numam-dpdk/drivers/common/cnxk/roc_io.h

/* SPDX-License-Identifier: BSD-3-Clause
 * Copyright(C) 2021 Marvell.
 */

#ifndef _ROC_IO_H_
#define _ROC_IO_H_

#define ROC_LMT_BASE_ID_GET(lmt_addr, lmt_id)                                  \
	do {                                                                   \
		/* 32 Lines per core */                                        \
		lmt_id = plt_lcore_id() << ROC_LMT_LINES_PER_CORE_LOG2;        \
		/* Each line is of 128B */                                     \
		(lmt_addr) += ((uint64_t)lmt_id << ROC_LMT_LINE_SIZE_LOG2);    \
	} while (0)

#define roc_load_pair(val0, val1, addr)                                        \
	({                                                                     \
		asm volatile("ldp %x[x0], %x[x1], [%x[p1]]"                    \
			     : [x0] "=r"(val0), [x1] "=r"(val1)                \
			     : [p1] "r"(addr));                                \
	})

#define roc_store_pair(val0, val1, addr)                                       \
	({                                                                     \
		asm volatile(                                                  \
			"stp %x[x0], %x[x1], [%x[p1], #0]!" ::[x0] "r"(val0),  \
			[x1] "r"(val1), [p1] "r"(addr));                       \
	})

#define roc_prefetch_store_keep(ptr)                                           \
	({ asm volatile("prfm pstl1keep, [%x0]\n" : : "r"(ptr)); })

#if defined(__clang__)
static __plt_always_inline void
roc_atomic128_cas_noreturn(uint64_t swap0, uint64_t swap1, int64_t *ptr)
{
	register uint64_t x0 __asm("x0") = swap0;
	register uint64_t x1 __asm("x1") = swap1;

	asm volatile(PLT_CPU_FEATURE_PREAMBLE
		     "casp %[x0], %[x1], %[x0], %[x1], [%[ptr]]\n"
		     : [x0] "+r"(x0), [x1] "+r"(x1)
		     : [ptr] "r"(ptr)
		     : "memory");
}
#else
static __plt_always_inline void
roc_atomic128_cas_noreturn(uint64_t swap0, uint64_t swap1, uint64_t ptr)
{
	__uint128_t wdata = swap0 | ((__uint128_t)swap1 << 64);

	asm volatile(PLT_CPU_FEATURE_PREAMBLE
		     "casp %[wdata], %H[wdata], %[wdata], %H[wdata], [%[ptr]]\n"
		     : [wdata] "+r"(wdata)
		     : [ptr] "r"(ptr)
		     : "memory");
}
#endif

static __plt_always_inline uint64_t
roc_atomic64_cas(uint64_t compare, uint64_t swap, int64_t *ptr)
{
	asm volatile(PLT_CPU_FEATURE_PREAMBLE
		     "cas %[compare], %[swap], [%[ptr]]\n"
		     : [compare] "+r"(compare)
		     : [swap] "r"(swap), [ptr] "r"(ptr)
		     : "memory");

	return compare;
}

static __plt_always_inline uint64_t
roc_atomic64_add_nosync(int64_t incr, int64_t *ptr)
{
	uint64_t result;

	/* Atomic add with no ordering */
	asm volatile(PLT_CPU_FEATURE_PREAMBLE "ldadd %x[i], %x[r], [%[b]]"
		     : [r] "=r"(result), "+m"(*ptr)
		     : [i] "r"(incr), [b] "r"(ptr)
		     : "memory");
	return result;
}

static __plt_always_inline uint64_t
roc_atomic64_add_sync(int64_t incr, int64_t *ptr)
{
	uint64_t result;

	/* Atomic add with ordering */
	asm volatile(PLT_CPU_FEATURE_PREAMBLE "ldadda %x[i], %x[r], [%[b]]"
		     : [r] "=r"(result), "+m"(*ptr)
		     : [i] "r"(incr), [b] "r"(ptr)
		     : "memory");
	return result;
}

static __plt_always_inline uint64_t
roc_lmt_submit_ldeor(plt_iova_t io_address)
{
	uint64_t result;

	asm volatile(PLT_CPU_FEATURE_PREAMBLE "ldeor xzr, %x[rf], [%[rs]]"
		     : [rf] "=r"(result)
		     : [rs] "r"(io_address));
	return result;
}

static __plt_always_inline uint64_t
roc_lmt_submit_ldeorl(plt_iova_t io_address)
{
	uint64_t result;

	asm volatile(PLT_CPU_FEATURE_PREAMBLE "ldeorl xzr,%x[rf],[%[rs]]"
		     : [rf] "=r"(result)
		     : [rs] "r"(io_address));
	return result;
}

static __plt_always_inline void
roc_lmt_submit_steor(uint64_t data, plt_iova_t io_address)
{
	asm volatile(PLT_CPU_FEATURE_PREAMBLE
		     "steor %x[d], [%[rs]]" ::[d] "r"(data),
		     [rs] "r"(io_address));
}

