drivers/net/fsl-mc/dpio/qbman_sys.h - u-boot - Git at Google

 /* SPDX-License-Identifier: GPL-2.0+ */
 /*
  * Copyright (C) 2014 Freescale Semiconductor
  */

 /* qbman_sys_decl.h and qbman_sys.h are the two platform-specific files in the
  * driver. They are only included via qbman_private.h, which is itself a
  * platform-independent file and is included by all the other driver source.
  *
  * qbman_sys_decl.h is included prior to all other declarations and logic, and
  * it exists to provide compatibility with any linux interfaces our
  * single-source driver code is dependent on (eg. kmalloc). Ie. this file
  * provides linux compatibility.
  *
  * This qbman_sys.h header, on the other hand, is included *after* any common
  * and platform-neutral declarations and logic in qbman_private.h, and exists to
  * implement any platform-specific logic of the qbman driver itself. Ie. it is
  * *not* to provide linux compatibility.
  */

 /* Trace the 3 different classes of read/write access to QBMan. #undef as
  * required. */
 #undef QBMAN_CCSR_TRACE
 #undef QBMAN_CINH_TRACE
 #undef QBMAN_CENA_TRACE

 /* Temporarily define this to get around the fact that cache enabled mapping is
  * not working right now. Will remove this after uboot could map the cache
  * enabled portal memory.
  */
 #define QBMAN_CINH_ONLY

 static inline void word_copy(void *d, const void *s, unsigned int cnt)
 {
 	uint32_t *dd = d;
 	const uint32_t *ss = s;

 	while (cnt--)
 		*(dd++) = *(ss++);
 }

 /* Currently, the CENA support code expects each 32-bit word to be written in
  * host order, and these are converted to hardware (little-endian) order on
  * command submission. However, 64-bit quantities are must be written (and read)
  * as two 32-bit words with the least-significant word first, irrespective of
  * host endianness. */
 static inline void u64_to_le32_copy(void *d, const uint64_t *s,
 					unsigned int cnt)
 {
 	uint32_t *dd = d;
 	const uint32_t *ss = (const uint32_t *)s;

 	while (cnt--) {
 		/* TBD: the toolchain was choking on the use of 64-bit types up
 		 * until recently so this works entirely with 32-bit variables.
 		 * When 64-bit types become usable again, investigate better
 		 * ways of doing this. */
 #if defined(__BIG_ENDIAN)
 		*(dd++) = ss[1];
 		*(dd++) = ss[0];
 		ss += 2;
 #else
 		*(dd++) = *(ss++);
 		*(dd++) = *(ss++);
 #endif
 	}
 }
 static inline void u64_from_le32_copy(uint64_t *d, const void *s,
 					unsigned int cnt)
 {
 	const uint32_t *ss = s;
 	uint32_t *dd = (uint32_t *)d;

 	while (cnt--) {
 #if defined(__BIG_ENDIAN)
 		dd[1] = *(ss++);
 		dd[0] = *(ss++);
 		dd += 2;
 #else
 		*(dd++) = *(ss++);
 		*(dd++) = *(ss++);
 #endif
 	}
 }

 /* Convert a host-native 32bit value into little endian */
 #if defined(__BIG_ENDIAN)
 static inline uint32_t make_le32(uint32_t val)
 {
 	return ((val & 0xff) << 24) | ((val & 0xff00) << 8) |
 		((val & 0xff0000) >> 8) | ((val & 0xff000000) >> 24);
 }
 #else
 #define make_le32(val) (val)
 #endif
 static inline void make_le32_n(uint32_t *val, unsigned int num)
 {
 	while (num--) {
 		*val = make_le32(*val);
 		val++;
 	}
 }

