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- // SPDX-License-Identifier: GPL-2.0
- /*
- * Qualcomm ICE (Inline Crypto Engine) support.
- *
- * Copyright (c) 2013-2019, The Linux Foundation. All rights reserved.
- * Copyright (c) 2019, Google LLC
- * Copyright (c) 2023, Linaro Limited
- */
- #include <linux/bitfield.h>
- #include <linux/cleanup.h>
- #include <linux/clk.h>
- #include <linux/delay.h>
- #include <linux/device.h>
- #include <linux/iopoll.h>
- #include <linux/of.h>
- #include <linux/of_platform.h>
- #include <linux/platform_device.h>
- #include <linux/firmware/qcom/qcom_scm.h>
- #include <soc/qcom/ice.h>
- #define AES_256_XTS_KEY_SIZE 64 /* for raw keys only */
- #define QCOM_ICE_HWKM_V1 1 /* HWKM version 1 */
- #define QCOM_ICE_HWKM_V2 2 /* HWKM version 2 */
- #define QCOM_ICE_HWKM_MAX_WRAPPED_KEY_SIZE 100 /* Maximum HWKM wrapped key size */
- /*
- * Wrapped key size depends upon HWKM version:
- * HWKM version 1 supports 68 bytes
- * HWKM version 2 supports 100 bytes
- */
- #define QCOM_ICE_HWKM_WRAPPED_KEY_SIZE(v) ((v) == QCOM_ICE_HWKM_V1 ? 68 : 100)
- /* QCOM ICE registers */
- #define QCOM_ICE_REG_CONTROL 0x0000
- #define QCOM_ICE_LEGACY_MODE_ENABLED BIT(0)
- #define QCOM_ICE_REG_VERSION 0x0008
- #define QCOM_ICE_REG_FUSE_SETTING 0x0010
- #define QCOM_ICE_FUSE_SETTING_MASK BIT(0)
- #define QCOM_ICE_FORCE_HW_KEY0_SETTING_MASK BIT(1)
- #define QCOM_ICE_FORCE_HW_KEY1_SETTING_MASK BIT(2)
- #define QCOM_ICE_REG_BIST_STATUS 0x0070
- #define QCOM_ICE_BIST_STATUS_MASK GENMASK(31, 28)
- #define QCOM_ICE_REG_ADVANCED_CONTROL 0x1000
- #define QCOM_ICE_REG_CRYPTOCFG_BASE 0x4040
- #define QCOM_ICE_REG_CRYPTOCFG_SIZE 0x80
- #define QCOM_ICE_REG_CRYPTOCFG(slot) (QCOM_ICE_REG_CRYPTOCFG_BASE + \
- QCOM_ICE_REG_CRYPTOCFG_SIZE * (slot))
- union crypto_cfg {
- __le32 regval;
- struct {
- u8 dusize;
- u8 capidx;
- u8 reserved;
- #define QCOM_ICE_HWKM_CFG_ENABLE_VAL BIT(7)
- u8 cfge;
- };
- };
- /* QCOM ICE HWKM (Hardware Key Manager) registers */
- #define HWKM_OFFSET 0x8000
- #define QCOM_ICE_REG_HWKM_TZ_KM_CTL (HWKM_OFFSET + 0x1000)
- #define QCOM_ICE_HWKM_DISABLE_CRC_CHECKS_VAL (BIT(1) | BIT(2))
- /* In HWKM v1 the ICE legacy mode is controlled from HWKM register space */
- #define QCOM_ICE_HWKM_ICE_LEGACY_MODE_ENABLED BIT(5)
- #define QCOM_ICE_REG_HWKM_TZ_KM_STATUS (HWKM_OFFSET + 0x1004)
- #define QCOM_ICE_HWKM_KT_CLEAR_DONE BIT(0)
- #define QCOM_ICE_HWKM_BOOT_CMD_LIST0_DONE BIT(1)
- #define QCOM_ICE_HWKM_BOOT_CMD_LIST1_DONE BIT(2)
- #define QCOM_ICE_HWKM_CRYPTO_BIST_DONE(v) (((v) == QCOM_ICE_HWKM_V1) ? BIT(14) : BIT(7))
- #define QCOM_ICE_HWKM_BIST_DONE(v) (((v) == QCOM_ICE_HWKM_V1) ? BIT(16) : BIT(9))
- #define QCOM_ICE_REG_HWKM_BANK0_BANKN_IRQ_STATUS (HWKM_OFFSET + 0x2008)
- #define QCOM_ICE_HWKM_RSP_FIFO_CLEAR_VAL BIT(3)
- #define QCOM_ICE_REG_HWKM_BANK0_BBAC_0 (HWKM_OFFSET + 0x5000)