static __plt_always_inline void
roc_lmt_submit_steorl(uint64_t data, plt_iova_t io_address)
{
	asm volatile(PLT_CPU_FEATURE_PREAMBLE
		     "steorl %x[d], [%[rs]]" ::[d] "r"(data),
		     [rs] "r"(io_address));
}

static __plt_always_inline void
roc_lmt_mov(void *out, const void *in, const uint32_t lmtext)
{
	volatile const __uint128_t *src128 = (const __uint128_t *)in;
	volatile __uint128_t *dst128 = (__uint128_t *)out;

	dst128[0] = src128[0];
	dst128[1] = src128[1];
	/* lmtext receives following value:
	 * 1: NIX_SUBDC_EXT needed i.e. tx vlan case
	 * 2: NIX_SUBDC_EXT + NIX_SUBDC_MEM i.e. tstamp case
	 */
	if (lmtext) {
		dst128[2] = src128[2];
		if (lmtext > 1)
			dst128[3] = src128[3];
	}
}

static __plt_always_inline void
roc_lmt_mov_seg(void *out, const void *in, const uint16_t segdw)
{
	volatile const __uint128_t *src128 = (const __uint128_t *)in;
	volatile __uint128_t *dst128 = (__uint128_t *)out;
	uint8_t i;

	for (i = 0; i < segdw; i++)
		dst128[i] = src128[i];
}

static __plt_always_inline void
roc_lmt_mov_one(void *out, const void *in)
{
	volatile const __uint128_t *src128 = (const __uint128_t *)in;
	volatile __uint128_t *dst128 = (__uint128_t *)out;

	*dst128 = *src128;
}

/* Non volatile version of roc_lmt_mov_seg() */
static __plt_always_inline void
roc_lmt_mov_seg_nv(void *out, const void *in, const uint16_t segdw)
{
	const __uint128_t *src128 = (const __uint128_t *)in;
	__uint128_t *dst128 = (__uint128_t *)out;
	uint8_t i;

	for (i = 0; i < segdw; i++)
		dst128[i] = src128[i];
}

#endif /* _ROC_IO_H_ */
common/cnxk: add model init and IO handling API Add routines for SoC model identification and HW IO handling routines specific to CN9K and CN10K Marvell SoC's. These are based on arm64 ISA and behaviour specific to Marvell SoC's. Signed-off-by: Jerin Jacob <jerinj@marvell.com> Signed-off-by: Srikanth Yalavarthi <syalavarthi@marvell.com> Acked-by: Nithin Dabilpuram <ndabilpuram@marvell.com> 2021-04-06 14:40:55 +00:00			`/* SPDX-License-Identifier: BSD-3-Clause`
			`* Copyright(C) 2021 Marvell.`
			`*/`

			`#ifndef _ROC_IO_H_`
			`#define _ROC_IO_H_`

			`#define ROC_LMT_BASE_ID_GET(lmt_addr, lmt_id) \`
			`do { \`
			`/* 32 Lines per core */ \`
			`lmt_id = plt_lcore_id() << ROC_LMT_LINES_PER_CORE_LOG2; \`
			`/* Each line is of 128B */ \`
			`(lmt_addr) += ((uint64_t)lmt_id << ROC_LMT_LINE_SIZE_LOG2); \`
			`} while (0)`

			`#define roc_load_pair(val0, val1, addr) \`
			`({ \`
			`asm volatile("ldp %x[x0], %x[x1], [%x[p1]]" \`
			`: [x0] "=r"(val0), [x1] "=r"(val1) \`
			`: [p1] "r"(addr)); \`
			`})`

			`#define roc_store_pair(val0, val1, addr) \`
			`({ \`
			`asm volatile( \`
			`"stp %x[x0], %x[x1], [%x[p1], #0]!" ::[x0] "r"(val0), \`
			`[x1] "r"(val1), [p1] "r"(addr)); \`
			`})`

			`#define roc_prefetch_store_keep(ptr) \`
			`({ asm volatile("prfm pstl1keep, [%x0]\n" : : "r"(ptr)); })`

			`#if defined(__clang__)`
			`static __plt_always_inline void`
			`roc_atomic128_cas_noreturn(uint64_t swap0, uint64_t swap1, int64_t *ptr)`
			`{`
			`register uint64_t x0 __asm("x0") = swap0;`
			`register uint64_t x1 __asm("x1") = swap1;`

			`asm volatile(PLT_CPU_FEATURE_PREAMBLE`
			`"casp %[x0], %[x1], %[x0], %[x1], [%[ptr]]\n"`
			`: [x0] "+r"(x0), [x1] "+r"(x1)`
			`: [ptr] "r"(ptr)`
			`: "memory");`
			`}`
			`#else`
			`static __plt_always_inline void`
			`roc_atomic128_cas_noreturn(uint64_t swap0, uint64_t swap1, uint64_t ptr)`
			`{`
			`__uint128_t wdata = swap0 \| ((__uint128_t)swap1 << 64);`

			`asm volatile(PLT_CPU_FEATURE_PREAMBLE`
			`"casp %[wdata], %H[wdata], %[wdata], %H[wdata], [%[ptr]]\n"`
			`: [wdata] "+r"(wdata)`
			`: [ptr] "r"(ptr)`
			`: "memory");`
			`}`
			`#endif`