 	/******************/
 	/* Portal access  */
 	/******************/
 struct qbman_swp_sys {
 	/* On GPP, the sys support for qbman_swp is here. The CENA region isi
 	 * not an mmap() of the real portal registers, but an allocated
 	 * place-holder, because the actual writes/reads to/from the portal are
 	 * marshalled from these allocated areas using QBMan's "MC access
 	 * registers". CINH accesses are atomic so there's no need for a
 	 * place-holder. */
 	void *cena;
 	void __iomem *addr_cena;
 	void __iomem *addr_cinh;
 };

 /* P_OFFSET is (ACCESS_CMD,0,12) - offset within the portal
  * C is (ACCESS_CMD,12,1) - is inhibited? (0==CENA, 1==CINH)
  * SWP_IDX is (ACCESS_CMD,16,10) - Software portal index
  * P is (ACCESS_CMD,28,1) - (0==special portal, 1==any portal)
  * T is (ACCESS_CMD,29,1) - Command type (0==READ, 1==WRITE)
  * E is (ACCESS_CMD,31,1) - Command execute (1 to issue, poll for 0==complete)
  */

 static inline void qbman_cinh_write(struct qbman_swp_sys *s, uint32_t offset,
 				    uint32_t val)
 {
 	__raw_writel(val, s->addr_cinh + offset);
 #ifdef QBMAN_CINH_TRACE
 	pr_info("qbman_cinh_write(%p:0x%03x) 0x%08x\n",
 		s->addr_cinh, offset, val);
 #endif
 }

 static inline uint32_t qbman_cinh_read(struct qbman_swp_sys *s, uint32_t offset)
 {
 	uint32_t reg = __raw_readl(s->addr_cinh + offset);

 #ifdef QBMAN_CINH_TRACE
 	pr_info("qbman_cinh_read(%p:0x%03x) 0x%08x\n",
 		s->addr_cinh, offset, reg);
 #endif
 	return reg;
 }

 static inline void *qbman_cena_write_start(struct qbman_swp_sys *s,
 						uint32_t offset)
 {
 	void *shadow = s->cena + offset;

 #ifdef QBMAN_CENA_TRACE
 	pr_info("qbman_cena_write_start(%p:0x%03x) %p\n",
 		s->addr_cena, offset, shadow);
 #endif
 	BUG_ON(offset & 63);
 	dcbz(shadow);
 	return shadow;
 }

 static inline void qbman_cena_write_complete(struct qbman_swp_sys *s,
 						uint32_t offset, void *cmd)
 {
 	const uint32_t *shadow = cmd;
 	int loop;

 #ifdef QBMAN_CENA_TRACE
 	pr_info("qbman_cena_write_complete(%p:0x%03x) %p\n",
 		s->addr_cena, offset, shadow);
 	hexdump(cmd, 64);
 #endif
 	for (loop = 15; loop >= 0; loop--)
 #ifdef QBMAN_CINH_ONLY
 		__raw_writel(shadow[loop], s->addr_cinh +
 					 offset + loop * 4);
 #else
 		__raw_writel(shadow[loop], s->addr_cena +
 					 offset + loop * 4);
 #endif
 }

 static inline void *qbman_cena_read(struct qbman_swp_sys *s, uint32_t offset)
 {
 	uint32_t *shadow = s->cena + offset;
 	unsigned int loop;

 #ifdef QBMAN_CENA_TRACE
 	pr_info("qbman_cena_read(%p:0x%03x) %p\n",
 		s->addr_cena, offset, shadow);
 #endif

 	for (loop = 0; loop < 16; loop++)
 #ifdef QBMAN_CINH_ONLY
 		shadow[loop] = __raw_readl(s->addr_cinh + offset
 					+ loop * 4);
 #else
 		shadow[loop] = __raw_readl(s->addr_cena + offset
 					+ loop * 4);
 #endif
 #ifdef QBMAN_CENA_TRACE
 	hexdump(shadow, 64);
 #endif
 	return shadow;
 }

 static inline void qbman_cena_invalidate_prefetch(struct qbman_swp_sys *s,
 						  uint32_t offset)
 {
 }