- #define QCOM_ICE_REG_HWKM_BANK0_BBAC_1 (HWKM_OFFSET + 0x5004)
- #define QCOM_ICE_REG_HWKM_BANK0_BBAC_2 (HWKM_OFFSET + 0x5008)
- #define QCOM_ICE_REG_HWKM_BANK0_BBAC_3 (HWKM_OFFSET + 0x500C)
- #define QCOM_ICE_REG_HWKM_BANK0_BBAC_4 (HWKM_OFFSET + 0x5010)
- #define qcom_ice_writel(engine, val, reg) \
- writel((val), (engine)->base + (reg))
- #define qcom_ice_readl(engine, reg) \
- readl((engine)->base + (reg))
- static bool qcom_ice_use_wrapped_keys;
- module_param_named(use_wrapped_keys, qcom_ice_use_wrapped_keys, bool, 0660);
- MODULE_PARM_DESC(use_wrapped_keys,
- "Support wrapped keys instead of raw keys, if available on the platform");
- struct qcom_ice {
- struct device *dev;
- void __iomem *base;
- struct clk *core_clk;
- bool use_hwkm;
- bool hwkm_init_complete;
- u8 hwkm_version;
- };
- static bool qcom_ice_check_supported(struct qcom_ice *ice)
- {
- u32 regval = qcom_ice_readl(ice, QCOM_ICE_REG_VERSION);
- struct device *dev = ice->dev;
- int major = FIELD_GET(GENMASK(31, 24), regval);
- int minor = FIELD_GET(GENMASK(23, 16), regval);
- int step = FIELD_GET(GENMASK(15, 0), regval);
- /* For now this driver only supports ICE version 3 and 4. */
- if (major != 3 && major != 4) {
- dev_warn(dev, "Unsupported ICE version: v%d.%d.%d\n",
- major, minor, step);
- return false;
- }
- /* HWKM version v2 is present from ICE 3.2.1 onwards while version v1
- * is present only in ICE 3.2.0. Earlier ICE version don't have HWKM.
- */
- if (major > 3 ||
- (major == 3 && (minor >= 3 || (minor == 2 && step >= 1))))
- ice->hwkm_version = QCOM_ICE_HWKM_V2;
- else if ((major == 3) && (minor == 2))
- ice->hwkm_version = QCOM_ICE_HWKM_V1;
- else
- ice->hwkm_version = 0;
- dev_info(dev, "Found QC Inline Crypto Engine (ICE) v%d.%d.%d\n",
- major, minor, step);
- if (ice->hwkm_version)
- dev_info(dev, "QC Hardware Key Manager (HWKM) version v%d\n",
- ice->hwkm_version);
- /* If fuses are blown, ICE might not work in the standard way. */
- regval = qcom_ice_readl(ice, QCOM_ICE_REG_FUSE_SETTING);
- if (regval & (QCOM_ICE_FUSE_SETTING_MASK |
- QCOM_ICE_FORCE_HW_KEY0_SETTING_MASK |
- QCOM_ICE_FORCE_HW_KEY1_SETTING_MASK)) {
- dev_warn(dev, "Fuses are blown; ICE is unusable!\n");
- return false;
- }
- /*
- * Check for HWKM support and decide whether to use it or not. ICE
- * v3.2.1 and later have HWKM v2. ICE v3.2.0 has HWKM v1. Earlier ICE
- * versions don't have HWKM at all. However, for HWKM to be fully
- * usable by Linux, the TrustZone software also needs to support certain
- * SCM calls including the ones to generate and prepare keys. Support
- * for these SCM calls is present for SoCs with HWKM v2 and is being
- * added for SoCs with HWKM v1 as well but not every SoC with HWKM v1
- * currently supports this. So, this driver checks for the SCM call
- * support before it decides to use HWKM.
