Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Giovanni Cabiddu | 1020 | 70.15% | 8 | 34.78% |
Tomasz Kowalik | 204 | 14.03% | 1 | 4.35% |
Marco Chiappero | 105 | 7.22% | 5 | 21.74% |
Tadeusz Struk | 66 | 4.54% | 3 | 13.04% |
Wojciech Ziemba | 42 | 2.89% | 4 | 17.39% |
Bruce W Allan | 16 | 1.10% | 1 | 4.35% |
Dan Carpenter | 1 | 0.07% | 1 | 4.35% |
Total | 1454 | 23 |
// SPDX-License-Identifier: (BSD-3-Clause OR GPL-2.0-only) /* Copyright(c) 2020 - 2021 Intel Corporation */ #include <linux/iopoll.h> #include <adf_accel_devices.h> #include <adf_cfg.h> #include <adf_common_drv.h> #include <adf_gen4_dc.h> #include <adf_gen4_hw_data.h> #include <adf_gen4_pfvf.h> #include <adf_gen4_pm.h> #include "adf_4xxx_hw_data.h" #include "icp_qat_hw.h" struct adf_fw_config { u32 ae_mask; char *obj_name; }; static struct adf_fw_config adf_4xxx_fw_cy_config[] = { {0xF0, ADF_4XXX_SYM_OBJ}, {0xF, ADF_4XXX_ASYM_OBJ}, {0x100, ADF_4XXX_ADMIN_OBJ}, }; static struct adf_fw_config adf_4xxx_fw_dc_config[] = { {0xF0, ADF_4XXX_DC_OBJ}, {0xF, ADF_4XXX_DC_OBJ}, {0x100, ADF_4XXX_ADMIN_OBJ}, }; /* Worker thread to service arbiter mappings */ static const u32 thrd_to_arb_map[ADF_4XXX_MAX_ACCELENGINES] = { 0x5555555, 0x5555555, 0x5555555, 0x5555555, 0xAAAAAAA, 0xAAAAAAA, 0xAAAAAAA, 0xAAAAAAA, 0x0 }; static struct adf_hw_device_class adf_4xxx_class = { .name = ADF_4XXX_DEVICE_NAME, .type = DEV_4XXX, .instances = 0, }; enum dev_services { SVC_CY = 0, SVC_DC, }; static const char *const dev_cfg_services[] = { [SVC_CY] = ADF_CFG_CY, [SVC_DC] = ADF_CFG_DC, }; static int get_service_enabled(struct adf_accel_dev *accel_dev) { char services[ADF_CFG_MAX_VAL_LEN_IN_BYTES] = {0}; int ret; ret = adf_cfg_get_param_value(accel_dev, ADF_GENERAL_SEC, ADF_SERVICES_ENABLED, services); if (ret) { dev_err(&GET_DEV(accel_dev), ADF_SERVICES_ENABLED " param not found\n"); return ret; } ret = match_string(dev_cfg_services, ARRAY_SIZE(dev_cfg_services), services); if (ret < 0) dev_err(&GET_DEV(accel_dev), "Invalid value of " ADF_SERVICES_ENABLED " param: %s\n", services); return ret; } static u32 get_accel_mask(struct adf_hw_device_data *self) { return ADF_4XXX_ACCELERATORS_MASK; } static u32 get_ae_mask(struct adf_hw_device_data *self) { u32 me_disable = self->fuses; return ~me_disable & ADF_4XXX_ACCELENGINES_MASK; } static u32 get_num_accels(struct adf_hw_device_data *self) { return ADF_4XXX_MAX_ACCELERATORS; } static u32 get_num_aes(struct adf_hw_device_data *self) { if (!self || !self->ae_mask) return 0; return hweight32(self->ae_mask); } static u32 get_misc_bar_id(struct adf_hw_device_data *self) { return ADF_4XXX_PMISC_BAR; } static u32 get_etr_bar_id(struct adf_hw_device_data *self) { return ADF_4XXX_ETR_BAR; } static u32 get_sram_bar_id(struct adf_hw_device_data *self) { return