 	/******************/
 	/* Portal support */
 	/******************/

 /* The SWP_CFG portal register is special, in that it is used by the
  * platform-specific code rather than the platform-independent code in
  * qbman_portal.c. So use of it is declared locally here. */
 #define QBMAN_CINH_SWP_CFG   0xd00

 /* For MC portal use, we always configure with
  * DQRR_MF is (SWP_CFG,20,3) - DQRR max fill (<- 0x4)
  * EST is (SWP_CFG,16,3) - EQCR_CI stashing threshold (<- 0x0)
  * RPM is (SWP_CFG,12,2) - RCR production notification mode (<- 0x3)
  * DCM is (SWP_CFG,10,2) - DQRR consumption notification mode (<- 0x2)
  * EPM is (SWP_CFG,8,2) - EQCR production notification mode (<- 0x3)
  * SD is (SWP_CFG,5,1) - memory stashing drop enable (<- FALSE)
  * SP is (SWP_CFG,4,1) - memory stashing priority (<- TRUE)
  * SE is (SWP_CFG,3,1) - memory stashing enable (<- 0x0)
  * DP is (SWP_CFG,2,1) - dequeue stashing priority (<- TRUE)
  * DE is (SWP_CFG,1,1) - dequeue stashing enable (<- 0x0)
  * EP is (SWP_CFG,0,1) - EQCR_CI stashing priority (<- FALSE)
  */
 static inline uint32_t qbman_set_swp_cfg(uint8_t max_fill, uint8_t wn,
 					uint8_t est, uint8_t rpm, uint8_t dcm,
 					uint8_t epm, int sd, int sp, int se,
 					int dp, int de, int ep)
 {
 	uint32_t reg;

 	reg = e32_uint8_t(20, (uint32_t)(3 + (max_fill >> 3)), max_fill) |
 		e32_uint8_t(16, 3, est) | e32_uint8_t(12, 2, rpm) |
 		e32_uint8_t(10, 2, dcm) | e32_uint8_t(8, 2, epm) |
 		e32_int(5, 1, sd) | e32_int(4, 1, sp) | e32_int(3, 1, se) |
 		e32_int(2, 1, dp) | e32_int(1, 1, de) | e32_int(0, 1, ep) |
 		e32_uint8_t(14, 1, wn);
 	return reg;
 }

 static inline int qbman_swp_sys_init(struct qbman_swp_sys *s,
 				     const struct qbman_swp_desc *d,
 				     uint8_t dqrr_size)
 {
 	uint32_t reg;

 	s->addr_cena = d->cena_bar;
 	s->addr_cinh = d->cinh_bar;
 	s->cena = (void *)valloc(CONFIG_SYS_PAGE_SIZE);
 	if (!s->cena) {
 		printf("Could not allocate page for cena shadow\n");
 		return -1;
 	}
 	memset((void *)s->cena, 0x00, CONFIG_SYS_PAGE_SIZE);

 #ifdef QBMAN_CHECKING
 	/* We should never be asked to initialise for a portal that isn't in
 	 * the power-on state. (Ie. don't forget to reset portals when they are
 	 * decommissioned!)
 	 */
 	reg = qbman_cinh_read(s, QBMAN_CINH_SWP_CFG);
 	BUG_ON(reg);
 #endif
 #ifdef QBMAN_CINH_ONLY
 	reg = qbman_set_swp_cfg(dqrr_size, 1, 0, 3, 2, 3, 0, 1, 0, 1, 0, 0);
 #else
 	reg = qbman_set_swp_cfg(dqrr_size, 0, 0, 3, 2, 3, 0, 1, 0, 1, 0, 0);
 #endif
 	qbman_cinh_write(s, QBMAN_CINH_SWP_CFG, reg);
 	reg = qbman_cinh_read(s, QBMAN_CINH_SWP_CFG);
 	if (!reg) {
 		printf("The portal is not enabled!\n");
 		free(s->cena);
 		return -1;
 	}
 	return 0;
 }

 static inline void qbman_swp_sys_finish(struct qbman_swp_sys *s)
 {
 	free((void *)s->cena);
 }
	/* SPDX-License-Identifier: GPL-2.0+ */
	/*
	* Copyright (C) 2014 Freescale Semiconductor
	*/

