Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Tadeusz Struk | 7429 | 80.48% | 9 | 19.57% |
Jack Xu | 1298 | 14.06% | 20 | 43.48% |
Pingchao Yang | 205 | 2.22% | 6 | 13.04% |
Giovanni Cabiddu | 137 | 1.48% | 5 | 10.87% |
Arnd Bergmann | 118 | 1.28% | 1 | 2.17% |
Wojciech Ziemba | 21 | 0.23% | 1 | 2.17% |
Marco Chiappero | 14 | 0.15% | 1 | 2.17% |
Bruce W Allan | 6 | 0.06% | 2 | 4.35% |
Damian Muszynski | 3 | 0.03% | 1 | 2.17% |
Total | 9231 | 46 |
// SPDX-License-Identifier: (BSD-3-Clause OR GPL-2.0-only) /* Copyright(c) 2014 - 2020 Intel Corporation */ #include <linux/slab.h> #include <linux/delay.h> #include <linux/pci_ids.h> #include "adf_accel_devices.h" #include "adf_common_drv.h" #include "icp_qat_hal.h" #include "icp_qat_uclo.h" #define BAD_REGADDR 0xffff #define MAX_RETRY_TIMES 10000 #define INIT_CTX_ARB_VALUE 0x0 #define INIT_CTX_ENABLE_VALUE 0x0 #define INIT_PC_VALUE 0x0 #define INIT_WAKEUP_EVENTS_VALUE 0x1 #define INIT_SIG_EVENTS_VALUE 0x1 #define INIT_CCENABLE_VALUE 0x2000 #define RST_CSR_QAT_LSB 20 #define RST_CSR_AE_LSB 0 #define MC_TIMESTAMP_ENABLE (0x1 << 7) #define IGNORE_W1C_MASK ((~(1 << CE_BREAKPOINT_BITPOS)) & \ (~(1 << CE_CNTL_STORE_PARITY_ERROR_BITPOS)) & \ (~(1 << CE_REG_PAR_ERR_BITPOS))) #define INSERT_IMMED_GPRA_CONST(inst, const_val) \ (inst = ((inst & 0xFFFF00C03FFull) | \ ((((const_val) << 12) & 0x0FF00000ull) | \ (((const_val) << 10) & 0x0003FC00ull)))) #define INSERT_IMMED_GPRB_CONST(inst, const_val) \ (inst = ((inst & 0xFFFF00FFF00ull) | \ ((((const_val) << 12) & 0x0FF00000ull) | \ (((const_val) << 0) & 0x000000FFull)))) #define AE(handle, ae) ((handle)->hal_handle->aes[ae]) static const u64 inst_4b[] = { 0x0F0400C0000ull, 0x0F4400C0000ull, 0x0F040000300ull, 0x0F440000300ull, 0x0FC066C0000ull, 0x0F0000C0300ull, 0x0F0000C0300ull, 0x0F0000C0300ull, 0x0A021000000ull }; static const u64 inst[] = { 0x0F0000C0000ull, 0x0F000000380ull, 0x0D805000011ull, 0x0FC082C0300ull, 0x0F0000C0300ull, 0x0F0000C0300ull, 0x0F0000C0300ull, 0x0F0000C0300ull, 0x0A0643C0000ull, 0x0BAC0000301ull, 0x0D802000101ull, 0x0F0000C0001ull, 0x0FC066C0001ull, 0x0F0000C0300ull, 0x0F0000C0300ull, 0x0F0000C0300ull, 0x0F000400300ull, 0x0A0610C0000ull, 0x0BAC0000301ull, 0x0D804400101ull, 0x0A0580C0000ull, 0x0A0581C0000ull, 0x0A0582C0000ull, 0x0A0583C0000ull, 0x0A0584C0000ull, 0x0A0585C0000ull, 0x0A0586C0000ull, 0x0A0587C0000ull, 0x0A0588C0000ull, 0x0A0589C0000ull, 0x0A058AC0000ull, 0x0A058BC0000ull, 0x0A058CC0000ull, 0x0A058DC0000ull, 0x0A058EC0000ull, 0x0A058FC0000ull, 0x0A05C0C0000ull, 0x0A05C1C0000ull, 0x0A05C2C0000ull, 0x0A05C3C0000ull, 0x0A05C4C0000ull, 0x0A05C5C0000ull, 0x0A05C6C0000ull, 0x0A05C7C0000ull, 0x0A05C8C0000ull, 0x0A05C9C0000ull, 0x0A05CAC0000ull, 0x0A05CBC0000ull, 0x0A05CCC0000ull, 0x0A05CDC0000ull, 0x0A05CEC0000ull, 0x0A05CFC0000ull, 0x0A0400C0000ull, 0x0B0400C0000ull, 0x0A0401C0000ull, 0x0B0401C0000ull, 0x0A0402C0000ull, 0x0B0402C0000ull, 0x0A0403C0000ull, 0x0B0403C0000ull, 0x0A0404C0000ull, 0x0B0404C0000ull, 0x0A0405C0000ull, 0x0B0405C0000ull, 0x0A0406C0000ull, 0x0B0406C0000ull, 0x0A0407C0000ull, 0x0B0407C0000ull, 0x0A0408C0000ull, 0x0B0408C0000ull, 0x0A0409C0000ull, 0x0B0409C0000ull, 0x0A040AC0000ull, 0x0B040AC0000ull, 0x0A040BC0000ull, 0x0B040BC0000ull, 0x0A040CC0000ull, 0x0B040CC0000ull, 0x0A040DC0000ull, 0x0B040DC0000ull, 0x0A040EC0000ull, 0x0B040EC0000ull, 0x0A040FC0000ull, 0x0B040FC0000ull, 0x0D81581C010ull, 0x0E000010000ull, 0x0E000010000ull, }; void qat_hal_set_live_ctx(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int ctx_mask) { AE(handle, ae).live_ctx_mask = ctx_mask; } #define CSR_RETRY_TIMES 500 static int qat_hal_rd_ae_csr(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int csr) { unsigned int iterations = CSR_RETRY_TIMES; int value; do { value = GET_AE_CSR(handle, ae, csr); if (!(GET_AE_CSR(handle, ae, LOCAL_CSR_STATUS) & LCS_STATUS)) return value; } while (iterations--); pr_err("QAT: Read CSR timeout\n"); return 0; } static int qat_hal_wr_ae_csr(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int csr, unsigned int value) { unsigned int iterations = CSR_RETRY_TIMES; do { SET_AE_CSR(handle, ae, csr, value); if (!(GET_AE_CSR(handle, ae, LOCAL_CSR_STATUS) & LCS_STATUS)) return 0; } while (iterations--); pr_err("QAT: Write CSR Timeout\n"); return -EFAULT; } static void qat_hal_get_wakeup_event(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned char ctx, unsigned int *events) { unsigned int cur_ctx; cur_ctx = qat_hal_rd_ae_csr(handle, ae, CSR_CTX_POINTER); qat_hal_wr_ae_csr(handle, ae, CSR_CTX_POINTER, ctx); *events = qat_hal_rd_ae_csr(handle, ae, CTX_WAKEUP_EVENTS_INDIRECT); qat_hal_wr_ae_csr(handle, ae, CSR_CTX_POINTER, cur_ctx); } static int qat_hal_wait_cycles(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int cycles, int chk_inactive) { unsigned int base_cnt = 0, cur_cnt = 0; unsigned int csr = (1 << ACS_ABO_BITPOS); int times = MAX_RETRY_TIMES; int elapsed_cycles = 0; base_cnt = qat_hal_rd_ae_csr(handle, ae, PROFILE_COUNT); base_cnt &= 0xffff; while ((int)cycles > elapsed_cycles && times--) { if (chk_inactive) csr = qat_hal_rd_ae_csr(handle, ae, ACTIVE_CTX_STATUS); cur_cnt = qat_hal_rd_ae_csr(handle, ae, PROFILE_COUNT); cur_cnt &= 0xffff; elapsed_cycles = cur_cnt - base_cnt; if (elapsed_cycles < 0) elapsed_cycles += 0x10000; /* ensure at least 8 time cycles elapsed in wait_cycles */ if (elapsed_cycles >= 8 && !