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freebsd-skq/sys/contrib/octeon-sdk/cvmx-dma-engine.c
jmallett 4948f4b8d5 Import the Cavium Simple Executive from the Cavium Octeon SDK. The Simple 
Executive is a library that can be used by standalone applications and kernels
to abstract access to Octeon SoC and board-specific hardware and facilities.
The FreeBSD port to Octeon will be updated to use this where possible.
2010-07-20 07:19:43 +00:00

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/***********************license start***************
* Copyright (c) 2003-2008 Cavium Networks (support@cavium.com). All rights
* reserved.
*
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
*
* * Neither the name of Cavium Networks nor the names of
* its contributors may be used to endorse or promote products
* derived from this software without specific prior written
* permission.
*
* TO THE MAXIMUM EXTENT PERMITTED BY LAW, THE SOFTWARE IS PROVIDED "AS IS"
* AND WITH ALL FAULTS AND CAVIUM NETWORKS MAKES NO PROMISES, REPRESENTATIONS
* OR WARRANTIES, EITHER EXPRESS, IMPLIED, STATUTORY, OR OTHERWISE, WITH
* RESPECT TO THE SOFTWARE, INCLUDING ITS CONDITION, ITS CONFORMITY TO ANY
* REPRESENTATION OR DESCRIPTION, OR THE EXISTENCE OF ANY LATENT OR PATENT
* DEFECTS, AND CAVIUM SPECIFICALLY DISCLAIMS ALL IMPLIED (IF ANY) WARRANTIES
* OF TITLE, MERCHANTABILITY, NONINFRINGEMENT, FITNESS FOR A PARTICULAR
* PURPOSE, LACK OF VIRUSES, ACCURACY OR COMPLETENESS, QUIET ENJOYMENT, QUIET
* POSSESSION OR CORRESPONDENCE TO DESCRIPTION. THE ENTIRE RISK ARISING OUT
* OF USE OR PERFORMANCE OF THE SOFTWARE LIES WITH YOU.
*
*
* For any questions regarding licensing please contact marketing@caviumnetworks.com
*
***********************license end**************************************/
/**
* @file
*
* Interface to the PCI / PCIe DMA engines. These are only avialable
* on chips with PCI / PCIe.
*
* <hr>$Revision: 41586 $<hr>
*/
#include "executive-config.h"
#include "cvmx-config.h"
#include "cvmx.h"
#include "cvmx-cmd-queue.h"
#include "cvmx-dma-engine.h"
#ifdef CVMX_ENABLE_PKO_FUNCTIONS
/**
* Return the number of DMA engimes supported by this chip
*
* @return Number of DMA engines
*/
int cvmx_dma_engine_get_num(void)
{
if (octeon_has_feature(OCTEON_FEATURE_PCIE))
{
if (OCTEON_IS_MODEL(OCTEON_CN52XX_PASS1_X))
return 4;
else
return 5;
}
else
return 2;
}
/**
* Initialize the DMA engines for use
*
* @return Zero on success, negative on failure
*/
int cvmx_dma_engine_initialize(void)
{
cvmx_npei_dmax_ibuff_saddr_t dmax_ibuff_saddr;
int engine;
for (engine=0; engine < cvmx_dma_engine_get_num(); engine++)
{
cvmx_cmd_queue_result_t result;
result = cvmx_cmd_queue_initialize(CVMX_CMD_QUEUE_DMA(engine),
0, CVMX_FPA_OUTPUT_BUFFER_POOL,
CVMX_FPA_OUTPUT_BUFFER_POOL_SIZE);
if (result != CVMX_CMD_QUEUE_SUCCESS)
return -1;
dmax_ibuff_saddr.u64 = 0;
dmax_ibuff_saddr.s.saddr = cvmx_ptr_to_phys(cvmx_cmd_queue_buffer(CVMX_CMD_QUEUE_DMA(engine))) >> 7;
if (octeon_has_feature(OCTEON_FEATURE_PCIE))
cvmx_write_csr(CVMX_PEXP_NPEI_DMAX_IBUFF_SADDR(engine), dmax_ibuff_saddr.u64);
else
{
if (engine)
cvmx_write_csr(CVMX_NPI_HIGHP_IBUFF_SADDR, dmax_ibuff_saddr.u64);
else
cvmx_write_csr(CVMX_NPI_LOWP_IBUFF_SADDR, dmax_ibuff_saddr.u64);