- *
- * Also, since HWKM and legacy mode are mutually exclusive, and
- * ICE-capable storage driver(s) need to know early on whether to
- * advertise support for raw keys or wrapped keys, HWKM cannot be used
- * unconditionally. A module parameter is used to opt into using it.
- */
- if (ice->hwkm_version && qcom_scm_has_wrapped_key_support()) {
- if (qcom_ice_use_wrapped_keys) {
- dev_info(dev, "Using HWKM. Supporting wrapped keys only.\n");
- ice->use_hwkm = true;
- } else {
- dev_info(dev, "Not using HWKM. Supporting raw keys only.\n");
- }
- } else if (qcom_ice_use_wrapped_keys) {
- dev_warn(dev, "A supported HWKM is not present. Ignoring qcom_ice.use_wrapped_keys=1.\n");
- } else {
- dev_info(dev, "A supported HWKM is not present. Supporting raw keys only.\n");
- }
- return true;
- }
- static void qcom_ice_low_power_mode_enable(struct qcom_ice *ice)
- {
- u32 regval;
- regval = qcom_ice_readl(ice, QCOM_ICE_REG_ADVANCED_CONTROL);
- /* Enable low power mode sequence */
- regval |= 0x7000;
- qcom_ice_writel(ice, regval, QCOM_ICE_REG_ADVANCED_CONTROL);
- }
- static void qcom_ice_optimization_enable(struct qcom_ice *ice)
- {
- u32 regval;
- /* ICE Optimizations Enable Sequence */
- regval = qcom_ice_readl(ice, QCOM_ICE_REG_ADVANCED_CONTROL);
- regval |= 0xd807100;
- /* ICE HPG requires delay before writing */
- udelay(5);
- qcom_ice_writel(ice, regval, QCOM_ICE_REG_ADVANCED_CONTROL);
- udelay(5);
- }
- /*
- * Wait until the ICE BIST (built-in self-test) has completed.
- *
- * This may be necessary before ICE can be used.
- * Note that we don't really care whether the BIST passed or failed;
- * we really just want to make sure that it isn't still running. This is
- * because (a) the BIST is a FIPS compliance thing that never fails in
- * practice, (b) ICE is documented to reject crypto requests if the BIST
- * fails, so we needn't do it in software too, and (c) properly testing
- * storage encryption requires testing the full storage stack anyway,
- * and not relying on hardware-level self-tests.
- */
- static int qcom_ice_wait_bist_status(struct qcom_ice *ice)
- {
- u32 regval;
- int err;
- err = readl_poll_timeout(ice->base + QCOM_ICE_REG_BIST_STATUS,
- regval, !(regval & QCOM_ICE_BIST_STATUS_MASK),
- 50, 5000);
- if (err) {
- dev_err(ice->dev, "Timed out waiting for ICE self-test to complete\n");
- return err;
- }
- if (ice->use_hwkm &&
- qcom_ice_readl(ice, QCOM_ICE_REG_HWKM_TZ_KM_STATUS) !=
- (QCOM_ICE_HWKM_KT_CLEAR_DONE |
- QCOM_ICE_HWKM_BOOT_CMD_LIST0_DONE |
- QCOM_ICE_HWKM_BOOT_CMD_LIST1_DONE |
- QCOM_ICE_HWKM_CRYPTO_BIST_DONE(ice->hwkm_version) |
- QCOM_ICE_HWKM_BIST_DONE(ice->hwkm_version))) {
- dev_err(ice->dev, "HWKM self-test error!\n");
- /*
- * Too late to revoke use_hwkm here, as it was already
- * propagated up the stack into the crypto capabilities.