(csr & (1 << ACS_ABO_BITPOS))) return 0; } if (times < 0) { pr_err("QAT: wait_num_cycles time out\n"); return -EFAULT; } return 0; } #define CLR_BIT(wrd, bit) ((wrd) & ~(1 << (bit))) #define SET_BIT(wrd, bit) ((wrd) | 1 << (bit)) int qat_hal_set_ae_ctx_mode(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned char mode) { unsigned int csr, new_csr; if (mode != 4 && mode != 8) { pr_err("QAT: bad ctx mode=%d\n", mode); return -EINVAL; } /* Sets the accelaration engine context mode to either four or eight */ csr = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); csr = IGNORE_W1C_MASK & csr; new_csr = (mode == 4) ? SET_BIT(csr, CE_INUSE_CONTEXTS_BITPOS) : CLR_BIT(csr, CE_INUSE_CONTEXTS_BITPOS); qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, new_csr); return 0; } int qat_hal_set_ae_nn_mode(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned char mode) { unsigned int csr, new_csr; csr = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); csr &= IGNORE_W1C_MASK; new_csr = (mode) ? SET_BIT(csr, CE_NN_MODE_BITPOS) : CLR_BIT(csr, CE_NN_MODE_BITPOS); if (new_csr != csr) qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, new_csr); return 0; } int qat_hal_set_ae_lm_mode(struct icp_qat_fw_loader_handle *handle, unsigned char ae, enum icp_qat_uof_regtype lm_type, unsigned char mode) { unsigned int csr, new_csr; csr = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); csr &= IGNORE_W1C_MASK; switch (lm_type) { case ICP_LMEM0: new_csr = (mode) ? SET_BIT(csr, CE_LMADDR_0_GLOBAL_BITPOS) : CLR_BIT(csr, CE_LMADDR_0_GLOBAL_BITPOS); break; case ICP_LMEM1: new_csr = (mode) ? SET_BIT(csr, CE_LMADDR_1_GLOBAL_BITPOS) : CLR_BIT(csr, CE_LMADDR_1_GLOBAL_BITPOS); break; case ICP_LMEM2: new_csr = (mode) ? SET_BIT(csr, CE_LMADDR_2_GLOBAL_BITPOS) : CLR_BIT(csr, CE_LMADDR_2_GLOBAL_BITPOS); break; case ICP_LMEM3: new_csr = (mode) ? SET_BIT(csr, CE_LMADDR_3_GLOBAL_BITPOS) : CLR_BIT(csr, CE_LMADDR_3_GLOBAL_BITPOS); break; default: pr_err("QAT: lmType = 0x%x\n", lm_type); return -EINVAL; } if (new_csr != csr) qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, new_csr); return 0; } void qat_hal_set_ae_tindex_mode(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned char mode) { unsigned int csr, new_csr; csr = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); csr &= IGNORE_W1C_MASK; new_csr = (mode) ? SET_BIT(csr, CE_T_INDEX_GLOBAL_BITPOS) : CLR_BIT(csr, CE_T_INDEX_GLOBAL_BITPOS); if (new_csr != csr) qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, new_csr); } static unsigned short qat_hal_get_reg_addr(unsigned int type, unsigned short reg_num) { unsigned short reg_addr; switch (type) { case ICP_GPA_ABS: case ICP_GPB_ABS: reg_addr = 0x80 | (reg_num & 0x7f); break; case ICP_GPA_REL: case ICP_GPB_REL: reg_addr = reg_num & 0x1f; break; case ICP_SR_RD_REL: case ICP_SR_WR_REL: case ICP_SR_REL: reg_addr = 0x180 | (reg_num & 0x1f); break; case ICP_SR_ABS: reg_addr = 0x140 | ((reg_num & 0x3) << 1); break; case ICP_DR_RD_REL: case ICP_DR_WR_REL: case ICP_DR_REL: reg_addr = 0x1c0 | (reg_num & 0x1f); break; case ICP_DR_ABS: reg_addr = 0x100 | ((reg_num & 0x3) << 1); break; case ICP_NEIGH_REL: reg_addr = 0x280 | (reg_num & 0x1f); break; case ICP_LMEM0: reg_addr = 0x200; break; case ICP_LMEM1: reg_addr = 0x220; break; case ICP_LMEM2: reg_addr = 0x2c0; break; case ICP_LMEM3: reg_addr = 0x2e0; break; case ICP_NO_DEST: reg_addr = 0x300 | (reg_num & 0xff); break; default: reg_addr = BAD_REGADDR; break; } return reg_addr; } void qat_hal_reset(struct icp_qat_fw_loader_handle *handle) { unsigned int reset_mask = handle->chip_info->icp_rst_mask; unsigned int reset_csr = handle->chip_info->icp_rst_csr; unsigned int csr_val; csr_val = GET_CAP_CSR(handle, reset_csr); csr_val |= reset_mask; SET_CAP_CSR(handle, reset_csr, csr_val); } static void qat_hal_wr_indr_csr(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int ctx_mask, unsigned int ae_csr, unsigned int csr_val) { unsigned int ctx, cur_ctx; cur_ctx = qat_hal_rd_ae_csr(handle, ae, CSR_CTX_POINTER); for (ctx = 0; ctx < ICP_QAT_UCLO_MAX_CTX; ctx++) { if (!(ctx_mask & (1 << ctx))) continue; qat_hal_wr_ae_csr(handle, ae, CSR_CTX_POINTER, ctx); qat_hal_wr_ae_csr(handle, ae, ae_csr, csr_val); } qat_hal_wr_ae_csr(handle, ae, CSR_CTX_POINTER, cur_ctx); } static unsigned int qat_hal_rd_indr_csr(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned char ctx, unsigned int ae_csr) { unsigned int cur_ctx, csr_val; cur_ctx = qat_hal_rd_ae_csr(handle, ae, CSR_CTX_POINTER); qat_hal_wr_ae_csr(handle, ae, CSR_CTX_POINTER, ctx); csr_val = qat_hal_rd_ae_csr(handle, ae, ae_csr); qat_hal_wr_ae_csr(handle, ae, CSR_CTX_POINTER, cur_ctx); return csr_val; } static void qat_hal_put_sig_event(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int ctx_mask, unsigned int events) { unsigned int ctx, cur_ctx; cur_ctx = qat_hal_rd_ae_csr(handle, ae, CSR_CTX_POINTER); for (ctx = 0; ctx < ICP_QAT_UCLO_MAX_CTX; ctx++) { if (!(ctx_mask & (1 << ctx))) continue; qat_hal_wr_ae_csr(handle, ae, CSR_CTX_POINTER, ctx); qat_hal_wr_ae_csr(handle, ae, CTX_SIG_EVENTS_INDIRECT, events); } qat_hal_wr_ae_csr(handle, ae, CSR_CTX_POINTER, cur_ctx); } static void qat_hal_put_wakeup_event(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int ctx_mask, unsigned int events) { unsigned int ctx, cur_ctx; cur_ctx = qat_hal_rd_ae_csr(handle, ae, CSR_CTX_POINTER); for (ctx = 0; ctx < ICP_QAT_UCLO_MAX_CTX; ctx++) { if (!(ctx_mask & (1 << ctx))) continue; qat_hal_wr_ae_csr(handle, ae, CSR_CTX_POINTER, ctx); qat_hal_wr_ae_csr(handle, ae, CTX_WAKEUP_EVENTS_INDIRECT, events); } qat_hal_wr_ae_csr(handle, ae, CSR_CTX_POINTER, cur_ctx); } static int qat_hal_check_ae_alive(struct icp_qat_fw_loader_handle *handle) { unsigned long ae_mask = handle->hal_handle->ae_mask; unsigned int base_cnt, cur_cnt; unsigned char ae; int times = MAX_RETRY_TIMES; for_each_set_bit(ae, &ae_mask, handle->hal_handle->ae_max_num) { base_cnt = qat_hal_rd_ae_csr(handle, ae, PROFILE_COUNT); base_cnt &= 0xffff; do { cur_cnt = qat_hal_rd_ae_csr(handle, ae, PROFILE_COUNT); cur_cnt &= 0xffff; } while (times-- && (cur_cnt == base_cnt)); if (times < 0) { pr_err("QAT: AE%d is inactive!!