ADF_4XXX_SRAM_BAR; } /* * The vector routing table is used to select the MSI-X entry to use for each * interrupt source. * The first ADF_4XXX_ETR_MAX_BANKS entries correspond to ring interrupts. * The final entry corresponds to VF2PF or error interrupts. * This vector table could be used to configure one MSI-X entry to be shared * between multiple interrupt sources. * * The default routing is set to have a one to one correspondence between the * interrupt source and the MSI-X entry used. */ static void set_msix_default_rttable(struct adf_accel_dev *accel_dev) { void __iomem *csr; int i; csr = (&GET_BARS(accel_dev)[ADF_4XXX_PMISC_BAR])->virt_addr; for (i = 0; i <= ADF_4XXX_ETR_MAX_BANKS; i++) ADF_CSR_WR(csr, ADF_4XXX_MSIX_RTTABLE_OFFSET(i), i); } static u32 get_accel_cap(struct adf_accel_dev *accel_dev) { struct pci_dev *pdev = accel_dev->accel_pci_dev.pci_dev; u32 capabilities_cy, capabilities_dc; u32 fusectl1; /* Read accelerator capabilities mask */ pci_read_config_dword(pdev, ADF_4XXX_FUSECTL1_OFFSET, &fusectl1); capabilities_cy = ICP_ACCEL_CAPABILITIES_CRYPTO_SYMMETRIC | ICP_ACCEL_CAPABILITIES_CRYPTO_ASYMMETRIC | ICP_ACCEL_CAPABILITIES_CIPHER | ICP_ACCEL_CAPABILITIES_AUTHENTICATION | ICP_ACCEL_CAPABILITIES_SHA3 | ICP_ACCEL_CAPABILITIES_SHA3_EXT | ICP_ACCEL_CAPABILITIES_HKDF | ICP_ACCEL_CAPABILITIES_ECEDMONT | ICP_ACCEL_CAPABILITIES_CHACHA_POLY | ICP_ACCEL_CAPABILITIES_AESGCM_SPC | ICP_ACCEL_CAPABILITIES_AES_V2; /* A set bit in fusectl1 means the feature is OFF in this SKU */ if (fusectl1 & ICP_ACCEL_4XXX_MASK_CIPHER_SLICE) { capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_CRYPTO_SYMMETRIC; capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_HKDF; capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_CIPHER; } if (fusectl1 & ICP_ACCEL_4XXX_MASK_UCS_SLICE) { capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_CHACHA_POLY; capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_AESGCM_SPC; capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_AES_V2; capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_CIPHER; } if (fusectl1 & ICP_ACCEL_4XXX_MASK_AUTH_SLICE) { capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_AUTHENTICATION; capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_SHA3; capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_SHA3_EXT; capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_CIPHER; } if (fusectl1 & ICP_ACCEL_4XXX_MASK_PKE_SLICE) { capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_CRYPTO_ASYMMETRIC; capabilities_cy &= ~ICP_ACCEL_CAPABILITIES_ECEDMONT; } capabilities_dc = ICP_ACCEL_CAPABILITIES_COMPRESSION | ICP_ACCEL_CAPABILITIES_LZ4_COMPRESSION | ICP_ACCEL_CAPABILITIES_LZ4S_COMPRESSION | ICP_ACCEL_CAPABILITIES_CNV_INTEGRITY64; if (fusectl1 & ICP_ACCEL_4XXX_MASK_COMPRESS_SLICE) { capabilities_dc &= ~ICP_ACCEL_CAPABILITIES_COMPRESSION; capabilities_dc &= ~ICP_ACCEL_CAPABILITIES_LZ4_COMPRESSION; capabilities_dc &= ~ICP_ACCEL_CAPABILITIES_LZ4S_COMPRESSION; capabilities_dc &= ~ICP_ACCEL_CAPABILITIES_CNV_INTEGRITY64; } switch (get_service_enabled(accel_dev)) { case SVC_CY: return capabilities_cy; case SVC_DC: return capabilities_dc; } return 0; } static enum dev_sku_info get_sku(struct adf_hw_device_data *self) { return DEV_SKU_1; } static const u32 *adf_get_arbiter_mapping(void) { return thrd_to_arb_map; } static void get_arb_info(struct arb_info *arb_info) { arb_info->arb_cfg = ADF_4XXX_ARB_CONFIG; arb_info->arb_offset = ADF_4XXX_ARB_OFFSET; arb_info->wt2sam_offset = ADF_4XXX_ARB_WRK_2_SER_MAP_OFFSET; } static void get_admin_info(struct admin_info *admin_csrs_info) { admin_csrs_info->mailbox_offset = ADF_4XXX_MAILBOX_BASE_OFFSET; admin_csrs_info->admin_msg_ur = ADF_4XXX_ADMINMSGUR_OFFSET; admin_csrs_info->admin_msg_lr = ADF_4XXX_ADMINMSGLR_OFFSET; } static void adf_enable_error_correction(struct adf_accel_dev *accel_dev) { struct adf_bar *misc_bar = &GET_BARS(accel_dev)[ADF_4XXX_PMISC_BAR]; void __iomem *csr = misc_bar->virt_addr; /* Enable all in errsou3 except VFLR notification on host */ ADF_CSR_WR(csr, ADF_GEN4_ERRMSK3, ADF_GEN4_VFLNOTIFY); } static void adf_enable_ints(struct adf_accel_dev *accel_dev) { void __iomem *addr; addr = (&GET_BARS(accel_dev)[ADF_4XXX_PMISC_BAR])->virt_addr; /* Enable bundle interrupts */ ADF_CSR_WR(addr, ADF_4XXX_SMIAPF_RP_X0_MASK_OFFSET, 0); ADF_CSR_WR(addr, ADF_4XXX_SMIAPF_RP_X1_MASK_OFFSET, 0); /* Enable misc interrupts */ ADF_CSR_WR(addr, ADF_4XXX_SMIAPF_MASK_OFFSET, 0); } static int adf_init_device(struct adf_accel_dev *accel_dev) { void __iomem *addr; u32 status; u32 csr; int ret; addr = (&GET_BARS(accel_dev)[ADF_4XXX_PMISC_BAR])->virt_addr; /* Temporarily mask PM interrupt */ csr = ADF_CSR_RD(addr, ADF_GEN4_ERRMSK2); csr |= ADF_GEN4_PM_SOU; ADF_CSR_WR(addr, ADF_GEN4_ERRMSK2, csr); /* Set DRV_ACTIVE bit to power up the device */ ADF_CSR_WR(addr, ADF_GEN4_PM_INTERRUPT, ADF_GEN4_PM_DRV_ACTIVE); /* Poll status register to make sure the device is powered up */ ret = read_poll_timeout(ADF_CSR_RD, status, status & ADF_GEN4_PM_INIT_STATE, ADF_GEN4_PM_POLL_DELAY_US, ADF_GEN4_PM_POLL_TIMEOUT_US, true, addr, ADF_GEN4_PM_STATUS); if (ret) dev_err(&GET_DEV(accel_dev), "Failed to power up the device\n"); return ret; } static u32 uof_get_num_objs(void) { BUILD_BUG_ON_MSG(ARRAY_SIZE(adf_4xxx_fw_cy_config) != ARRAY_SIZE(adf_4xxx_fw_dc_config), "Size mismatch between adf_4xxx_fw_*_config arrays"); return ARRAY_SIZE(adf_4xxx_fw_cy_config); } static char *uof_get_name(struct adf_accel_dev *accel_dev, u32 obj_num) { switch (get_service_enabled(accel_dev)) { case SVC_CY: return adf_4xxx_fw_cy_config[obj_num].obj_name; case