/** @file pcie_core.c
 *
 * Contains PCIe related functions that are shared between different driver models (e.g. firmware
 * builds, DHD builds, BMAC builds), in order to avoid code duplication.
 *
 * Copyright (C) 2020, Broadcom.
 *
 *      Unless you and Broadcom execute a separate written software license
 * agreement governing use of this software, this software is licensed to you
 * under the terms of the GNU General Public License version 2 (the "GPL"),
 * available at http://www.broadcom.com/licenses/GPLv2.php, with the
 * following added to such license:
 *
 *      As a special exception, the copyright holders of this software give you
 * permission to link this software with independent modules, and to copy and
 * distribute the resulting executable under terms of your choice, provided that
 * you also meet, for each linked independent module, the terms and conditions of
 * the license of that module.  An independent module is a module which is not
 * derived from this software.  The special exception does not apply to any
 * modifications of the software.
 *
 *
 * <<Broadcom-WL-IPTag/Dual:>>
 */

#include <typedefs.h>
#include <bcmutils.h>
#include <bcmdefs.h>
#include <osl.h>
#include <siutils.h>
#include <hndsoc.h>
#include <sbchipc.h>
#include <pcicfg.h>
#if defined(DONGLEBUILD)
#include <pcieregsoffs.h>
#include <pcicfg.h>
#endif
#include "pcie_core.h"
#include <bcmdevs.h>

/* local prototypes */

/* local variables */

/* function definitions */

#ifdef BCMDRIVER /* this workaround can only be run on the host side since it resets \
	the chip */
#if !defined(DONGLEBUILD) || defined(BCMSTANDALONE_TEST)

/* To avoid build error for dongle standalone test, define CAN_SLEEP if not defined */
#ifndef CAN_SLEEP
#define CAN_SLEEP()	(FALSE)
#endif

#ifndef USEC_PER_MSEC
#define USEC_PER_MSEC	1000
#endif

/**
 * WAR for CRWLPCIEGEN2-163, needed for all the chips at this point.
 * The PCIe core contains a 'snoop bus', that allows the logic in the PCIe core to read and write
 * to the PCIe configuration registers. When chip backplane reset hits, e.g. on driver unload, the
 * pcie snoop out will reset to default values and may get out of sync with pcie config registers.
 * This is causing failures because the LTR enable bit on the snoop bus gets out of sync. Also on
 * the snoop bus are the device power state, MSI info, L1subenable which may potentially cause
 * problems.
 */
/* wd_mask/wd_val is only for chipc_corerev >= 65 */
void pcie_watchdog_reset(osl_t *osh, si_t *sih, uint32 wd_mask, uint32 wd_val)
{
	uint32 val, i, lsc;
	uint16 cfg_offset[] = {PCIECFGREG_STATUS_CMD, PCIECFGREG_PM_CSR,
		PCIECFGREG_MSI_CAP, PCIECFGREG_MSI_ADDR_L,
		PCIECFGREG_MSI_ADDR_H, PCIECFGREG_MSI_DATA,
		PCIECFGREG_LINK_STATUS_CTRL2, PCIECFGREG_RBAR_CTRL,
		PCIECFGREG_PML1_SUB_CTRL1, PCIECFGREG_REG_BAR2_CONFIG,
		PCIECFGREG_REG_BAR3_CONFIG};
	sbpcieregs_t *pcieregs = NULL;
	uint32 origidx = si_coreidx(sih);

#if defined(BCMQT) || defined(BCMFPGA_HW)
	/*
	 * JIRA : SWWLAN-283651, 4397A0 WAR : During insmod avoid existing
	 * PCIE WAR to avoid 'pcie_watchdog_reset'
	 */
	if (BCM4397_CHIP(sih->chip)) {
		return;
	}

	/* To avoid hang on FPGA, donot reset watchdog */
	if (CCREV(sih->ccrev) < 65) {
		si_setcoreidx(sih, origidx);
		return;
	}
#endif
#ifdef BCMFPGA_HW
	if (CCREV(sih->ccrev) < 67) {
		/* To avoid hang on FPGA, donot reset watchdog */
		si_setcoreidx(sih, origidx);
		return;
	}
#endif

	/* Switch to PCIE2 core */
	pcieregs = (sbpcieregs_t *)si_setcore(sih, PCIE2_CORE_ID, 0);
	BCM_REFERENCE(pcieregs);
	ASSERT(pcieregs != NULL);

	/* Disable/restore ASPM Control to protect the watchdog reset */
	W_REG(osh, &pcieregs->configaddr, PCIECFGREG_LINK_STATUS_CTRL);
	lsc = R_REG(osh, &pcieregs->configdata);
	val = lsc & (~PCIE_ASPM_ENAB);
	W_REG(osh, &pcieregs->configdata, val);

	if (CCREV(sih->ccrev) >= 65) {
		si_corereg(sih, SI_CC_IDX, OFFSETOF(chipcregs_t, watchdog), wd_mask, wd_val);
		si_corereg(sih, SI_CC_IDX, OFFSETOF(chipcregs_t, watchdog), WD_COUNTER_MASK, 4);
		CAN_SLEEP() ? OSL_SLEEP(2) : OSL_DELAY(2 * USEC_PER_MSEC); /* 2 ms */
		val = si_corereg(sih, SI_CC_IDX, OFFSETOF(chipcregs_t, intstatus), 0, 0);
		si_corereg(sih, SI_CC_IDX, OFFSETOF(chipcregs_t, intstatus),
			wd_mask, val & wd_mask);
	} else {
		si_corereg_writeonly(sih, SI_CC_IDX, OFFSETOF(chipcregs_t, watchdog), ~0, 4);
		/* Read a config space to make sure the above write gets flushed on PCIe bus */
		val = OSL_PCI_READ_CONFIG(osh, PCI_CFG_VID, sizeof(uint32));
		CAN_SLEEP() ? OSL_SLEEP(100) : OSL_DELAY(100 * USEC_PER_MSEC); /* 100 ms */
	}