\n", ae); return -EFAULT; } } return 0; } int qat_hal_check_ae_active(struct icp_qat_fw_loader_handle *handle, unsigned int ae) { unsigned int enable = 0, active = 0; enable = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); active = qat_hal_rd_ae_csr(handle, ae, ACTIVE_CTX_STATUS); if ((enable & (0xff << CE_ENABLE_BITPOS)) || (active & (1 << ACS_ABO_BITPOS))) return 1; else return 0; } static void qat_hal_reset_timestamp(struct icp_qat_fw_loader_handle *handle) { unsigned long ae_mask = handle->hal_handle->ae_mask; unsigned int misc_ctl_csr, misc_ctl; unsigned char ae; misc_ctl_csr = handle->chip_info->misc_ctl_csr; /* stop the timestamp timers */ misc_ctl = GET_CAP_CSR(handle, misc_ctl_csr); if (misc_ctl & MC_TIMESTAMP_ENABLE) SET_CAP_CSR(handle, misc_ctl_csr, misc_ctl & (~MC_TIMESTAMP_ENABLE)); for_each_set_bit(ae, &ae_mask, handle->hal_handle->ae_max_num) { qat_hal_wr_ae_csr(handle, ae, TIMESTAMP_LOW, 0); qat_hal_wr_ae_csr(handle, ae, TIMESTAMP_HIGH, 0); } /* start timestamp timers */ SET_CAP_CSR(handle, misc_ctl_csr, misc_ctl | MC_TIMESTAMP_ENABLE); } #define ESRAM_AUTO_TINIT BIT(2) #define ESRAM_AUTO_TINIT_DONE BIT(3) #define ESRAM_AUTO_INIT_USED_CYCLES (1640) #define ESRAM_AUTO_INIT_CSR_OFFSET 0xC1C static int qat_hal_init_esram(struct icp_qat_fw_loader_handle *handle) { void __iomem *csr_addr = (void __iomem *)((uintptr_t)handle->hal_ep_csr_addr_v + ESRAM_AUTO_INIT_CSR_OFFSET); unsigned int csr_val; int times = 30; if (handle->pci_dev->device != PCI_DEVICE_ID_INTEL_QAT_DH895XCC) return 0; csr_val = ADF_CSR_RD(csr_addr, 0); if ((csr_val & ESRAM_AUTO_TINIT) && (csr_val & ESRAM_AUTO_TINIT_DONE)) return 0; csr_val = ADF_CSR_RD(csr_addr, 0); csr_val |= ESRAM_AUTO_TINIT; ADF_CSR_WR(csr_addr, 0, csr_val); do { qat_hal_wait_cycles(handle, 0, ESRAM_AUTO_INIT_USED_CYCLES, 0); csr_val = ADF_CSR_RD(csr_addr, 0); } while (!(csr_val & ESRAM_AUTO_TINIT_DONE) && times--); if (times < 0) { pr_err("QAT: Fail to init eSram!\n"); return -EFAULT; } return 0; } #define SHRAM_INIT_CYCLES 2060 int qat_hal_clr_reset(struct icp_qat_fw_loader_handle *handle) { unsigned int clk_csr = handle->chip_info->glb_clk_enable_csr; unsigned int reset_mask = handle->chip_info->icp_rst_mask; unsigned int reset_csr = handle->chip_info->icp_rst_csr; unsigned long ae_mask = handle->hal_handle->ae_mask; unsigned char ae = 0; unsigned int times = 100; unsigned int csr_val; /* write to the reset csr */ csr_val = GET_CAP_CSR(handle, reset_csr); csr_val &= ~reset_mask; do { SET_CAP_CSR(handle, reset_csr, csr_val); if (!(times--)) goto out_err; csr_val = GET_CAP_CSR(handle, reset_csr); csr_val &= reset_mask; } while (csr_val); /* enable clock */ csr_val = GET_CAP_CSR(handle, clk_csr); csr_val |= reset_mask; SET_CAP_CSR(handle, clk_csr, csr_val); if (qat_hal_check_ae_alive(handle)) goto out_err; /* Set undefined power-up/reset states to reasonable default values */ for_each_set_bit(ae, &ae_mask, handle->hal_handle->ae_max_num) { qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, INIT_CTX_ENABLE_VALUE); qat_hal_wr_indr_csr(handle, ae, ICP_QAT_UCLO_AE_ALL_CTX, CTX_STS_INDIRECT, handle->hal_handle->upc_mask & INIT_PC_VALUE); qat_hal_wr_ae_csr(handle, ae, CTX_ARB_CNTL, INIT_CTX_ARB_VALUE); qat_hal_wr_ae_csr(handle, ae, CC_ENABLE, INIT_CCENABLE_VALUE); qat_hal_put_wakeup_event(handle, ae, ICP_QAT_UCLO_AE_ALL_CTX, INIT_WAKEUP_EVENTS_VALUE); qat_hal_put_sig_event(handle, ae, ICP_QAT_UCLO_AE_ALL_CTX, INIT_SIG_EVENTS_VALUE); } if (qat_hal_init_esram(handle)) goto out_err; if (qat_hal_wait_cycles(handle, 0, SHRAM_INIT_CYCLES, 0)) goto out_err; qat_hal_reset_timestamp(handle); return 0; out_err: pr_err("QAT: failed to get device out of reset\n"); return -EFAULT; } static void qat_hal_disable_ctx(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int ctx_mask) { unsigned int ctx; ctx = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); ctx &= IGNORE_W1C_MASK & (~((ctx_mask & ICP_QAT_UCLO_AE_ALL_CTX) << CE_ENABLE_BITPOS)); qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, ctx); } static u64 qat_hal_parity_64bit(u64 word) { word ^= word >> 1; word ^= word >> 2; word ^= word >> 4; word ^= word >> 8; word ^= word >> 16; word ^= word >> 32; return word & 1; } static u64 qat_hal_set_uword_ecc(u64 uword) { u64 bit0_mask = 0xff800007fffULL, bit1_mask = 0x1f801ff801fULL, bit2_mask = 0xe387e0781e1ULL, bit3_mask = 0x7cb8e388e22ULL, bit4_mask = 0xaf5b2c93244ULL, bit5_mask = 0xf56d5525488ULL, bit6_mask = 0xdaf69a46910ULL; /* clear the ecc bits */ uword &= ~(0x7fULL << 0x2C); uword |= qat_hal_parity_64bit(bit0_mask & uword) << 0x2C; uword |= qat_hal_parity_64bit(bit1_mask & uword) << 0x2D; uword |= qat_hal_parity_64bit(bit2_mask & uword) << 0x2E; uword |= qat_hal_parity_64bit(bit3_mask & uword) << 0x2F; uword |= qat_hal_parity_64bit(bit4_mask & uword) << 0x30; uword |= qat_hal_parity_64bit(bit5_mask & uword) << 0x31; uword |= qat_hal_parity_64bit(bit6_mask & uword) << 0x32; return uword; } void qat_hal_wr_uwords(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int uaddr, unsigned int words_num, u64 *uword) { unsigned int ustore_addr; unsigned int i; ustore_addr = qat_hal_rd_ae_csr(handle, ae, USTORE_ADDRESS); uaddr |= UA_ECS; qat_hal_wr_ae_csr(handle, ae, USTORE_ADDRESS, uaddr); for (i = 0; i < words_num; i++) { unsigned int uwrd_lo, uwrd_hi; u64 tmp; tmp = qat_hal_set_uword_ecc(uword[i]); uwrd_lo = (unsigned int)(tmp & 0xffffffff); uwrd_hi = (unsigned int)(tmp >> 0x20); qat_hal_wr_ae_csr(handle, ae, USTORE_DATA_LOWER, uwrd_lo); qat_hal_wr_ae_csr(handle, ae, USTORE_DATA_UPPER, uwrd_hi); } qat_hal_wr_ae_csr(handle, ae, USTORE_ADDRESS, ustore_addr); } static void qat_hal_enable_ctx(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int ctx_mask) { unsigned int ctx; ctx = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); ctx &= IGNORE_W1C_MASK; ctx_mask &= (ctx & CE_INUSE_CONTEXTS) ? 