SVC_DC: return adf_4xxx_fw_dc_config[obj_num].obj_name; } return NULL; } static u32 uof_get_ae_mask(struct adf_accel_dev *accel_dev, u32 obj_num) { switch (get_service_enabled(accel_dev)) { case SVC_CY: return adf_4xxx_fw_cy_config[obj_num].ae_mask; case SVC_DC: return adf_4xxx_fw_dc_config[obj_num].ae_mask; } return 0; } void adf_init_hw_data_4xxx(struct adf_hw_device_data *hw_data) { hw_data->dev_class = &adf_4xxx_class; hw_data->instance_id = adf_4xxx_class.instances++; hw_data->num_banks = ADF_4XXX_ETR_MAX_BANKS; hw_data->num_banks_per_vf = ADF_4XXX_NUM_BANKS_PER_VF; hw_data->num_rings_per_bank = ADF_4XXX_NUM_RINGS_PER_BANK; hw_data->num_accel = ADF_4XXX_MAX_ACCELERATORS; hw_data->num_engines = ADF_4XXX_MAX_ACCELENGINES; hw_data->num_logical_accel = 1; hw_data->tx_rx_gap = ADF_4XXX_RX_RINGS_OFFSET; hw_data->tx_rings_mask = ADF_4XXX_TX_RINGS_MASK; hw_data->ring_to_svc_map = ADF_GEN4_DEFAULT_RING_TO_SRV_MAP; hw_data->alloc_irq = adf_isr_resource_alloc; hw_data->free_irq = adf_isr_resource_free; hw_data->enable_error_correction = adf_enable_error_correction; hw_data->get_accel_mask = get_accel_mask; hw_data->get_ae_mask = get_ae_mask; hw_data->get_num_accels = get_num_accels; hw_data->get_num_aes = get_num_aes; hw_data->get_sram_bar_id = get_sram_bar_id; hw_data->get_etr_bar_id = get_etr_bar_id; hw_data->get_misc_bar_id = get_misc_bar_id; hw_data->get_arb_info = get_arb_info; hw_data->get_admin_info = get_admin_info; hw_data->get_accel_cap = get_accel_cap; hw_data->get_sku = get_sku; hw_data->fw_name = ADF_4XXX_FW; hw_data->fw_mmp_name = ADF_4XXX_MMP; hw_data->init_admin_comms = adf_init_admin_comms; hw_data->exit_admin_comms = adf_exit_admin_comms; hw_data->send_admin_init = adf_send_admin_init; hw_data->init_arb = adf_init_arb; hw_data->exit_arb = adf_exit_arb; hw_data->get_arb_mapping = adf_get_arbiter_mapping; hw_data->enable_ints = adf_enable_ints; hw_data->init_device = adf_init_device; hw_data->reset_device = adf_reset_flr; hw_data->admin_ae_mask = ADF_4XXX_ADMIN_AE_MASK; hw_data->uof_get_num_objs = uof_get_num_objs; hw_data->uof_get_name = uof_get_name; hw_data->uof_get_ae_mask = uof_get_ae_mask; hw_data->set_msix_rttable = set_msix_default_rttable; hw_data->set_ssm_wdtimer = adf_gen4_set_ssm_wdtimer; hw_data->disable_iov = adf_disable_sriov; hw_data->ring_pair_reset = adf_gen4_ring_pair_reset; hw_data->enable_pm = adf_gen4_enable_pm; hw_data->handle_pm_interrupt = adf_gen4_handle_pm_interrupt; hw_data->dev_config = adf_gen4_dev_config; adf_gen4_init_hw_csr_ops(&hw_data->csr_ops); adf_gen4_init_pf_pfvf_ops(&hw_data->pfvf_ops); adf_gen4_init_dc_ops(&hw_data->dc_ops); } void adf_clean_hw_data_4xxx(struct adf_hw_device_data *hw_data) { hw_data->dev_class->instances--; }
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