	/* qbman_sys_decl.h and qbman_sys.h are the two platform-specific files in the
	* driver. They are only included via qbman_private.h, which is itself a
	* platform-independent file and is included by all the other driver source.
	*
	* qbman_sys_decl.h is included prior to all other declarations and logic, and
	* it exists to provide compatibility with any linux interfaces our
	* single-source driver code is dependent on (eg. kmalloc). Ie. this file
	* provides linux compatibility.
	*
	* This qbman_sys.h header, on the other hand, is included after any common
	* and platform-neutral declarations and logic in qbman_private.h, and exists to
	* implement any platform-specific logic of the qbman driver itself. Ie. it is
	* not to provide linux compatibility.
	*/

	/* Trace the 3 different classes of read/write access to QBMan. #undef as
	* required. */
	#undef QBMAN_CCSR_TRACE
	#undef QBMAN_CINH_TRACE
	#undef QBMAN_CENA_TRACE

	/* Temporarily define this to get around the fact that cache enabled mapping is
	* not working right now. Will remove this after uboot could map the cache
	* enabled portal memory.
	*/
	#define QBMAN_CINH_ONLY

	static inline void word_copy(void d, const void s, unsigned int cnt)
	{
	uint32_t *dd = d;
	const uint32_t *ss = s;

	while (cnt--)
	(dd++) = (ss++);
	}

	/* Currently, the CENA support code expects each 32-bit word to be written in
	* host order, and these are converted to hardware (little-endian) order on
	* command submission. However, 64-bit quantities are must be written (and read)
	* as two 32-bit words with the least-significant word first, irrespective of
	* host endianness. */
	static inline void u64_to_le32_copy(void d, const uint64_t s,
	unsigned int cnt)
	{
	uint32_t *dd = d;
	const uint32_t ss = (const uint32_t )s;

	while (cnt--) {
	/* TBD: the toolchain was choking on the use of 64-bit types up
	* until recently so this works entirely with 32-bit variables.
	* When 64-bit types become usable again, investigate better
	* ways of doing this. */
	#if defined(__BIG_ENDIAN)
	*(dd++) = ss[1];
	*(dd++) = ss[0];
	ss += 2;
	#else
	(dd++) = (ss++);
	(dd++) = (ss++);
	#endif
	}
	}
	static inline void u64_from_le32_copy(uint64_t d, const void s,
	unsigned int cnt)
	{
	const uint32_t *ss = s;
	uint32_t dd = (uint32_t )d;

	while (cnt--) {
	#if defined(__BIG_ENDIAN)
	dd[1] = *(ss++);
	dd[0] = *(ss++);
	dd += 2;
	#else
	(dd++) = (ss++);
	(dd++) = (ss++);
	#endif
	}
	}

	/* Convert a host-native 32bit value into little endian */
	#if defined(__BIG_ENDIAN)
	static inline uint32_t make_le32(uint32_t val)
	{
	return ((val & 0xff) << 24) \| ((val & 0xff00) << 8) \|
	((val & 0xff0000) >> 8) \| ((val & 0xff000000) >> 24);
	}
	#else
	#define make_le32(val) (val)
	#endif
	static inline void make_le32_n(uint32_t *val, unsigned int num)
	{
	while (num--) {
	val = make_le32(val);
	val++;
	}
	}