}
}
if (octeon_has_feature(OCTEON_FEATURE_PCIE))
{
cvmx_npei_dma_control_t dma_control;
dma_control.u64 = 0;
if (cvmx_dma_engine_get_num() >= 5)
dma_control.s.dma4_enb = 1;
dma_control.s.dma3_enb = 1;
dma_control.s.dma2_enb = 1;
dma_control.s.dma1_enb = 1;
dma_control.s.dma0_enb = 1;
dma_control.s.o_mode = 1; /* Pull NS and RO from this register, not the pointers */
//dma_control.s.dwb_denb = 1;
//dma_control.s.dwb_ichk = CVMX_FPA_OUTPUT_BUFFER_POOL_SIZE/128;
dma_control.s.fpa_que = CVMX_FPA_OUTPUT_BUFFER_POOL;
dma_control.s.csize = CVMX_FPA_OUTPUT_BUFFER_POOL_SIZE/8;
cvmx_write_csr(CVMX_PEXP_NPEI_DMA_CONTROL, dma_control.u64);
/* As a workaround for errata PCIE-811 we only allow a single
outstanding DMA read over PCIe at a time. This limits performance,
but works in all cases. If you need higher performance, remove
this code and implement the more complicated workaround documented
in the errata. This only affects CN56XX pass 2.0 chips */
if (OCTEON_IS_MODEL(OCTEON_CN56XX_PASS2_0))
{
cvmx_npei_dma_pcie_req_num_t pcie_req_num;
pcie_req_num.u64 = cvmx_read_csr(CVMX_PEXP_NPEI_DMA_PCIE_REQ_NUM);
pcie_req_num.s.dma_cnt = 1;
cvmx_write_csr(CVMX_PEXP_NPEI_DMA_PCIE_REQ_NUM, pcie_req_num.u64);
}
}
else
{
cvmx_npi_dma_control_t dma_control;
dma_control.u64 = 0;
//dma_control.s.dwb_denb = 1;
//dma_control.s.dwb_ichk = CVMX_FPA_OUTPUT_BUFFER_POOL_SIZE/128;
dma_control.s.o_add1 = 1;
dma_control.s.fpa_que = CVMX_FPA_OUTPUT_BUFFER_POOL;
dma_control.s.hp_enb = 1;
dma_control.s.lp_enb = 1;
dma_control.s.csize = CVMX_FPA_OUTPUT_BUFFER_POOL_SIZE/8;
cvmx_write_csr(CVMX_NPI_DMA_CONTROL, dma_control.u64);
}
return 0;
}
/**
* Shutdown all DMA engines. The engeines must be idle when this
* function is called.
*
* @return Zero on success, negative on failure
*/
int cvmx_dma_engine_shutdown(void)
{
int engine;
for (engine=0; engine < cvmx_dma_engine_get_num(); engine++)
{
if (cvmx_cmd_queue_length(CVMX_CMD_QUEUE_DMA(engine)))
{
cvmx_dprintf("ERROR: cvmx_dma_engine_shutdown: Engine not idle.\n");
return -1;
}
}
if (octeon_has_feature(OCTEON_FEATURE_PCIE))
{
cvmx_npei_dma_control_t dma_control;
dma_control.u64 = cvmx_read_csr(CVMX_PEXP_NPEI_DMA_CONTROL);
if (cvmx_dma_engine_get_num() >= 5)
dma_control.s.dma4_enb = 0;
dma_control.s.dma3_enb = 0;
dma_control.s.dma2_enb = 0;
dma_control.s.dma1_enb = 0;
dma_control.s.dma0_enb = 0;
cvmx_write_csr(CVMX_PEXP_NPEI_DMA_CONTROL, dma_control.u64);
/* Make sure the disable completes */
cvmx_read_csr(CVMX_PEXP_NPEI_DMA_CONTROL);
}
else
{
cvmx_npi_dma_control_t dma_control;
dma_control.u64 = cvmx_read_csr(CVMX_NPI_DMA_CONTROL);
dma_control.s.hp_enb = 0;
dma_control.s.lp_enb = 0;
cvmx_write_csr(CVMX_NPI_DMA_CONTROL, dma_control.u64);
/* Make sure the disable completes */
cvmx_read_csr(CVMX_NPI_DMA_CONTROL);
}
for (engine=0; engine < cvmx_dma_engine_get_num(); engine++)
{
cvmx_cmd_queue_shutdown(CVMX_CMD_QUEUE_DMA(engine));
if (octeon_has_feature(OCTEON_FEATURE_PCIE))
cvmx_write_csr(CVMX_PEXP_NPEI_DMAX_IBUFF_SADDR(engine), 0);
else
{
if (engine)
cvmx_write_csr(CVMX_NPI_HIGHP_IBUFF_SADDR, 0);
else
cvmx_write_csr(CVMX_NPI_LOWP_IBUFF_SADDR, 0);
}
}
return 0;
}
/**
* Submit a series of DMA comamnd to the DMA engines.