			`static __plt_always_inline uint64_t`
			`roc_atomic64_cas(uint64_t compare, uint64_t swap, int64_t *ptr)`
			`{`
			`asm volatile(PLT_CPU_FEATURE_PREAMBLE`
			`"cas %[compare], %[swap], [%[ptr]]\n"`
			`: [compare] "+r"(compare)`
			`: [swap] "r"(swap), [ptr] "r"(ptr)`
			`: "memory");`

			`return compare;`
			`}`

			`static __plt_always_inline uint64_t`
			`roc_atomic64_add_nosync(int64_t incr, int64_t *ptr)`
			`{`
			`uint64_t result;`

			`/* Atomic add with no ordering */`
			`asm volatile(PLT_CPU_FEATURE_PREAMBLE "ldadd %x[i], %x[r], [%[b]]"`
			`: [r] "=r"(result), "+m"(*ptr)`
			`: [i] "r"(incr), [b] "r"(ptr)`
			`: "memory");`
			`return result;`
			`}`

			`static __plt_always_inline uint64_t`
			`roc_atomic64_add_sync(int64_t incr, int64_t *ptr)`
			`{`
			`uint64_t result;`

			`/* Atomic add with ordering */`
			`asm volatile(PLT_CPU_FEATURE_PREAMBLE "ldadda %x[i], %x[r], [%[b]]"`
			`: [r] "=r"(result), "+m"(*ptr)`
			`: [i] "r"(incr), [b] "r"(ptr)`
			`: "memory");`
			`return result;`
			`}`

			`static __plt_always_inline uint64_t`
			`roc_lmt_submit_ldeor(plt_iova_t io_address)`
			`{`
			`uint64_t result;`

			`asm volatile(PLT_CPU_FEATURE_PREAMBLE "ldeor xzr, %x[rf], [%[rs]]"`
			`: [rf] "=r"(result)`
			`: [rs] "r"(io_address));`
			`return result;`
			`}`

			`static __plt_always_inline uint64_t`
			`roc_lmt_submit_ldeorl(plt_iova_t io_address)`
			`{`
			`uint64_t result;`

			`asm volatile(PLT_CPU_FEATURE_PREAMBLE "ldeorl xzr,%x[rf],[%[rs]]"`
			`: [rf] "=r"(result)`
			`: [rs] "r"(io_address));`
			`return result;`
			`}`

			`static __plt_always_inline void`
			`roc_lmt_submit_steor(uint64_t data, plt_iova_t io_address)`
			`{`
			`asm volatile(PLT_CPU_FEATURE_PREAMBLE`
			`"steor %x[d], [%[rs]]" ::[d] "r"(data),`
			`[rs] "r"(io_address));`
			`}`

			`static __plt_always_inline void`
			`roc_lmt_submit_steorl(uint64_t data, plt_iova_t io_address)`
			`{`
			`asm volatile(PLT_CPU_FEATURE_PREAMBLE`
			`"steorl %x[d], [%[rs]]" ::[d] "r"(data),`
			`[rs] "r"(io_address));`
			`}`

			`static __plt_always_inline void`
			`roc_lmt_mov(void out, const void in, const uint32_t lmtext)`
			`{`
			`volatile const __uint128_t src128 = (const __uint128_t )in;`
			`volatile __uint128_t dst128 = (__uint128_t )out;`

			`dst128[0] = src128[0];`
			`dst128[1] = src128[1];`
			`/* lmtext receives following value:`
			`* 1: NIX_SUBDC_EXT needed i.e. tx vlan case`
			`* 2: NIX_SUBDC_EXT + NIX_SUBDC_MEM i.e. tstamp case`
			`*/`
			`if (lmtext) {`
			`dst128[2] = src128[2];`
			`if (lmtext > 1)`
			`dst128[3] = src128[3];`
			`}`
			`}`

			`static __plt_always_inline void`
			`roc_lmt_mov_seg(void out, const void in, const uint16_t segdw)`
			`{`
			`volatile const __uint128_t src128 = (const __uint128_t )in;`
			`volatile __uint128_t dst128 = (__uint128_t )out;`
			`uint8_t i;`

			`for (i = 0; i < segdw; i++)`
			`dst128[i] = src128[i];`
			`}`

			`static __plt_always_inline void`
			`roc_lmt_mov_one(void out, const void in)`
			`{`
			`volatile const __uint128_t src128 = (const __uint128_t )in;`
			`volatile __uint128_t dst128 = (__uint128_t )out;`

			`dst128 = src128;`
			`}`

			`/* Non volatile version of roc_lmt_mov_seg() */`
			`static __plt_always_inline void`
			`roc_lmt_mov_seg_nv(void out, const void in, const uint16_t segdw)`
			`{`
			`const __uint128_t src128 = (const __uint128_t )in;`
			`__uint128_t dst128 = (__uint128_t )out;`
			`uint8_t i;`

			`for (i = 0; i < segdw; i++)`
			`dst128[i] = src128[i];`
			`}`

			`#endif /* _ROC_IO_H_ */`