	W_REG(osh, &pcieregs->configaddr, PCIECFGREG_LINK_STATUS_CTRL);
	W_REG(osh, &pcieregs->configdata, lsc);

	if (sih->buscorerev <= 13) {
		/* Write configuration registers back to the shadow registers
		 * cause shadow registers are cleared out after watchdog reset.
		 */
		for (i = 0; i < ARRAYSIZE(cfg_offset); i++) {
			W_REG(osh, &pcieregs->configaddr, cfg_offset[i]);
			val = R_REG(osh, &pcieregs->configdata);
			W_REG(osh, &pcieregs->configdata, val);
		}
	}
	si_setcoreidx(sih, origidx);
}

/* CRWLPCIEGEN2-117 pcie_pipe_Iddq should be controlled
 * by the L12 state from MAC to save power by putting the
 * SerDes analog in IDDQ mode
 */
void  pcie_serdes_iddqdisable(osl_t *osh, si_t *sih, sbpcieregs_t *sbpcieregs)
{
	sbpcieregs_t *pcie = NULL;
	uint crwlpciegen2_117_disable = 0;
	uint32 origidx = si_coreidx(sih);

	crwlpciegen2_117_disable = PCIE_PipeIddqDisable0 | PCIE_PipeIddqDisable1;
	/* Switch to PCIE2 core */
	pcie = (sbpcieregs_t *)si_setcore(sih, PCIE2_CORE_ID, 0);
	BCM_REFERENCE(pcie);
	ASSERT(pcie != NULL);

	OR_REG(osh, &sbpcieregs->control,
		crwlpciegen2_117_disable);

	si_setcoreidx(sih, origidx);
}

#define PCIE_PMCR_REFUP_MASK 0x3f0001e0
#define PCIE_PMCR_REFEXT_MASK 0x400000
#define PCIE_PMCR_REFUP_100US 0x38000080
#define PCIE_PMCR_REFEXT_100US 0x400000

/* Set PCIE TRefUp time to 100us */
void pcie_set_trefup_time_100us(si_t *sih)
{
	si_corereg(sih, sih->buscoreidx,
		OFFSETOF(sbpcieregs_t, configaddr), ~0, PCI_PMCR_REFUP);
	si_corereg(sih, sih->buscoreidx,
		OFFSETOF(sbpcieregs_t, configdata), PCIE_PMCR_REFUP_MASK, PCIE_PMCR_REFUP_100US);

	si_corereg(sih, sih->buscoreidx,
		OFFSETOF(sbpcieregs_t, configaddr), ~0, PCI_PMCR_REFUP_EXT);
	si_corereg(sih, sih->buscoreidx,
		OFFSETOF(sbpcieregs_t, configdata), PCIE_PMCR_REFEXT_MASK, PCIE_PMCR_REFEXT_100US);
}

uint32
pcie_cto_to_thresh_default(uint corerev)
{
	return REV_GE_69(corerev) ?
			PCIE_CTO_TO_THRESH_DEFAULT_REV69 : PCIE_CTO_TO_THRESH_DEFAULT;
}

uint32
pcie_corereg(osl_t *osh, volatile void *regs, uint32 offset, uint32 mask, uint32 val)
{
	volatile uint32 *regsva =
		(volatile uint32 *)((volatile char *)regs + PCI_16KB0_PCIREGS_OFFSET + offset);

	if (mask || val) {
		uint32 w = R_REG(osh, regsva);
		w &= ~mask;
		w |= val;
		W_REG(osh, regsva, w);
	}
	return (R_REG(osh, regsva));
}
#endif /* !defined(DONGLEBUILD) || defined(BCMSTANDALONE_TEST) */

#if defined(DONGLEBUILD)
void  pcie_coherent_accenable(osl_t *osh, si_t *sih)
{
	pcieregs_t *pcie = NULL;
	uint32 val;
	uint32 origidx = si_coreidx(sih);

	if ((pcie = si_setcore(sih, PCIE2_CORE_ID, 0)) != NULL) {
		/* PCIe BAR1 coherent access enabled */
		W_REG(osh, PCIE_configindaddr_ALTBASE(pcie, 0), PCIECFGREG_SPROM_CTRL);
		val = R_REG(osh, PCIE_configinddata_ALTBASE(pcie, 0));
		val |= (SPROM_BAR1_COHERENT_ACC_EN | SPROM_BAR2_COHERENT_ACC_EN);
		W_REG(osh, PCIE_configinddata_ALTBASE(pcie, 0), val);
	}

	si_setcoreidx(sih, origidx);
}
#endif /* DONGLEBUILD */
#endif /* BCMDRIVER */