	/******************/
	/* Portal access */
	/******************/
	struct qbman_swp_sys {
	/* On GPP, the sys support for qbman_swp is here. The CENA region isi
	* not an mmap() of the real portal registers, but an allocated
	* place-holder, because the actual writes/reads to/from the portal are
	* marshalled from these allocated areas using QBMan's "MC access
	* registers". CINH accesses are atomic so there's no need for a
	* place-holder. */
	void *cena;
	void __iomem *addr_cena;
	void __iomem *addr_cinh;
	};

	/* P_OFFSET is (ACCESS_CMD,0,12) - offset within the portal
	* C is (ACCESS_CMD,12,1) - is inhibited? (0==CENA, 1==CINH)
	* SWP_IDX is (ACCESS_CMD,16,10) - Software portal index
	* P is (ACCESS_CMD,28,1) - (0==special portal, 1==any portal)
	* T is (ACCESS_CMD,29,1) - Command type (0==READ, 1==WRITE)
	* E is (ACCESS_CMD,31,1) - Command execute (1 to issue, poll for 0==complete)
	*/

	static inline void qbman_cinh_write(struct qbman_swp_sys *s, uint32_t offset,
	uint32_t val)
	{
	__raw_writel(val, s->addr_cinh + offset);
	#ifdef QBMAN_CINH_TRACE
	pr_info("qbman_cinh_write(%p:0x%03x) 0x%08x\n",
	s->addr_cinh, offset, val);
	#endif
	}

	static inline uint32_t qbman_cinh_read(struct qbman_swp_sys *s, uint32_t offset)
	{
	uint32_t reg = __raw_readl(s->addr_cinh + offset);

	#ifdef QBMAN_CINH_TRACE
	pr_info("qbman_cinh_read(%p:0x%03x) 0x%08x\n",
	s->addr_cinh, offset, reg);
	#endif
	return reg;
	}

	static inline void qbman_cena_write_start(struct qbman_swp_sys s,
	uint32_t offset)
	{
	void *shadow = s->cena + offset;

	#ifdef QBMAN_CENA_TRACE
	pr_info("qbman_cena_write_start(%p:0x%03x) %p\n",
	s->addr_cena, offset, shadow);
	#endif
	BUG_ON(offset & 63);
	dcbz(shadow);
	return shadow;
	}

	static inline void qbman_cena_write_complete(struct qbman_swp_sys *s,
	uint32_t offset, void *cmd)
	{
	const uint32_t *shadow = cmd;
	int loop;

	#ifdef QBMAN_CENA_TRACE
	pr_info("qbman_cena_write_complete(%p:0x%03x) %p\n",
	s->addr_cena, offset, shadow);
	hexdump(cmd, 64);
	#endif
	for (loop = 15; loop >= 0; loop--)
	#ifdef QBMAN_CINH_ONLY
	__raw_writel(shadow[loop], s->addr_cinh +
	offset + loop * 4);
	#else
	__raw_writel(shadow[loop], s->addr_cena +
	offset + loop * 4);
	#endif
	}

	static inline void qbman_cena_read(struct qbman_swp_sys s, uint32_t offset)
	{
	uint32_t *shadow = s->cena + offset;
	unsigned int loop;

	#ifdef QBMAN_CENA_TRACE
	pr_info("qbman_cena_read(%p:0x%03x) %p\n",
	s->addr_cena, offset, shadow);
	#endif

	for (loop = 0; loop < 16; loop++)
	#ifdef QBMAN_CINH_ONLY
	shadow[loop] = __raw_readl(s->addr_cinh + offset
	+ loop * 4);
	#else
	shadow[loop] = __raw_readl(s->addr_cena + offset
	+ loop * 4);
	#endif
	#ifdef QBMAN_CENA_TRACE
	hexdump(shadow, 64);
	#endif
	return shadow;
	}

	static inline void qbman_cena_invalidate_prefetch(struct qbman_swp_sys *s,
	uint32_t offset)
	{
	}