- */
- }
- return 0;
- }
- static void qcom_ice_hwkm_init(struct qcom_ice *ice)
- {
- u32 regval;
- if (!ice->use_hwkm)
- return;
- BUILD_BUG_ON(QCOM_ICE_HWKM_MAX_WRAPPED_KEY_SIZE >
- BLK_CRYPTO_MAX_HW_WRAPPED_KEY_SIZE);
- /*
- * When ICE is in HWKM mode, it only supports wrapped keys.
- * When ICE is in legacy mode, it only supports raw keys.
- *
- * Put ICE in HWKM mode. ICE defaults to legacy mode.
- */
- if (ice->hwkm_version == QCOM_ICE_HWKM_V2) {
- regval = qcom_ice_readl(ice, QCOM_ICE_REG_CONTROL);
- regval &= ~QCOM_ICE_LEGACY_MODE_ENABLED;
- qcom_ice_writel(ice, regval, QCOM_ICE_REG_CONTROL);
- } else if (ice->hwkm_version == QCOM_ICE_HWKM_V1) {
- regval = qcom_ice_readl(ice, QCOM_ICE_REG_HWKM_TZ_KM_CTL);
- regval &= ~QCOM_ICE_HWKM_ICE_LEGACY_MODE_ENABLED;
- qcom_ice_writel(ice, regval, QCOM_ICE_REG_HWKM_TZ_KM_CTL);
- }
- /* Disable CRC checks. This HWKM feature is not used. */
- qcom_ice_writel(ice, QCOM_ICE_HWKM_DISABLE_CRC_CHECKS_VAL,
- QCOM_ICE_REG_HWKM_TZ_KM_CTL);
- /*
- * Allow the HWKM slave to read and write the keyslots in the ICE HWKM
- * slave. Without this, TrustZone cannot program keys into ICE.
- */
- qcom_ice_writel(ice, GENMASK(31, 0), QCOM_ICE_REG_HWKM_BANK0_BBAC_0);
- qcom_ice_writel(ice, GENMASK(31, 0), QCOM_ICE_REG_HWKM_BANK0_BBAC_1);
- qcom_ice_writel(ice, GENMASK(31, 0), QCOM_ICE_REG_HWKM_BANK0_BBAC_2);
- qcom_ice_writel(ice, GENMASK(31, 0), QCOM_ICE_REG_HWKM_BANK0_BBAC_3);
- qcom_ice_writel(ice, GENMASK(31, 0), QCOM_ICE_REG_HWKM_BANK0_BBAC_4);
- /* Clear the HWKM response FIFO. */
- qcom_ice_writel(ice, QCOM_ICE_HWKM_RSP_FIFO_CLEAR_VAL,
- QCOM_ICE_REG_HWKM_BANK0_BANKN_IRQ_STATUS);
- ice->hwkm_init_complete = true;
- }
- int qcom_ice_enable(struct qcom_ice *ice)
- {
- qcom_ice_low_power_mode_enable(ice);
- qcom_ice_optimization_enable(ice);
- qcom_ice_hwkm_init(ice);
- return qcom_ice_wait_bist_status(ice);
- }
- EXPORT_SYMBOL_GPL(qcom_ice_enable);
- int qcom_ice_resume(struct qcom_ice *ice)
- {
- struct device *dev = ice->dev;
- int err;
- err = clk_prepare_enable(ice->core_clk);
- if (err) {
- dev_err(dev, "failed to enable core clock (%d)\n",
- err);
- return err;
- }
- qcom_ice_hwkm_init(ice);
- return qcom_ice_wait_bist_status(ice);
- }
- EXPORT_SYMBOL_GPL(qcom_ice_resume);
- int qcom_ice_suspend(struct qcom_ice *ice)
- {
- clk_disable_unprepare(ice->core_clk);
- ice->hwkm_init_complete = false;
- return 0;
- }
- EXPORT_SYMBOL_GPL(qcom_ice_suspend);
- static unsigned int translate_hwkm_slot(struct qcom_ice *ice, unsigned int slot)
- {
- return ice->hwkm_version == QCOM_ICE_HWKM_V1 ? slot : slot * 2;
- }
- static int qcom_ice_program_wrapped_key(struct qcom_ice *ice, unsigned int slot,
- const struct blk_crypto_key *bkey)
- {