0x55 : 0xFF; ctx |= (ctx_mask << CE_ENABLE_BITPOS); qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, ctx); } static void qat_hal_clear_xfer(struct icp_qat_fw_loader_handle *handle) { unsigned long ae_mask = handle->hal_handle->ae_mask; unsigned char ae; unsigned short reg; for_each_set_bit(ae, &ae_mask, handle->hal_handle->ae_max_num) { for (reg = 0; reg < ICP_QAT_UCLO_MAX_GPR_REG; reg++) { qat_hal_init_rd_xfer(handle, ae, 0, ICP_SR_RD_ABS, reg, 0); qat_hal_init_rd_xfer(handle, ae, 0, ICP_DR_RD_ABS, reg, 0); } } } static int qat_hal_clear_gpr(struct icp_qat_fw_loader_handle *handle) { unsigned long ae_mask = handle->hal_handle->ae_mask; unsigned char ae; unsigned int ctx_mask = ICP_QAT_UCLO_AE_ALL_CTX; int times = MAX_RETRY_TIMES; unsigned int csr_val = 0; unsigned int savctx = 0; int ret = 0; for_each_set_bit(ae, &ae_mask, handle->hal_handle->ae_max_num) { csr_val = qat_hal_rd_ae_csr(handle, ae, AE_MISC_CONTROL); csr_val &= ~(1 << MMC_SHARE_CS_BITPOS); qat_hal_wr_ae_csr(handle, ae, AE_MISC_CONTROL, csr_val); csr_val = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); csr_val &= IGNORE_W1C_MASK; if (handle->chip_info->nn) csr_val |= CE_NN_MODE; qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, csr_val); qat_hal_wr_uwords(handle, ae, 0, ARRAY_SIZE(inst), (u64 *)inst); qat_hal_wr_indr_csr(handle, ae, ctx_mask, CTX_STS_INDIRECT, handle->hal_handle->upc_mask & INIT_PC_VALUE); savctx = qat_hal_rd_ae_csr(handle, ae, ACTIVE_CTX_STATUS); qat_hal_wr_ae_csr(handle, ae, ACTIVE_CTX_STATUS, 0); qat_hal_put_wakeup_event(handle, ae, ctx_mask, XCWE_VOLUNTARY); qat_hal_wr_indr_csr(handle, ae, ctx_mask, CTX_SIG_EVENTS_INDIRECT, 0); qat_hal_wr_ae_csr(handle, ae, CTX_SIG_EVENTS_ACTIVE, 0); qat_hal_enable_ctx(handle, ae, ctx_mask); } for_each_set_bit(ae, &ae_mask, handle->hal_handle->ae_max_num) { /* wait for AE to finish */ do { ret = qat_hal_wait_cycles(handle, ae, 20, 1); } while (ret && times--); if (times < 0) { pr_err("QAT: clear GPR of AE %d failed", ae); return -EINVAL; } qat_hal_disable_ctx(handle, ae, ctx_mask); qat_hal_wr_ae_csr(handle, ae, ACTIVE_CTX_STATUS, savctx & ACS_ACNO); qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, INIT_CTX_ENABLE_VALUE); qat_hal_wr_indr_csr(handle, ae, ctx_mask, CTX_STS_INDIRECT, handle->hal_handle->upc_mask & INIT_PC_VALUE); qat_hal_wr_ae_csr(handle, ae, CTX_ARB_CNTL, INIT_CTX_ARB_VALUE); qat_hal_wr_ae_csr(handle, ae, CC_ENABLE, INIT_CCENABLE_VALUE); qat_hal_put_wakeup_event(handle, ae, ctx_mask, INIT_WAKEUP_EVENTS_VALUE); qat_hal_put_sig_event(handle, ae, ctx_mask, INIT_SIG_EVENTS_VALUE); } return 0; } static int qat_hal_chip_init(struct icp_qat_fw_loader_handle *handle, struct adf_accel_dev *accel_dev) { struct adf_accel_pci *pci_info = &accel_dev->accel_pci_dev; struct adf_hw_device_data *hw_data = accel_dev->hw_device; void __iomem *pmisc_addr = adf_get_pmisc_base(accel_dev); unsigned int max_en_ae_id = 0; struct adf_bar *sram_bar; unsigned int csr_val = 0; unsigned long ae_mask; unsigned char ae = 0; int ret = 0; handle->pci_dev = pci_info->pci_dev; switch (handle->pci_dev->device) { case ADF_4XXX_PCI_DEVICE_ID: case ADF_401XX_PCI_DEVICE_ID: case ADF_402XX_PCI_DEVICE_ID: handle->chip_info->mmp_sram_size = 0; handle->chip_info->nn = false; handle->chip_info->lm2lm3 = true; handle->chip_info->lm_size = ICP_QAT_UCLO_MAX_LMEM_REG_2X; handle->chip_info->icp_rst_csr = ICP_RESET_CPP0; handle->chip_info->icp_rst_mask = 0x100015; handle->chip_info->glb_clk_enable_csr = ICP_GLOBAL_CLK_ENABLE_CPP0; handle->chip_info->misc_ctl_csr = MISC_CONTROL_C4XXX; handle->chip_info->wakeup_event_val = 0x80000000; handle->chip_info->fw_auth = true; handle->chip_info->css_3k = true; handle->chip_info->tgroup_share_ustore = true; handle->chip_info->fcu_ctl_csr = FCU_CONTROL_4XXX; handle->chip_info->fcu_sts_csr = FCU_STATUS_4XXX; handle->chip_info->fcu_dram_addr_hi = FCU_DRAM_ADDR_HI_4XXX; handle->chip_info->fcu_dram_addr_lo = FCU_DRAM_ADDR_LO_4XXX; handle->chip_info->fcu_loaded_ae_csr = FCU_AE_LOADED_4XXX; handle->chip_info->fcu_loaded_ae_pos = 0; handle->hal_cap_g_ctl_csr_addr_v = pmisc_addr + ICP_QAT_CAP_OFFSET_4XXX; handle->hal_cap_ae_xfer_csr_addr_v = pmisc_addr + ICP_QAT_AE_OFFSET_4XXX; handle->hal_ep_csr_addr_v = pmisc_addr + ICP_QAT_EP_OFFSET_4XXX; handle->hal_cap_ae_local_csr_addr_v = (void __iomem *)((uintptr_t)handle->hal_cap_ae_xfer_csr_addr_v + LOCAL_TO_XFER_REG_OFFSET); break; case PCI_DEVICE_ID_INTEL_QAT_C62X: case PCI_DEVICE_ID_INTEL_QAT_C3XXX: handle->chip_info->mmp_sram_size = 0; handle->chip_info->nn = true; handle->chip_info->lm2lm3 = false; handle->chip_info->lm_size = ICP_QAT_UCLO_MAX_LMEM_REG; handle->chip_info->icp_rst_csr = ICP_RESET; handle->chip_info->icp_rst_mask = (hw_data->ae_mask << RST_CSR_AE_LSB) | (hw_data->accel_mask << RST_CSR_QAT_LSB); handle->chip_info->glb_clk_enable_csr = ICP_GLOBAL_CLK_ENABLE; handle->chip_info->misc_ctl_csr = MISC_CONTROL; handle->chip_info->wakeup_event_val = WAKEUP_EVENT; handle->chip_info->fw_auth = true; handle->chip_info->css_3k = false; handle->chip_info->tgroup_share_ustore = false; handle->chip_info->fcu_ctl_csr = FCU_CONTROL; handle->chip_info->fcu_sts_csr = FCU_STATUS; handle->chip_info->fcu_dram_addr_hi = FCU_DRAM_ADDR_HI; handle->chip_info->fcu_dram_addr_lo = FCU_DRAM_ADDR_LO; handle->chip_info->fcu_loaded_ae_csr = FCU_STATUS; handle->chip_info->fcu_loaded_ae_pos = FCU_LOADED_AE_POS; handle->hal_cap_g_ctl_csr_addr_v = pmisc_addr + ICP_QAT_CAP_OFFSET; handle->hal_cap_ae_xfer_csr_addr_v = pmisc_addr + ICP_QAT_AE_OFFSET; handle->hal_ep_csr_addr_v = pmisc_addr + ICP_QAT_EP_OFFSET; handle->hal_cap_ae_local_csr_addr_v = (void __iomem *)((uintptr_t)handle->hal_cap_ae_xfer_csr_addr_v + LOCAL_TO_XFER_REG_OFFSET); break; case PCI_DEVICE_ID_INTEL_QAT_DH895XCC: handle->chip_info->mmp_sram_size = 0x40000; handle->chip_info->nn = true; handle->chip_info->lm2lm3 = false; handle->chip_info->lm_size = ICP_QAT_UCLO_MAX_LMEM_REG; handle->chip_info->icp_rst_csr = ICP_RESET; handle->chip_info->icp_rst_mask = (hw_data->ae_mask << RST_CSR_AE_LSB) | (hw_data->accel_mask << RST_CSR_QAT_LSB); handle->chip_info->glb_clk_enable_csr = ICP_GLOBAL_CLK_ENABLE; handle->chip_info->misc_ctl_csr = MISC_CONTROL; handle->chip_info->wakeup_event_val = WAKEUP_EVENT; handle->chip_info->fw_auth = false; handle->chip_info->css_3k = false; handle->chip_info->tgroup_share_ustore = false; handle->chip_info->fcu_ctl_csr = 0; handle->chip_info->fcu_sts_csr = 0; handle->chip_info->fcu_dram_addr_hi = 0; handle->chip_info->fcu_dram_addr_lo = 0; handle->chip_info->fcu_loaded_ae_csr = 0; handle->chip_info->fcu_loaded_ae_pos = 0; handle->hal_cap_g_ctl_csr_addr_v = pmisc_addr + ICP_QAT_CAP_OFFSET; handle->hal_cap_ae_xfer_csr_addr_v = pmisc_addr + ICP_QAT_AE_OFFSET; handle->hal_ep_csr_addr_v = pmisc_addr + ICP_QAT_EP_OFFSET; handle->hal_cap_ae_local_csr_addr_v = (void __iomem *)((uintptr_t)handle->hal_cap_ae_xfer_csr_addr_v + LOCAL_TO_XFER_REG_OFFSET); break; default: ret = -EINVAL; goto out_err; } if (handle->chip_info->mmp_sram_size > 0) { sram_bar = &pci_info->pci_bars[hw_data->get_sram_bar_id(hw_data)]; handle->hal_sram_addr_v = sram_bar->virt_addr; } handle->hal_handle->revision_id = accel_dev->accel_pci_dev.revid; handle->hal_handle->ae_mask = hw_data->ae_mask; handle->hal_handle->admin_ae_mask = hw_data->admin_ae_mask; handle->hal_handle->slice_mask = hw_data->accel_mask; handle->cfg_ae_mask = ALL_AE_MASK; /* create AE objects */ handle->hal_handle->upc_mask = 0x1ffff; handle->hal_handle->max_ustore = 0x4000; ae_mask = handle->hal_handle->ae_mask; for_each_set_bit(ae, &ae_mask, ICP_QAT_UCLO_MAX_AE) { handle->hal_handle->aes[ae].free_addr = 0; handle->hal_handle->aes[ae].free_size = handle->hal_handle->max_ustore; handle->hal_handle->aes[ae].ustore_size = handle->hal_handle->max_ustore; handle->hal_handle->aes[ae].live_ctx_mask = ICP_QAT_UCLO_AE_ALL_CTX; max_en_ae_id = ae; } handle->hal_handle->ae_max_num = max_en_ae_id + 1; /* Set SIGNATURE_ENABLE[0] to 0x1 in order to enable ALU_OUT csr */ for_each_set_bit(ae, &ae_mask, handle->hal_handle->ae_max_num) { csr_val = qat_hal_rd_ae_csr(handle, ae, SIGNATURE_ENABLE); csr_val |= 0x1; qat_hal_wr_ae_csr(handle, ae, SIGNATURE_ENABLE, csr_val); } out_err: return ret; } int qat_hal_init(struct adf_accel_dev *accel_dev) { struct icp_qat_fw_loader_handle *handle; int ret = 0; handle = kzalloc(sizeof(*handle), GFP_KERNEL); if (!handle) return -ENOMEM; handle->hal_handle = kzalloc(sizeof(*handle->hal_handle), GFP_KERNEL); if (!handle->hal_handle) { ret = -ENOMEM; goto out_hal_handle; } handle->chip_info = kzalloc(sizeof(*handle->chip_info), GFP_KERNEL); if (!handle->chip_info) { ret = -ENOMEM; goto out_chip_info; } ret = qat_hal_chip_init(handle, accel_dev); if (ret) { dev_err(&GET_DEV(accel_dev), "qat_hal_chip_init error\n"); goto out_err; } /* take all AEs out of reset */ ret = qat_hal_clr_reset(handle); if (ret) { dev_err(&GET_DEV(accel_dev), "qat_hal_clr_reset error\n"); goto out_err; } qat_hal_clear_xfer(handle); if (!handle->chip_info->fw_auth) { ret = qat_hal_clear_gpr(handle); if (ret) goto out_err; } accel_dev->fw_loader->fw_loader = handle; return 0; out_err: kfree(handle->chip_info); out_chip_info: kfree(handle->hal_handle); out_hal_handle: kfree(handle); return ret; } void qat_hal_deinit(struct icp_qat_fw_loader_handle *handle) { if (!handle) return; kfree(handle->chip_info); kfree(handle->hal_handle); kfree(handle); } int qat_hal_start(struct icp_qat_fw_loader_handle *handle) { unsigned long ae_mask = handle->hal_handle->ae_mask; u32 wakeup_val = handle->chip_info->wakeup_event_val; u32 fcu_ctl_csr, fcu_sts_csr; unsigned int fcu_sts; unsigned char ae; u32 ae_ctr = 0; int retry = 0; if (handle->chip_info->fw_auth) { fcu_ctl_csr = handle->chip_info->fcu_ctl_csr; fcu_sts_csr = handle->chip_info->fcu_sts_csr; ae_ctr = hweight32(ae_mask); SET_CAP_CSR(handle, fcu_ctl_csr, FCU_CTRL_CMD_START); do { msleep(FW_AUTH_WAIT_PERIOD); fcu_sts = GET_CAP_CSR(handle, fcu_sts_csr); if (((fcu_sts >> FCU_STS_DONE_POS) & 0x1)) return ae_ctr; } while (retry++ < FW_AUTH_MAX_RETRY); pr_err("QAT: start error (FCU_STS = 0x%x)\n", fcu_sts); return 0; } else { for_each_set_bit(ae, &ae_mask, handle->hal_handle->ae_max_num) { qat_hal_put_wakeup_event(handle, ae, 0, wakeup_val); qat_hal_enable_ctx(handle, ae, ICP_QAT_UCLO_AE_ALL_CTX); ae_ctr++; } return ae_ctr; } } void qat_hal_stop(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int ctx_mask) { if (!handle->chip_info->fw_auth) qat_hal_disable_ctx(handle, ae, ctx_mask); } void qat_hal_set_pc(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int ctx_mask, unsigned int upc) { qat_hal_wr_indr_csr(handle, ae, ctx_mask, CTX_STS_INDIRECT, handle->hal_handle->upc_mask & upc); } static void qat_hal_get_uwords(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int uaddr, unsigned int words_num, u64 *uword) { unsigned int i, uwrd_lo, uwrd_hi; unsigned int ustore_addr, misc_control; misc_control = qat_hal_rd_ae_csr(handle, ae, AE_MISC_CONTROL); qat_hal_wr_ae_csr(handle, ae, AE_MISC_CONTROL, misc_control & 0xfffffffb); ustore_addr = qat_hal_rd_ae_csr(handle, ae, USTORE_ADDRESS); uaddr |= UA_ECS; for (i = 0; i < words_num; i++) { qat_hal_wr_ae_csr(handle, ae, USTORE_ADDRESS, uaddr); uaddr++; uwrd_lo = qat_hal_rd_ae_csr(handle, ae, USTORE_DATA_LOWER); uwrd_hi = qat_hal_rd_ae_csr(handle, ae, USTORE_DATA_UPPER); uword[i] = uwrd_hi; uword[i] = (uword[i] << 0x20) | uwrd_lo; } qat_hal_wr_ae_csr(handle, ae, AE_MISC_CONTROL, misc_control); qat_hal_wr_ae_csr(handle, ae, USTORE_ADDRESS, ustore_addr); } void qat_hal_wr_umem(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned int uaddr, unsigned int words_num, unsigned int *data) { unsigned int i, ustore_addr; ustore_addr = qat_hal_rd_ae_csr(handle, ae, USTORE_ADDRESS); uaddr |= UA_ECS; qat_hal_wr_ae_csr(handle, ae, USTORE_ADDRESS, uaddr); for (i = 0; i < words_num; i++) { unsigned int uwrd_lo, uwrd_hi, tmp; uwrd_lo = ((data[i] & 0xfff0000) << 4) | (0x3 << 18) | ((data[i] & 0xff00) << 2) | (0x3 << 8) | (data[i] & 0xff); uwrd_hi = (0xf << 4) | ((data[i] & 0xf0000000) >> 28); uwrd_hi |= (hweight32(data[i] & 0xffff) & 0x1) << 8; tmp = ((data[i] >> 0x10) & 0xffff); uwrd_hi |= (hweight32(tmp) & 0x1) << 9; qat_hal_wr_ae_csr(handle, ae, USTORE_DATA_LOWER, uwrd_lo); qat_hal_wr_ae_csr(handle, ae, USTORE_DATA_UPPER, uwrd_hi); } qat_hal_wr_ae_csr(handle, ae, USTORE_ADDRESS, ustore_addr); } #define MAX_EXEC_INST 100 static int qat_hal_exec_micro_inst(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned char ctx, u64 *micro_inst, unsigned int inst_num, int code_off, unsigned int max_cycle, unsigned int *endpc) { unsigned int ind_lm_addr_byte0 = 