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// SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
/*
* NX Cryptographic accellerators
*
* Copyright 2015-2019 IBM Corp.
*/
#include <skiboot.h>
#include <chip.h>
#include <xscom.h>
#include <io.h>
#include <cpu.h>
#include <nx.h>
/* Configuration settings */
#define CFG_SYM_FC_ENABLE (0) /* disable all sym functions */
#define CFG_SYM_ENABLE (0) /* disable sym engines */
#define CFG_ASYM_FC_ENABLE (0) /* disable all asym functions */
#define CFG_ASYM_ENABLE (0) /* disable asym engines */
#define CFG_CRB_IQ_SYM (0) /* don't use any extra input queues */
#define CFG_CRB_IQ_ASYM (0) /* don't use any extra input queues */
#define AES_SHA_MAX_RR (1) /* valid range: 1-8 */
#define AES_SHA_CSB_WR NX_DMA_CSB_WR_PDMA
#define AES_SHA_COMPLETION_MODE NX_DMA_COMPLETION_MODE_PDMA
#define AES_SHA_CPB_WR NX_DMA_CPB_WR_DMA_NOPAD
#define AES_SHA_OUTPUT_DATA_WR NX_DMA_OUTPUT_DATA_WR_DMA
#define AMF_MAX_RR (1) /* valid range: 1-8 */
#define AMF_CSB_WR NX_DMA_CSB_WR_PDMA
#define AMF_COMPLETION_MODE NX_DMA_COMPLETION_MODE_PDMA
#define AMF_CPB_WR (0) /* CPB WR not done with AMF */
#define AMF_OUTPUT_DATA_WR NX_DMA_OUTPUT_DATA_WR_DMA
#define EE_CH7 (0) /* disable engine AMF 3(P8) */
#define EE_CH6 (0) /* disable engine AMF 2(P8) */
#define EE_CH5 (0) /* disable engine AMF 1(P8) */
#define EE_CH4 (0) /* disable engine SYM AMF 0(P8) */
#define EE_CH3 (0) /* disable engine SYM 1 */
#define EE_CH2 (0) /* disable engine SYM 0 */
static int nx_cfg_sym(u32 gcid, u64 xcfg)
{
u64 cfg, ci, ct;
int rc, instance = gcid + 1;
BUILD_ASSERT(MAX_CHIPS < NX_SYM_CFG_CI_MAX);
rc = xscom_read(gcid, xcfg, &cfg);
if (rc) {
prerror("NX%d: ERROR: XSCOM SYM config read failure %d\n",
gcid, rc);
return rc;
}
ct = GETFIELD(NX_SYM_CFG_CT, cfg);
if (!ct)
prlog(PR_INFO, "NX%d: SYM CT set to %u\n", gcid, NX_CT_SYM);
else if (ct == NX_CT_SYM)
prlog(PR_INFO, "NX%d: SYM CT already set to %u\n",
gcid, NX_CT_SYM);
else
prlog(PR_INFO, "NX%d: SYM CT already set to %u, "
"changing to %u\n", gcid, (unsigned int)ct, NX_CT_SYM);
ct = NX_CT_SYM;
cfg = SETFIELD(NX_SYM_CFG_CT, cfg, ct);
/* Coprocessor Instance must be shifted left.
* See hw doc Section 5.5.1.