- struct device *dev = ice->dev;
- union crypto_cfg cfg = {
- .dusize = bkey->crypto_cfg.data_unit_size / 512,
- .capidx = QCOM_SCM_ICE_CIPHER_AES_256_XTS,
- .cfge = QCOM_ICE_HWKM_CFG_ENABLE_VAL,
- };
- int err;
- if (!ice->use_hwkm) {
- dev_err_ratelimited(dev, "Got wrapped key when not using HWKM\n");
- return -EINVAL;
- }
- if (!ice->hwkm_init_complete) {
- dev_err_ratelimited(dev, "HWKM not yet initialized\n");
- return -EINVAL;
- }
- /* Clear CFGE before programming the key. */
- qcom_ice_writel(ice, 0x0, QCOM_ICE_REG_CRYPTOCFG(slot));
- /* Call into TrustZone to program the wrapped key using HWKM. */
- err = qcom_scm_ice_set_key(translate_hwkm_slot(ice, slot), bkey->bytes,
- bkey->size, cfg.capidx, cfg.dusize);
- if (err) {
- dev_err_ratelimited(dev,
- "qcom_scm_ice_set_key failed; err=%d, slot=%u\n",
- err, slot);
- return err;
- }
- /* Set CFGE after programming the key. */
- qcom_ice_writel(ice, le32_to_cpu(cfg.regval),
- QCOM_ICE_REG_CRYPTOCFG(slot));
- return 0;
- }
- int qcom_ice_program_key(struct qcom_ice *ice, unsigned int slot,
- const struct blk_crypto_key *blk_key)
- {
- struct device *dev = ice->dev;
- union {
- u8 bytes[AES_256_XTS_KEY_SIZE];
- u32 words[AES_256_XTS_KEY_SIZE / sizeof(u32)];
- } key;
- int i;
- int err;
- /* Only AES-256-XTS has been tested so far. */
- if (blk_key->crypto_cfg.crypto_mode !=
- BLK_ENCRYPTION_MODE_AES_256_XTS) {
- dev_err_ratelimited(dev, "Unsupported crypto mode: %d\n",
- blk_key->crypto_cfg.crypto_mode);
- return -EINVAL;
- }
- if (blk_key->crypto_cfg.key_type == BLK_CRYPTO_KEY_TYPE_HW_WRAPPED)
- return qcom_ice_program_wrapped_key(ice, slot, blk_key);
- if (ice->use_hwkm) {
- dev_err_ratelimited(dev, "Got raw key when using HWKM\n");
- return -EINVAL;
- }
- if (blk_key->size != AES_256_XTS_KEY_SIZE) {
- dev_err_ratelimited(dev, "Incorrect key size\n");
- return -EINVAL;
- }
- memcpy(key.bytes, blk_key->bytes, AES_256_XTS_KEY_SIZE);
- /* The SCM call requires that the key words are encoded in big endian */
- for (i = 0; i < ARRAY_SIZE(key.words); i++)
- __cpu_to_be32s(&key.words[i]);
- err = qcom_scm_ice_set_key(slot, key.bytes, AES_256_XTS_KEY_SIZE,
- QCOM_SCM_ICE_CIPHER_AES_256_XTS,
- blk_key->crypto_cfg.data_unit_size / 512);
- memzero_explicit(&key, sizeof(key));
- return err;
- }
- EXPORT_SYMBOL_GPL(qcom_ice_program_key);
- int qcom_ice_evict_key(struct qcom_ice *ice, int slot)
- {
- if (ice->hwkm_init_complete)
- slot = translate_hwkm_slot(ice, slot);
- return qcom_scm_ice_invalidate_key(slot);
- }
- EXPORT_SYMBOL_GPL(qcom_ice_evict_key);
- /**
- * qcom_ice_get_supported_key_type() - Get the supported key type
- * @ice: ICE driver data
- *
- * Return: the blk-crypto key type that the ICE driver is configured to use.
