot->initialized = dmc;
        snapshot->loaded = intel_dmc_has_payload(display);
        if (dmc)
                snapshot->version = dmc->version;

        return snapshot;
}

void intel_dmc_snapshot_print(const struct intel_dmc_snapshot *snapshot, struct drm_printer *p)
{
        if (!snapshot)
                return;

        drm_printf(p, "DMC initialized: %s\n", str_yes_no(snapshot->initialized));
        drm_printf(p, "DMC loaded: %s\n", str_yes_no(snapshot->loaded));
        if (snapshot->initialized)
                drm_printf(p, "DMC fw version: %d.%d\n",
                           DMC_VERSION_MAJOR(snapshot->version),
                           DMC_VERSION_MINOR(snapshot->version));
}

static int intel_dmc_debugfs_status_show(struct seq_file *m, void *unused)
{
        struct intel_display *display = m->private;
        struct drm_i915_private *i915 = to_i915(display->drm);
        struct intel_dmc *dmc = display_to_dmc(display);
        intel_wakeref_t wakeref;
        i915_reg_t dc5_reg, dc6_reg = INVALID_MMIO_REG;

        if (!HAS_DMC(display))
                return -ENODEV;

        wakeref = intel_runtime_pm_get(&i915->runtime_pm);

        seq_printf(m, "DMC initialized: %s\n", str_yes_no(dmc));
        seq_printf(m, "fw loaded: %s\n",
                   str_yes_no(intel_dmc_has_payload(display)));
        seq_printf(m, "path: %s\n", dmc ? dmc->fw_path : "N/A");
        seq_printf(m, "Pipe A fw needed: %s\n",
                   str_yes_no(DISPLAY_VER(display) >= 12));
        seq_printf(m, "Pipe A fw loaded: %s\n",
                   str_yes_no(has_dmc_id_fw(display, DMC_FW_PIPEA)));
        seq_printf(m, "Pipe B fw needed: %s\n",
                   str_yes_no(IS_ALDERLAKE_P(i915) ||
                              DISPLAY_VER(display) >= 14));
        seq_printf(m, "Pipe B fw loaded: %s\n",
                   str_yes_no(has_dmc_id_fw(display, DMC_FW_PIPEB)));

        if (!intel_dmc_has_payload(display))
                goto out;

        seq_printf(m, "version: %d.%d\n", DMC_VERSION_MAJOR(dmc->version),
                   DMC_VERSION_MINOR(dmc->version));

        if (DISPLAY_VER(display) >= 12) {
                i915_reg_t dc3co_reg;

                if (IS_DGFX(i915) || DISPLAY_VER(display) >= 14) {
                        dc3co_reg = DG1_DMC_DEBUG3;
                        dc5_reg = DG1_DMC_DEBUG_DC5_COUNT;
                } else {
                        dc3co_reg = TGL_DMC_DEBUG3;
                        dc5_reg = TGL_DMC_DEBUG_DC5_COUNT;
                        dc6_reg = TGL_DMC_DEBUG_DC6_COUNT;
                }

                seq_printf(m, "DC3CO count: %d\n",
                           intel_de_read(display, dc3co_reg));
        } else {
                dc5_reg = IS_BROXTON(i915) ? BXT_DMC_DC3_DC5_COUNT :
                        SKL_DMC_DC3_DC5_COUNT;
                if (!IS_GEMINILAKE(i915) && !IS_BROXTON(i915))
                        dc6_reg = SKL_DMC_DC5_DC6_COUNT;
        }

        seq_printf(m, "DC3 -> DC5 count: %d\n", intel_de_read(display, dc5_reg));
        if (i915_mmio_reg_valid(dc6_reg))
                seq_printf(m, "DC5 -> DC6 count: %d\n",
                           intel_de_read(display, dc6_reg));

        seq_printf(m, "program base: 0x%08x\n",
                   intel_de_read(display, DMC_PROGRAM(dmc->dmc_info[DMC_FW_MAIN].start_mmioaddr, 0)));

out:
        seq_printf(m, "ssp base: 0x%08x\n",
                   intel_de_read(display, DMC_SSP_BASE));
        seq_printf(m, "htp: 0x%08x\n", intel_de_read(display, DMC_HTP_SKL));

        intel_runtime_pm_put(&i915->runtime_pm, wakeref);

        return 0;
}

DEFINE_SHOW_ATTRIBUTE(intel_dmc_debugfs_status);

void intel_dmc_debugfs_register(struct intel_display *display)
{
        struct drm_minor *minor = display->drm->primary;

        debugfs_create_file("i915_dmc_info", 0444, minor->debugfs_root,
                            display, &intel_dmc_debugfs_status_fops);
}