*/
ci = GETFIELD(NX_SYM_CFG_CI, cfg) >> NX_SYM_CFG_CI_LSHIFT;
if (!ci)
prlog(PR_INFO, "NX%d: SYM CI set to %d\n", gcid, instance);
else if (ci == instance)
prlog(PR_INFO, "NX%d: SYM CI already set to %u\n", gcid,
(unsigned int)ci);
else
prlog(PR_INFO, "NX%d: SYM CI already set to %u, "
"changing to %d\n", gcid, (unsigned int)ci, instance);
ci = instance;
cfg = SETFIELD(NX_SYM_CFG_CI, cfg, ci << NX_SYM_CFG_CI_LSHIFT);
cfg = SETFIELD(NX_SYM_CFG_FC_ENABLE, cfg, CFG_SYM_FC_ENABLE);
cfg = SETFIELD(NX_SYM_CFG_ENABLE, cfg, CFG_SYM_ENABLE);
rc = xscom_write(gcid, xcfg, cfg);
if (rc)
prerror("NX%d: ERROR: SYM CT %u CI %u config failure %d\n",
gcid, (unsigned int)ct, (unsigned int)ci, rc);
else
prlog(PR_DEBUG, "NX%d: SYM Config 0x%016lx\n",
gcid, (unsigned long)cfg);
return rc;
}
static int nx_cfg_asym(u32 gcid, u64 xcfg)
{
u64 cfg, ci, ct;
int rc, instance = gcid + 1;
BUILD_ASSERT(MAX_CHIPS < NX_ASYM_CFG_CI_MAX);
rc = xscom_read(gcid, xcfg, &cfg);
if (rc) {
prerror("NX%d: ERROR: XSCOM ASYM config read failure %d\n",
gcid, rc);
return rc;
}
ct = GETFIELD(NX_ASYM_CFG_CT, cfg);
if (!ct)
prlog(PR_INFO, "NX%d: ASYM CT set to %u\n",
gcid, NX_CT_ASYM);
else if (ct == NX_CT_ASYM)
prlog(PR_INFO, "NX%d: ASYM CT already set to %u\n",
gcid, NX_CT_ASYM);
else
prlog(PR_INFO, "NX%d: ASYM CT already set to %u, "
"changing to %u\n", gcid, (unsigned int)ct, NX_CT_ASYM);
ct = NX_CT_ASYM;
cfg = SETFIELD(NX_ASYM_CFG_CT, cfg, ct);
/* Coprocessor Instance must be shifted left.
* See hw doc Section 5.5.1.
*/
ci = GETFIELD(NX_ASYM_CFG_CI, cfg) >> NX_ASYM_CFG_CI_LSHIFT;
if (!ci)
prlog(PR_INFO, "NX%d: ASYM CI set to %d\n", gcid, instance);
else if (ci == instance)
prlog(PR_INFO, "NX%d: ASYM CI already set to %u\n", gcid,
(unsigned int)ci);
else
prlog(PR_INFO, "NX%d: ASYM CI already set to %u, "
"changing to %d\n", gcid, (unsigned int)ci, instance);
ci = instance;
cfg = SETFIELD(NX_ASYM_CFG_CI, cfg, ci << NX_ASYM_CFG_CI_LSHIFT);
cfg = SETFIELD(NX_ASYM_CFG_FC_ENABLE, cfg, CFG_ASYM_FC_ENABLE);
cfg = SETFIELD(NX_ASYM_CFG_ENABLE, cfg, CFG_ASYM_ENABLE);
rc = xscom_write(gcid, xcfg, cfg);
if (rc)
prerror("NX%d: ERROR: ASYM CT %u CI %u config failure %d\n",
gcid, (unsigned int)ct, (unsigned int)ci, rc);
else
prlog(PR_DEBUG, "NX%d: ASYM Config 0x%016lx\n",
gcid, (unsigned long)cfg);
return rc;
}
static int nx_cfg_dma(u32 gcid, u64 xcfg)
{
u64 cfg;
int rc;
rc = xscom_read(gcid, xcfg, &cfg);
if (rc) {
prerror("NX%d: ERROR: XSCOM DMA config read failure %d\n",
gcid, rc);
return rc;
}
cfg = SETFIELD(NX_DMA_CFG_AES_SHA_MAX_RR, cfg,
AES_SHA_MAX_RR);
cfg = SETFIELD(NX_DMA_CFG_AES_SHA_CSB_WR, cfg,
AES_SHA_CSB_WR);
cfg = SETFIELD(NX_DMA_CFG_AES_SHA_COMPLETION_MODE, cfg,
AES_SHA_COMPLETION_MODE);
cfg = SETFIELD(NX_DMA_CFG_AES_SHA_CPB_WR, cfg,
AES_SHA_CPB_WR);