- * This is the key type that ICE-capable storage drivers should advertise as
- * supported in the crypto capabilities of any disks they register.
- */
- enum blk_crypto_key_type qcom_ice_get_supported_key_type(struct qcom_ice *ice)
- {
- if (ice->use_hwkm)
- return BLK_CRYPTO_KEY_TYPE_HW_WRAPPED;
- return BLK_CRYPTO_KEY_TYPE_RAW;
- }
- EXPORT_SYMBOL_GPL(qcom_ice_get_supported_key_type);
- /**
- * qcom_ice_derive_sw_secret() - Derive software secret from wrapped key
- * @ice: ICE driver data
- * @eph_key: an ephemerally-wrapped key
- * @eph_key_size: size of @eph_key in bytes
- * @sw_secret: output buffer for the software secret
- *
- * Use HWKM to derive the "software secret" from a hardware-wrapped key that is
- * given in ephemerally-wrapped form.
- *
- * Return: 0 on success; -EBADMSG if the given ephemerally-wrapped key is
- * invalid; or another -errno value.
- */
- int qcom_ice_derive_sw_secret(struct qcom_ice *ice,
- const u8 *eph_key, size_t eph_key_size,
- u8 sw_secret[BLK_CRYPTO_SW_SECRET_SIZE])
- {
- int err = qcom_scm_derive_sw_secret(eph_key, eph_key_size,
- sw_secret,
- BLK_CRYPTO_SW_SECRET_SIZE);
- if (err == -EIO || err == -EINVAL)
- err = -EBADMSG; /* probably invalid key */
- return err;
- }
- EXPORT_SYMBOL_GPL(qcom_ice_derive_sw_secret);
- /**
- * qcom_ice_generate_key() - Generate a wrapped key for inline encryption
- * @ice: ICE driver data
- * @lt_key: output buffer for the long-term wrapped key
- *
- * Use HWKM to generate a new key and return it as a long-term wrapped key.
- *
- * Return: the size of the resulting wrapped key on success; -errno on failure.
- */
- int qcom_ice_generate_key(struct qcom_ice *ice,
- u8 lt_key[BLK_CRYPTO_MAX_HW_WRAPPED_KEY_SIZE])
- {
- int err;
- err = qcom_scm_generate_ice_key(lt_key,
- QCOM_ICE_HWKM_WRAPPED_KEY_SIZE(ice->hwkm_version));
- if (err)
- return err;
- return QCOM_ICE_HWKM_WRAPPED_KEY_SIZE(ice->hwkm_version);
- }
- EXPORT_SYMBOL_GPL(qcom_ice_generate_key);
- /**
- * qcom_ice_prepare_key() - Prepare a wrapped key for inline encryption
- * @ice: ICE driver data
- * @lt_key: a long-term wrapped key
- * @lt_key_size: size of @lt_key in bytes
- * @eph_key: output buffer for the ephemerally-wrapped key
- *
- * Use HWKM to re-wrap a long-term wrapped key with the per-boot ephemeral key.
- *
- * Return: the size of the resulting wrapped key on success; -EBADMSG if the
- * given long-term wrapped key is invalid; or another -errno value.
- */
- int qcom_ice_prepare_key(struct qcom_ice *ice,
- const u8 *lt_key, size_t lt_key_size,
- u8 eph_key[BLK_CRYPTO_MAX_HW_WRAPPED_KEY_SIZE])
- {
- int err;
- err = qcom_scm_prepare_ice_key(lt_key, lt_key_size,
- eph_key, QCOM_ICE_HWKM_WRAPPED_KEY_SIZE(ice->hwkm_version));
- if (err == -EIO || err == -EINVAL)
- err = -EBADMSG; /* probably invalid key */
- if (err)
- return err;
- return QCOM_ICE_HWKM_WRAPPED_KEY_SIZE(ice->hwkm_version);
- }
- EXPORT_SYMBOL_GPL(qcom_ice_prepare_key);
- /**
- * qcom_ice_import_key() - Import a raw key for inline encryption
- * @ice: ICE driver data
- * @raw_key: the raw key to import
- * @raw_key_size: size of @raw_key in bytes
- * @lt_key: output buffer for the long-term wrapped key
- *
- * Use HWKM to import a raw key and return it as a long-term wrapped key.