	/******************/
	/* Portal support */
	/******************/

	/* The SWP_CFG portal register is special, in that it is used by the
	* platform-specific code rather than the platform-independent code in
	* qbman_portal.c. So use of it is declared locally here. */
	#define QBMAN_CINH_SWP_CFG 0xd00

	/* For MC portal use, we always configure with
	* DQRR_MF is (SWP_CFG,20,3) - DQRR max fill (<- 0x4)
	* EST is (SWP_CFG,16,3) - EQCR_CI stashing threshold (<- 0x0)
	* RPM is (SWP_CFG,12,2) - RCR production notification mode (<- 0x3)
	* DCM is (SWP_CFG,10,2) - DQRR consumption notification mode (<- 0x2)
	* EPM is (SWP_CFG,8,2) - EQCR production notification mode (<- 0x3)
	* SD is (SWP_CFG,5,1) - memory stashing drop enable (<- FALSE)
	* SP is (SWP_CFG,4,1) - memory stashing priority (<- TRUE)
	* SE is (SWP_CFG,3,1) - memory stashing enable (<- 0x0)
	* DP is (SWP_CFG,2,1) - dequeue stashing priority (<- TRUE)
	* DE is (SWP_CFG,1,1) - dequeue stashing enable (<- 0x0)
	* EP is (SWP_CFG,0,1) - EQCR_CI stashing priority (<- FALSE)
	*/
	static inline uint32_t qbman_set_swp_cfg(uint8_t max_fill, uint8_t wn,
	uint8_t est, uint8_t rpm, uint8_t dcm,
	uint8_t epm, int sd, int sp, int se,
	int dp, int de, int ep)
	{
	uint32_t reg;

	reg = e32_uint8_t(20, (uint32_t)(3 + (max_fill >> 3)), max_fill) \|
	e32_uint8_t(16, 3, est) \| e32_uint8_t(12, 2, rpm) \|
	e32_uint8_t(10, 2, dcm) \| e32_uint8_t(8, 2, epm) \|
	e32_int(5, 1, sd) \| e32_int(4, 1, sp) \| e32_int(3, 1, se) \|
	e32_int(2, 1, dp) \| e32_int(1, 1, de) \| e32_int(0, 1, ep) \|
	e32_uint8_t(14, 1, wn);
	return reg;
	}

	static inline int qbman_swp_sys_init(struct qbman_swp_sys *s,
	const struct qbman_swp_desc *d,
	uint8_t dqrr_size)
	{
	uint32_t reg;

	s->addr_cena = d->cena_bar;
	s->addr_cinh = d->cinh_bar;
	s->cena = (void *)valloc(CONFIG_SYS_PAGE_SIZE);
	if (!s->cena) {
	printf("Could not allocate page for cena shadow\n");
	return -1;
	}
	memset((void *)s->cena, 0x00, CONFIG_SYS_PAGE_SIZE);

	#ifdef QBMAN_CHECKING
	/* We should never be asked to initialise for a portal that isn't in
	* the power-on state. (Ie. don't forget to reset portals when they are
	* decommissioned!)
	*/
	reg = qbman_cinh_read(s, QBMAN_CINH_SWP_CFG);
	BUG_ON(reg);
	#endif
	#ifdef QBMAN_CINH_ONLY
	reg = qbman_set_swp_cfg(dqrr_size, 1, 0, 3, 2, 3, 0, 1, 0, 1, 0, 0);
	#else
	reg = qbman_set_swp_cfg(dqrr_size, 0, 0, 3, 2, 3, 0, 1, 0, 1, 0, 0);
	#endif
	qbman_cinh_write(s, QBMAN_CINH_SWP_CFG, reg);
	reg = qbman_cinh_read(s, QBMAN_CINH_SWP_CFG);
	if (!reg) {
	printf("The portal is not enabled!\n");
	free(s->cena);
	return -1;
	}
	return 0;
	}

	static inline void qbman_swp_sys_finish(struct qbman_swp_sys *s)
	{
	free((void *)s->cena);
	}