0, ind_lm_addr_byte1 = 0; unsigned int ind_lm_addr_byte2 = 0, ind_lm_addr_byte3 = 0; unsigned int ind_t_index = 0, ind_t_index_byte = 0; unsigned int ind_lm_addr0 = 0, ind_lm_addr1 = 0; unsigned int ind_lm_addr2 = 0, ind_lm_addr3 = 0; u64 savuwords[MAX_EXEC_INST]; unsigned int ind_cnt_sig; unsigned int ind_sig, act_sig; unsigned int csr_val = 0, newcsr_val; unsigned int savctx; unsigned int savcc, wakeup_events, savpc; unsigned int ctxarb_ctl, ctx_enables; if ((inst_num > handle->hal_handle->max_ustore) || !micro_inst) { pr_err("QAT: invalid instruction num %d\n", inst_num); return -EINVAL; } /* save current context */ ind_lm_addr0 = qat_hal_rd_indr_csr(handle, ae, ctx, LM_ADDR_0_INDIRECT); ind_lm_addr1 = qat_hal_rd_indr_csr(handle, ae, ctx, LM_ADDR_1_INDIRECT); ind_lm_addr_byte0 = qat_hal_rd_indr_csr(handle, ae, ctx, INDIRECT_LM_ADDR_0_BYTE_INDEX); ind_lm_addr_byte1 = qat_hal_rd_indr_csr(handle, ae, ctx, INDIRECT_LM_ADDR_1_BYTE_INDEX); if (handle->chip_info->lm2lm3) { ind_lm_addr2 = qat_hal_rd_indr_csr(handle, ae, ctx, LM_ADDR_2_INDIRECT); ind_lm_addr3 = qat_hal_rd_indr_csr(handle, ae, ctx, LM_ADDR_3_INDIRECT); ind_lm_addr_byte2 = qat_hal_rd_indr_csr(handle, ae, ctx, INDIRECT_LM_ADDR_2_BYTE_INDEX); ind_lm_addr_byte3 = qat_hal_rd_indr_csr(handle, ae, ctx, INDIRECT_LM_ADDR_3_BYTE_INDEX); ind_t_index = qat_hal_rd_indr_csr(handle, ae, ctx, INDIRECT_T_INDEX); ind_t_index_byte = qat_hal_rd_indr_csr(handle, ae, ctx, INDIRECT_T_INDEX_BYTE_INDEX); } if (inst_num <= MAX_EXEC_INST) qat_hal_get_uwords(handle, ae, 0, inst_num, savuwords); qat_hal_get_wakeup_event(handle, ae, ctx, &wakeup_events); savpc = qat_hal_rd_indr_csr(handle, ae, ctx, CTX_STS_INDIRECT); savpc = (savpc & handle->hal_handle->upc_mask) >> 0; ctx_enables = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); ctx_enables &= IGNORE_W1C_MASK; savcc = qat_hal_rd_ae_csr(handle, ae, CC_ENABLE); savctx = qat_hal_rd_ae_csr(handle, ae, ACTIVE_CTX_STATUS); ctxarb_ctl = qat_hal_rd_ae_csr(handle, ae, CTX_ARB_CNTL); ind_cnt_sig = qat_hal_rd_indr_csr(handle, ae, ctx, FUTURE_COUNT_SIGNAL_INDIRECT); ind_sig = qat_hal_rd_indr_csr(handle, ae, ctx, CTX_SIG_EVENTS_INDIRECT); act_sig = qat_hal_rd_ae_csr(handle, ae, CTX_SIG_EVENTS_ACTIVE); /* execute micro codes */ qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, ctx_enables); qat_hal_wr_uwords(handle, ae, 0, inst_num, micro_inst); qat_hal_wr_indr_csr(handle, ae, (1 << ctx), CTX_STS_INDIRECT, 0); qat_hal_wr_ae_csr(handle, ae, ACTIVE_CTX_STATUS, ctx & ACS_ACNO); if (code_off) qat_hal_wr_ae_csr(handle, ae, CC_ENABLE, savcc & 0xffffdfff); qat_hal_put_wakeup_event(handle, ae, (1 << ctx), XCWE_VOLUNTARY); qat_hal_wr_indr_csr(handle, ae, (1 << ctx), CTX_SIG_EVENTS_INDIRECT, 0); qat_hal_wr_ae_csr(handle, ae, CTX_SIG_EVENTS_ACTIVE, 0); qat_hal_enable_ctx(handle, ae, (1 << ctx)); /* wait for micro codes to finish */ if (qat_hal_wait_cycles(handle, ae, max_cycle, 1) != 0) return -EFAULT; if (endpc) { unsigned int ctx_status; ctx_status = qat_hal_rd_indr_csr(handle, ae, ctx, CTX_STS_INDIRECT); *endpc = ctx_status & handle->hal_handle->upc_mask; } /* retore to saved context */ qat_hal_disable_ctx(handle, ae, (1 << ctx)); if (inst_num <= MAX_EXEC_INST) qat_hal_wr_uwords(handle, ae, 0, inst_num, savuwords); qat_hal_put_wakeup_event(handle, ae, (1 << ctx), wakeup_events); qat_hal_wr_indr_csr(handle, ae, (1 << ctx), CTX_STS_INDIRECT, handle->hal_handle->upc_mask & savpc); csr_val = qat_hal_rd_ae_csr(handle, ae, AE_MISC_CONTROL); newcsr_val = CLR_BIT(csr_val, MMC_SHARE_CS_BITPOS); qat_hal_wr_ae_csr(handle, ae, AE_MISC_CONTROL, newcsr_val); qat_hal_wr_ae_csr(handle, ae, CC_ENABLE, savcc); qat_hal_wr_ae_csr(handle, ae, ACTIVE_CTX_STATUS, savctx & ACS_ACNO); qat_hal_wr_ae_csr(handle, ae, CTX_ARB_CNTL, ctxarb_ctl); qat_hal_wr_indr_csr(handle, ae, (1 << ctx), LM_ADDR_0_INDIRECT, ind_lm_addr0); qat_hal_wr_indr_csr(handle, ae, (1 << ctx), LM_ADDR_1_INDIRECT, ind_lm_addr1); qat_hal_wr_indr_csr(handle, ae, (1 << ctx), INDIRECT_LM_ADDR_0_BYTE_INDEX, ind_lm_addr_byte0); qat_hal_wr_indr_csr(handle, ae, (1 << ctx), INDIRECT_LM_ADDR_1_BYTE_INDEX, ind_lm_addr_byte1); if (handle->chip_info->lm2lm3) { qat_hal_wr_indr_csr(handle, ae, BIT(ctx), LM_ADDR_2_INDIRECT, ind_lm_addr2); qat_hal_wr_indr_csr(handle, ae, BIT(ctx), LM_ADDR_3_INDIRECT, ind_lm_addr3); qat_hal_wr_indr_csr(handle, ae, BIT(ctx), INDIRECT_LM_ADDR_2_BYTE_INDEX, ind_lm_addr_byte2); qat_hal_wr_indr_csr(handle, ae, BIT(ctx), INDIRECT_LM_ADDR_3_BYTE_INDEX, ind_lm_addr_byte3); qat_hal_wr_indr_csr(handle, ae, BIT(ctx), INDIRECT_T_INDEX, ind_t_index); qat_hal_wr_indr_csr(handle, ae, BIT(ctx), INDIRECT_T_INDEX_BYTE_INDEX, ind_t_index_byte); } qat_hal_wr_indr_csr(handle, ae, (1 << ctx), FUTURE_COUNT_SIGNAL_INDIRECT, ind_cnt_sig); qat_hal_wr_indr_csr(handle, ae, (1 << ctx), CTX_SIG_EVENTS_INDIRECT, ind_sig); qat_hal_wr_ae_csr(handle, ae, CTX_SIG_EVENTS_ACTIVE, act_sig); qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, ctx_enables); return 0; } static int qat_hal_rd_rel_reg(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned char ctx, enum icp_qat_uof_regtype reg_type, unsigned short reg_num, unsigned int *data) { unsigned int savctx, uaddr, uwrd_lo, uwrd_hi; unsigned int ctxarb_cntl, ustore_addr, ctx_enables; unsigned short reg_addr; int status = 0; u64 insts, savuword; reg_addr = qat_hal_get_reg_addr(reg_type, reg_num); if (reg_addr == BAD_REGADDR) { pr_err("QAT: bad regaddr=0x%x\n", reg_addr); return -EINVAL; } switch (reg_type) { case ICP_GPA_REL: insts = 0xA070000000ull | (reg_addr & 0x3ff); break; default: insts = (u64)0xA030000000ull | ((reg_addr & 0x3ff) << 10); break; } savctx = qat_hal_rd_ae_csr(handle, ae, ACTIVE_CTX_STATUS); ctxarb_cntl = qat_hal_rd_ae_csr(handle, ae, CTX_ARB_CNTL); ctx_enables = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); ctx_enables &= IGNORE_W1C_MASK; if (ctx != (savctx & ACS_ACNO)) qat_hal_wr_ae_csr(handle, ae, ACTIVE_CTX_STATUS, ctx & ACS_ACNO); qat_hal_get_uwords(handle, ae, 0, 1, &savuword); qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, ctx_enables); ustore_addr = qat_hal_rd_ae_csr(handle, ae, USTORE_ADDRESS); uaddr = UA_ECS; qat_hal_wr_ae_csr(handle, ae, USTORE_ADDRESS, uaddr); insts = qat_hal_set_uword_ecc(insts); uwrd_lo = (unsigned int)(insts & 0xffffffff); uwrd_hi = (unsigned int)(insts >> 0x20); qat_hal_wr_ae_csr(handle, ae, USTORE_DATA_LOWER, uwrd_lo); qat_hal_wr_ae_csr(handle, ae, USTORE_DATA_UPPER, uwrd_hi); qat_hal_wr_ae_csr(handle, ae, USTORE_ADDRESS, uaddr); /* delay for at least 8 cycles */ qat_hal_wait_cycles(handle, ae, 0x8, 0); /* * read ALU output * the instruction should have been executed * prior to clearing the ECS in putUwords */ *data = qat_hal_rd_ae_csr(handle, ae, ALU_OUT); qat_hal_wr_ae_csr(handle, ae, USTORE_ADDRESS, ustore_addr); qat_hal_wr_uwords(handle, ae, 0, 1, &savuword); if (ctx != (savctx & ACS_ACNO)) qat_hal_wr_ae_csr(handle, ae, ACTIVE_CTX_STATUS, savctx & ACS_ACNO); qat_hal_wr_ae_csr(handle, ae, CTX_ARB_CNTL, ctxarb_cntl); qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, ctx_enables); return status; } static int qat_hal_wr_rel_reg(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned char ctx, enum icp_qat_uof_regtype reg_type, unsigned short reg_num, unsigned int data) { unsigned short src_hiaddr, src_lowaddr, dest_addr, data16hi, data16lo; u64 insts[] = { 0x0F440000000ull, 0x0F040000000ull, 0x0F0000C0300ull, 0x0E000010000ull }; const int num_inst = ARRAY_SIZE(insts), code_off = 1; const int imm_w1 = 0, imm_w0 = 1; dest_addr = qat_hal_get_reg_addr(reg_type, reg_num); if (dest_addr == BAD_REGADDR) { pr_err("QAT: bad destAddr=0x%x\n", dest_addr); return -EINVAL; } data16lo = 0xffff & data; data16hi = 0xffff & (data >> 0x10); src_hiaddr = qat_hal_get_reg_addr(ICP_NO_DEST, (unsigned short) (0xff & data16hi)); src_lowaddr = qat_hal_get_reg_addr(ICP_NO_DEST, (unsigned short) (0xff & data16lo)); switch (reg_type) { case ICP_GPA_REL: insts[imm_w1] = insts[imm_w1] | ((data16hi >> 8) << 20) | ((src_hiaddr & 0x3ff) << 10) | (dest_addr & 0x3ff); insts[imm_w0] = insts[imm_w0] | ((data16lo >> 8) << 20) | ((src_lowaddr & 0x3ff) << 10) | (dest_addr & 0x3ff); break; default: insts[imm_w1] = insts[imm_w1] | ((data16hi >> 8) << 20) | ((dest_addr & 0x3ff) << 10) | (src_hiaddr & 0x3ff); insts[imm_w0] = insts[imm_w0] | ((data16lo >> 8) << 20) | ((dest_addr & 0x3ff) << 10) | (src_lowaddr & 0x3ff); break; } return qat_hal_exec_micro_inst(handle, ae, ctx, insts, num_inst, code_off, num_inst * 0x5, NULL); } int qat_hal_get_ins_num(void) { return ARRAY_SIZE(inst_4b); } static int qat_hal_concat_micro_code(u64 *micro_inst, unsigned int inst_num, unsigned int size, unsigned int addr, unsigned int *value) { int i; unsigned int cur_value; const u64 *inst_arr; int fixup_offset; int usize = 0; int orig_num; orig_num = inst_num; cur_value = value[0]; inst_arr = inst_4b; usize = ARRAY_SIZE(inst_4b); fixup_offset = inst_num; for (i = 0; i < usize; i++) micro_inst[inst_num++] = inst_arr[i]; INSERT_IMMED_GPRA_CONST(micro_inst[fixup_offset], (addr)); fixup_offset++; INSERT_IMMED_GPRA_CONST(micro_inst[fixup_offset], 0); fixup_offset++; INSERT_IMMED_GPRB_CONST(micro_inst[fixup_offset], (cur_value >> 0)); fixup_offset++; INSERT_IMMED_GPRB_CONST(micro_inst[fixup_offset], (cur_value >> 0x10)); return inst_num - orig_num; } static int qat_hal_exec_micro_init_lm(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned char ctx, int *pfirst_exec, u64 *micro_inst, unsigned int inst_num) { int stat = 0; unsigned int gpra0 = 0, gpra1 = 0, gpra2 = 0; unsigned int gprb0 = 0, gprb1 = 0; if (*pfirst_exec) { qat_hal_rd_rel_reg(handle, ae, ctx, ICP_GPA_REL, 0, &gpra0); qat_hal_rd_rel_reg(handle, ae, ctx, ICP_GPA_REL, 0x1, &gpra1); qat_hal_rd_rel_reg(handle, ae, ctx, ICP_GPA_REL, 0x2, &gpra2); qat_hal_rd_rel_reg(handle, ae, ctx, ICP_GPB_REL, 0, &gprb0); qat_hal_rd_rel_reg(handle, ae, ctx, ICP_GPB_REL, 0x1, &gprb1); *pfirst_exec = 0; } stat = qat_hal_exec_micro_inst(handle, ae, ctx, micro_inst, inst_num, 1, inst_num * 0x5, NULL); if (stat != 0) return -EFAULT; qat_hal_wr_rel_reg(handle, ae, ctx, ICP_GPA_REL, 0, gpra0); qat_hal_wr_rel_reg(handle, ae, ctx, ICP_GPA_REL, 0x1, gpra1); qat_hal_wr_rel_reg(handle, ae, ctx, ICP_GPA_REL, 0x2, gpra2); qat_hal_wr_rel_reg(handle, ae, ctx, ICP_GPB_REL, 0, gprb0); qat_hal_wr_rel_reg(handle, ae, ctx, ICP_GPB_REL, 0x1, gprb1); return 0; } int qat_hal_batch_wr_lm(struct icp_qat_fw_loader_handle *handle, unsigned char ae, struct icp_qat_uof_batch_init *lm_init_header) { struct icp_qat_uof_batch_init *plm_init; u64 *micro_inst_arry; int micro_inst_num; int alloc_inst_size; int first_exec = 1; int stat = 0; plm_init = lm_init_header->next; alloc_inst_size = lm_init_header->size; if ((unsigned int)alloc_inst_size > handle->hal_handle->max_ustore) alloc_inst_size = handle->hal_handle->max_ustore; micro_inst_arry = kmalloc_array(alloc_inst_size, sizeof(u64), GFP_KERNEL); if (!micro_inst_arry) return -ENOMEM; micro_inst_num = 0; while (plm_init) { unsigned int addr, *value, size; ae = plm_init->ae; addr = plm_init->addr; value = plm_init->value; size = plm_init->size; micro_inst_num += qat_hal_concat_micro_code(micro_inst_arry, micro_inst_num, size, addr, value); plm_init = plm_init->next; } /* exec micro codes */ if (micro_inst_arry && micro_inst_num > 0) { micro_inst_arry[micro_inst_num++] = 0x0E000010000ull; stat = qat_hal_exec_micro_init_lm(handle, ae, 0, &first_exec, micro_inst_arry, micro_inst_num); } kfree(micro_inst_arry); return stat; } static int qat_hal_put_rel_rd_xfer(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned char ctx, enum icp_qat_uof_regtype reg_type, unsigned short reg_num, unsigned int val) { int status = 0; unsigned int reg_addr; unsigned int ctx_enables; unsigned short mask; unsigned short dr_offset = 0x10; ctx_enables = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); if (CE_INUSE_CONTEXTS & ctx_enables) { if (ctx & 0x1) { pr_err("QAT: bad 4-ctx mode,ctx=0x%x\n", ctx); return -EINVAL; } mask = 0x1f; dr_offset = 0x20; } else { mask = 0x0f; } if (reg_num & ~mask) return -EINVAL; reg_addr = reg_num + (ctx << 0x5); switch (reg_type) { case ICP_SR_RD_REL: case ICP_SR_REL: SET_AE_XFER(handle, ae, reg_addr, val); break; case ICP_DR_RD_REL: case ICP_DR_REL: SET_AE_XFER(handle, ae, (reg_addr + dr_offset), val); break; default: status = -EINVAL; break; } return status; } static int qat_hal_put_rel_wr_xfer(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned char ctx, enum icp_qat_uof_regtype reg_type, unsigned short reg_num, unsigned int data) { unsigned int gprval, ctx_enables; unsigned short src_hiaddr, src_lowaddr, gpr_addr, xfr_addr, data16hi, data16low; unsigned short reg_mask; int status = 0; u64 micro_inst[] = { 0x0F440000000ull, 0x0F040000000ull, 0x0A000000000ull, 0x0F0000C0300ull, 0x0E000010000ull }; const int num_inst = ARRAY_SIZE(micro_inst), code_off = 1; const unsigned short gprnum = 0, dly = num_inst * 0x5; ctx_enables = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); if (CE_INUSE_CONTEXTS & ctx_enables) { if (ctx & 0x1) { pr_err("QAT: 4-ctx mode,ctx=0x%x\n", ctx); return -EINVAL; } reg_mask = (unsigned short)~0x1f; } else { reg_mask = (unsigned short)~0xf; } if (reg_num & reg_mask) return -EINVAL; xfr_addr = qat_hal_get_reg_addr(reg_type, reg_num); if (xfr_addr == BAD_REGADDR) { pr_err("QAT: bad xfrAddr=0x%x\n", xfr_addr); return -EINVAL; } status = qat_hal_rd_rel_reg(handle, ae, ctx, ICP_GPB_REL, gprnum, &gprval); if (status) { pr_err("QAT: failed to read register"); return status; } gpr_addr = qat_hal_get_reg_addr(ICP_GPB_REL, gprnum); data16low = 0xffff & data; data16hi = 0xffff & (data >> 0x10); src_hiaddr = qat_hal_get_reg_addr(ICP_NO_DEST, (unsigned short)(0xff & data16hi)); src_lowaddr = qat_hal_get_reg_addr(ICP_NO_DEST, (unsigned short)(0xff & data16low)); micro_inst[0] = micro_inst[0x0] | ((data16hi >> 8) << 20) | ((gpr_addr & 0x3ff) << 10) | (src_hiaddr & 0x3ff); micro_inst[1] = micro_inst[0x1] | ((data16low >> 8) << 20) | ((gpr_addr & 0x3ff) << 10) | (src_lowaddr & 0x3ff); micro_inst[0x2] = micro_inst[0x2] | ((xfr_addr & 0x3ff) << 20) | ((gpr_addr & 0x3ff) << 10); status = qat_hal_exec_micro_inst(handle, ae, ctx, micro_inst, num_inst, code_off, dly, NULL); qat_hal_wr_rel_reg(handle, ae, ctx, ICP_GPB_REL, gprnum, gprval); return status; } static int qat_hal_put_rel_nn(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned char ctx, unsigned short nn, unsigned int val) { unsigned int ctx_enables; int stat = 0; ctx_enables = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); ctx_enables &= IGNORE_W1C_MASK; qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, ctx_enables | CE_NN_MODE); stat = qat_hal_put_rel_wr_xfer(handle, ae, ctx, ICP_NEIGH_REL, nn, val); qat_hal_wr_ae_csr(handle, ae, CTX_ENABLES, ctx_enables); return stat; } static int qat_hal_convert_abs_to_rel(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned short absreg_num, unsigned short *relreg, unsigned char *ctx) { unsigned int ctx_enables; ctx_enables = qat_hal_rd_ae_csr(handle, ae, CTX_ENABLES); if (ctx_enables & CE_INUSE_CONTEXTS) { /* 4-ctx mode */ *relreg = absreg_num & 0x1F; *ctx = (absreg_num >> 0x4) & 0x6; } else { /* 8-ctx mode */ *relreg = absreg_num & 0x0F; *ctx = (absreg_num >> 0x4) & 0x7; } return 0; } int qat_hal_init_gpr(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned long ctx_mask, enum icp_qat_uof_regtype reg_type, unsigned short reg_num, unsigned int regdata) { int stat = 0; unsigned short reg; unsigned char ctx = 0; enum icp_qat_uof_regtype type; if (reg_num >= ICP_QAT_UCLO_MAX_GPR_REG) return -EINVAL; do { if (ctx_mask == 0) { qat_hal_convert_abs_to_rel(handle, ae, reg_num, ®, &ctx); type = reg_type - 1; } else { reg = reg_num; type = reg_type; if (!test_bit(ctx, &ctx_mask)) continue; } stat = qat_hal_wr_rel_reg(handle, ae, ctx, type, reg, regdata); if (stat) { pr_err("QAT: write gpr fail\n"); return -EINVAL; } } while (ctx_mask && (ctx++ < ICP_QAT_UCLO_MAX_CTX)); return 0; } int qat_hal_init_wr_xfer(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned long ctx_mask, enum icp_qat_uof_regtype reg_type, unsigned short reg_num, unsigned int regdata) { int stat = 0; unsigned short reg; unsigned char ctx = 0; enum icp_qat_uof_regtype type; if (reg_num >= ICP_QAT_UCLO_MAX_XFER_REG) return -EINVAL; do { if (ctx_mask == 0) { qat_hal_convert_abs_to_rel(handle, ae, reg_num, ®, &ctx); type = reg_type - 3; } else { reg = reg_num; type = reg_type; if (!test_bit(ctx, &ctx_mask)) continue; } stat = qat_hal_put_rel_wr_xfer(handle, ae, ctx, type, reg, regdata); if (stat) { pr_err("QAT: write wr xfer fail\n"); return -EINVAL; } } while (ctx_mask && (ctx++ < ICP_QAT_UCLO_MAX_CTX)); return 0; } int qat_hal_init_rd_xfer(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned long ctx_mask, enum icp_qat_uof_regtype reg_type, unsigned short reg_num, unsigned int regdata) { int stat = 0; unsigned short reg; unsigned char ctx = 0; enum icp_qat_uof_regtype type; if (reg_num >= ICP_QAT_UCLO_MAX_XFER_REG) return -EINVAL; do { if (ctx_mask == 0) { qat_hal_convert_abs_to_rel(handle, ae, reg_num, ®, &ctx); type = reg_type - 3; } else { reg = reg_num; type = reg_type; if (!test_bit(ctx, &ctx_mask)) continue; } stat = qat_hal_put_rel_rd_xfer(handle, ae, ctx, type, reg, regdata); if (stat) { pr_err("QAT: write rd xfer fail\n"); return -EINVAL; } } while (ctx_mask && (ctx++ < ICP_QAT_UCLO_MAX_CTX)); return 0; } int qat_hal_init_nn(struct icp_qat_fw_loader_handle *handle, unsigned char ae, unsigned long ctx_mask, unsigned short reg_num, unsigned int regdata) { int stat = 0; unsigned char ctx; if (!handle->chip_info->nn) { dev_err(&handle->pci_dev->dev, "QAT: No next neigh in 0x%x\n", handle->pci_dev->device); return -EINVAL; } if (ctx_mask == 0) return -EINVAL; for (ctx = 0; ctx < ICP_QAT_UCLO_MAX_CTX; ctx++) { if (!test_bit(ctx, &ctx_mask)) continue; stat = qat_hal_put_rel_nn(handle, ae, ctx, reg_num, regdata); if (stat) { pr_err("QAT: write neigh error\n"); return -EINVAL; } } return 0; }
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