- *
- * Return: the size of the resulting wrapped key on success; -errno on failure.
- */
- int qcom_ice_import_key(struct qcom_ice *ice,
- const u8 *raw_key, size_t raw_key_size,
- u8 lt_key[BLK_CRYPTO_MAX_HW_WRAPPED_KEY_SIZE])
- {
- int err;
- err = qcom_scm_import_ice_key(raw_key, raw_key_size,
- lt_key, QCOM_ICE_HWKM_WRAPPED_KEY_SIZE(ice->hwkm_version));
- if (err)
- return err;
- return QCOM_ICE_HWKM_WRAPPED_KEY_SIZE(ice->hwkm_version);
- }
- EXPORT_SYMBOL_GPL(qcom_ice_import_key);
- static struct qcom_ice *qcom_ice_create(struct device *dev,
- void __iomem *base)
- {
- struct qcom_ice *engine;
- if (!qcom_scm_is_available())
- return ERR_PTR(-EPROBE_DEFER);
- if (!qcom_scm_ice_available()) {
- dev_warn(dev, "ICE SCM interface not found\n");
- return NULL;
- }
- engine = devm_kzalloc(dev, sizeof(*engine), GFP_KERNEL);
- if (!engine)
- return ERR_PTR(-ENOMEM);
- engine->dev = dev;
- engine->base = base;
- /*
- * Legacy DT binding uses different clk names for each consumer,
- * so lets try those first. If none of those are a match, it means
- * the we only have one clock and it is part of the dedicated DT node.
- * Also, enable the clock before we check what HW version the driver
- * supports.
- */
- engine->core_clk = devm_clk_get_optional_enabled(dev, "ice_core_clk");
- if (!engine->core_clk)
- engine->core_clk = devm_clk_get_optional_enabled(dev, "ice");
- if (!engine->core_clk)
- engine->core_clk = devm_clk_get_enabled(dev, NULL);
- if (IS_ERR(engine->core_clk))
- return ERR_CAST(engine->core_clk);
- if (!qcom_ice_check_supported(engine))
- return ERR_PTR(-EOPNOTSUPP);
- dev_dbg(dev, "Registered Qualcomm Inline Crypto Engine\n");
- return engine;
- }
- /**
- * of_qcom_ice_get() - get an ICE instance from a DT node
- * @dev: device pointer for the consumer device
- *
- * This function will provide an ICE instance either by creating one for the
- * consumer device if its DT node provides the 'ice' reg range and the 'ice'
- * clock (for legacy DT style). On the other hand, if consumer provides a
- * phandle via 'qcom,ice' property to an ICE DT, the ICE instance will already
- * be created and so this function will return that instead.
- *
- * Return: ICE pointer on success, NULL if there is no ICE data provided by the
- * consumer or ERR_PTR() on error.
- */
- static struct qcom_ice *of_qcom_ice_get(struct device *dev)
- {
- struct platform_device *pdev = to_platform_device(dev);
- struct qcom_ice *ice;
- struct resource *res;
- void __iomem *base;
- struct device_link *link;
- if (!dev || !dev->of_node)
- return ERR_PTR(-ENODEV);
- /*
- * In order to support legacy style devicetree bindings, we need
- * to create the ICE instance using the consumer device and the reg
- * range called 'ice' it provides.
- */
- res = platform_get_resource_byname(pdev, IORESOURCE_MEM, "ice");
- if (res) {
- base = devm_ioremap_resource(&pdev->dev, res);
- if (IS_ERR(base))
- return ERR_CAST(base);
- /* create ICE instance using consumer dev */
- return qcom_ice_create(&pdev->dev, base);
- }
- /*
- * If the consumer node does not provider an 'ice' reg range
- * (legacy DT binding), then it must at least provide a phandle
- * to the ICE devicetree node, otherwise ICE is not supported.