cfg = SETFIELD(NX_DMA_CFG_AES_SHA_OUTPUT_DATA_WR, cfg,
AES_SHA_OUTPUT_DATA_WR);
cfg = SETFIELD(NX_DMA_CFG_AMF_MAX_RR, cfg,
AMF_MAX_RR);
cfg = SETFIELD(NX_DMA_CFG_AMF_CSB_WR, cfg,
AMF_CSB_WR);
cfg = SETFIELD(NX_DMA_CFG_AMF_COMPLETION_MODE, cfg,
AMF_COMPLETION_MODE);
cfg = SETFIELD(NX_DMA_CFG_AMF_CPB_WR, cfg,
AMF_CPB_WR);
cfg = SETFIELD(NX_DMA_CFG_AMF_OUTPUT_DATA_WR, cfg,
AMF_OUTPUT_DATA_WR);
rc = xscom_write(gcid, xcfg, cfg);
if (rc)
prerror("NX%d: ERROR: DMA config failure %d\n", gcid, rc);
else
prlog(PR_DEBUG, "NX%d: DMA 0x%016lx\n", gcid,
(unsigned long)cfg);
return rc;
}
static int nx_cfg_iq(u32 gcid, u64 xcfg)
{
u64 cfg;
int rc;
rc = xscom_read(gcid, xcfg, &cfg);
if (rc) {
prerror("NX%d: ERROR: XSCOM CRB IQ config read failure %d\n",
gcid, rc);
return rc;
}
cfg = SETFIELD(NX_CRB_IQ_SYM, cfg, CFG_CRB_IQ_SYM);
cfg = SETFIELD(NX_CRB_IQ_ASYM, cfg, CFG_CRB_IQ_ASYM);
rc = xscom_write(gcid, xcfg, cfg);
if (rc)
prerror("NX%d: ERROR: CRB Input Queue failure %d\n", gcid, rc);
else
prlog(PR_DEBUG, "NX%d: CRB Input Queue 0x%016lx\n",
gcid, (unsigned long)cfg);
return rc;
}
static int nx_cfg_ee(u32 gcid, u64 xcfg)
{
u64 cfg;
int rc;
rc = xscom_read(gcid, xcfg, &cfg);
if (rc) {
prerror("NX%d: ERROR: XSCOM EE config read failure %d\n",
gcid, rc);
return rc;
}
cfg = SETFIELD(NX_EE_CFG_CH7, cfg, EE_CH7);
cfg = SETFIELD(NX_EE_CFG_CH6, cfg, EE_CH6);
cfg = SETFIELD(NX_EE_CFG_CH5, cfg, EE_CH5);
cfg = SETFIELD(NX_EE_CFG_CH4, cfg, EE_CH4);
cfg = SETFIELD(NX_EE_CFG_CH3, cfg, EE_CH3);
cfg = SETFIELD(NX_EE_CFG_CH2, cfg, EE_CH2);
rc = xscom_write(gcid, xcfg, cfg);
if (rc)
prerror("NX%d: ERROR: Engine Enable failure %d\n", gcid, rc);
else
prlog(PR_DEBUG, "NX%d: Engine Enable 0x%016lx\n",
gcid, (unsigned long)cfg);
return rc;
}
void nx_create_crypto_node(struct dt_node *node)
{
u32 gcid;
u32 pb_base;
u64 cfg_dma, cfg_sym, cfg_asym, cfg_iq, cfg_ee;
int rc;
gcid = dt_get_chip_id(node);
pb_base = dt_get_address(node, 0, NULL);
prlog(PR_INFO, "NX%d: Crypto at 0x%x\n", gcid, pb_base);
if (dt_node_is_compatible(node, "ibm,power8-nx")) {
cfg_dma = pb_base + NX_P8_DMA_CFG;
cfg_sym = pb_base + NX_P8_SYM_CFG;
cfg_asym = pb_base + NX_P8_ASYM_CFG;
cfg_iq = pb_base + NX_P8_CRB_IQ;
cfg_ee = pb_base + NX_P8_EE_CFG;
} else if (dt_node_is_compatible(node, "ibm,power9-nx")) {
prlog(PR_INFO, "NX%d: POWER9 nx-crypto not yet supported\n",
gcid);
return;
} else {
prerror("NX%d: ERROR: Unknown NX type!\n", gcid);
return;
}
rc = nx_cfg_dma(gcid, cfg_dma);
if (rc)
return;
rc = nx_cfg_sym(gcid, cfg_sym);
if (rc)
return;
rc = nx_cfg_asym(gcid, cfg_asym);
if (rc)
return;
rc = nx_cfg_iq(gcid, cfg_iq);
if (rc)
return;
rc = nx_cfg_ee(gcid, cfg_ee);
if (rc)
return;
prlog(PR_INFO, "NX%d: Crypto Coprocessors Disabled (not supported)\n", gcid);
}
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