- */
- struct device_node *node __free(device_node) = of_parse_phandle(dev->of_node,
- "qcom,ice", 0);
- if (!node)
- return NULL;
- pdev = of_find_device_by_node(node);
- if (!pdev) {
- dev_err(dev, "Cannot find device node %s\n", node->name);
- return ERR_PTR(-EPROBE_DEFER);
- }
- ice = platform_get_drvdata(pdev);
- if (!ice) {
- dev_err(dev, "Cannot get ice instance from %s\n",
- dev_name(&pdev->dev));
- platform_device_put(pdev);
- return ERR_PTR(-EPROBE_DEFER);
- }
- link = device_link_add(dev, &pdev->dev, DL_FLAG_AUTOREMOVE_SUPPLIER);
- if (!link) {
- dev_err(&pdev->dev,
- "Failed to create device link to consumer %s\n",
- dev_name(dev));
- platform_device_put(pdev);
- ice = ERR_PTR(-EINVAL);
- }
- return ice;
- }
- static void qcom_ice_put(const struct qcom_ice *ice)
- {
- struct platform_device *pdev = to_platform_device(ice->dev);
- if (!platform_get_resource_byname(pdev, IORESOURCE_MEM, "ice"))
- platform_device_put(pdev);
- }
- static void devm_of_qcom_ice_put(struct device *dev, void *res)
- {
- qcom_ice_put(*(struct qcom_ice **)res);
- }
- /**
- * devm_of_qcom_ice_get() - Devres managed helper to get an ICE instance from
- * a DT node.
- * @dev: device pointer for the consumer device.
- *
- * This function will provide an ICE instance either by creating one for the
- * consumer device if its DT node provides the 'ice' reg range and the 'ice'
- * clock (for legacy DT style). On the other hand, if consumer provides a
- * phandle via 'qcom,ice' property to an ICE DT, the ICE instance will already
- * be created and so this function will return that instead.
- *
- * Return: ICE pointer on success, NULL if there is no ICE data provided by the
- * consumer or ERR_PTR() on error.
- */
- struct qcom_ice *devm_of_qcom_ice_get(struct device *dev)
- {
- struct qcom_ice *ice, **dr;
- dr = devres_alloc(devm_of_qcom_ice_put, sizeof(*dr), GFP_KERNEL);
- if (!dr)
- return ERR_PTR(-ENOMEM);
- ice = of_qcom_ice_get(dev);
- if (!IS_ERR_OR_NULL(ice)) {
- *dr = ice;
- devres_add(dev, dr);
- } else {
- devres_free(dr);
- }
- return ice;
- }
- EXPORT_SYMBOL_GPL(devm_of_qcom_ice_get);
- static int qcom_ice_probe(struct platform_device *pdev)
- {
- struct qcom_ice *engine;
- void __iomem *base;
- base = devm_platform_ioremap_resource(pdev, 0);
- if (IS_ERR(base)) {
- dev_warn(&pdev->dev, "ICE registers not found\n");
- return PTR_ERR(base);
- }
- engine = qcom_ice_create(&pdev->dev, base);
- if (IS_ERR(engine))
- return PTR_ERR(engine);
- platform_set_drvdata(pdev, engine);
- return 0;
- }
- static const struct of_device_id qcom_ice_of_match_table[] = {
- { .compatible = "qcom,inline-crypto-engine" },
- { },
- };
- MODULE_DEVICE_TABLE(of, qcom_ice_of_match_table);
- static struct platform_driver qcom_ice_driver = {
- .probe = qcom_ice_probe,
- .driver = {
- .name = "qcom-ice",
- .of_match_table = qcom_ice_of_match_table,
- },
- };
- module_platform_driver(qcom_ice_driver);
- MODULE_DESCRIPTION("Qualcomm Inline Crypto Engine driver");
- MODULE_LICENSE("GPL");
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