*
* @param engine Engine to submit to (0-4)
* @param header Command header
* @param num_buffers
* The number of data pointers
* @param buffers Comamnd data pointers
*
* @return Zero on success, negative on failure
*/
int cvmx_dma_engine_submit(int engine, cvmx_dma_engine_header_t header, int num_buffers, cvmx_dma_engine_buffer_t buffers[])
{
cvmx_cmd_queue_result_t result;
int cmd_count = 1;
uint64_t cmds[num_buffers + 1];
if (OCTEON_IS_MODEL(OCTEON_CN56XX_PASS1_X))
{
/* Check for Errata PCIe-604 */
if ((header.s.nfst > 11) || (header.s.nlst > 11) || (header.s.nfst + header.s.nlst > 15))
{
cvmx_dprintf("DMA engine submit too large\n");
return -1;
}
}
cmds[0] = header.u64;
while (num_buffers--)
{
cmds[cmd_count++] = buffers->u64;
buffers++;
}
/* Due to errata PCIE-13315, it is necessary to have the queue lock while we
ring the doorbell for the DMA engines. This prevents doorbells from
possibly arriving out of order with respect to the command queue
entries */
__cvmx_cmd_queue_lock(CVMX_CMD_QUEUE_DMA(engine), __cvmx_cmd_queue_get_state(CVMX_CMD_QUEUE_DMA(engine)));
result = cvmx_cmd_queue_write(CVMX_CMD_QUEUE_DMA(engine), 0, cmd_count, cmds);
/* This SYNCWS is needed since the command queue didn't do locking, which
normally implies the SYNCWS. This one makes sure the command queue
updates make it to L2 before we ring the doorbell */
CVMX_SYNCWS;
/* A syncw isn't needed here since the command queue did one as part of the queue unlock */
if (cvmx_likely(result == CVMX_CMD_QUEUE_SUCCESS))
{
if (octeon_has_feature(OCTEON_FEATURE_PCIE))
{
/* DMA doorbells are 32bit writes in little endian space. This means we need to xor the address with 4 */
cvmx_write64_uint32(CVMX_PEXP_NPEI_DMAX_DBELL(engine)^4, cmd_count);
}
else
{
if (engine)
cvmx_write_csr(CVMX_NPI_HIGHP_DBELL, cmd_count);
else
cvmx_write_csr(CVMX_NPI_LOWP_DBELL, cmd_count);
}
}
/* Here is the unlock for the above errata workaround */
__cvmx_cmd_queue_unlock(__cvmx_cmd_queue_get_state(CVMX_CMD_QUEUE_DMA(engine)));
return result;
}
/**
* @INTERNAL
* Function used by cvmx_dma_engine_transfer() to build the
* internal address list.
*
* @param buffers Location to store the list
* @param address Address to build list for
* @param size Length of the memory pointed to by address
*
* @return Number of internal pointer chunks created
*/
static inline int __cvmx_dma_engine_build_internal_pointers(cvmx_dma_engine_buffer_t *buffers, uint64_t address, int size)
{
int segments = 0;
while (size)
{
/* Each internal chunk can contain a maximum of 8191 bytes */
int chunk = size;
if (chunk > 8191)
chunk = 8191;
buffers[segments].u64 = 0;
buffers[segments].internal.size = chunk;
buffers[segments].internal.addr = address;
address += chunk;
size -= chunk;
segments++;
}
return segments;
}
/**
* @INTERNAL
* Function used by cvmx_dma_engine_transfer() to build the PCI / PCIe address
* list.
* @param buffers Location to store the list
* @param address Address to build list for
* @param size Length of the memory pointed to by address
*
* @return Number of PCI / PCIe address chunks created. The number of words used
* will be segments + (segments-1)/4 + 1.
*/
static inline int __cvmx_dma_engine_build_external_pointers(cvmx_dma_engine_buffer_t *buffers, uint64_t address, int size)
{
const int MAX_SIZE = 65535;
int segments = 0;
while (size)
{
/* Each block of 4 PCI / PCIe pointers uses one dword for lengths followed by
up to 4 addresses. This then repeats if more data is needed */
buffers[0].u64 = 0;
if (size <= MAX_SIZE)
{
/* Only one more segment needed */
buffers[0].pcie_length.len0 = size;
buffers[1].u64 = address;
segments++;
break;
}
else if (size <= MAX_SIZE * 2)
{
/* Two more segments needed */
buffers[0].pcie_length.len0 = MAX_SIZE;
buffers[0].pcie_length.len1 = size - MAX_SIZE;
buffers[1].u64 = address;
address += MAX_SIZE;
buffers[2].u64 = address;
segments+=2;
break;
}
else if (size <= MAX_SIZE * 3)
{
/* Three more segments needed */
buffers[0].pcie_length.len0 = MAX_SIZE;
buffers[0].pcie_length.len1 = MAX_SIZE;
buffers[0].pcie_length.len2 = size - MAX_SIZE * 2;
buffers[1].u64 = address;
address += MAX_SIZE;
buffers[2].u64 = address;
address += MAX_SIZE;
buffers[3].u64 = address;
segments+=3;
break;
}
else if (size <= MAX_SIZE * 4)
{
/* Four more segments needed */
buffers[0].pcie_length.len0 = MAX_SIZE;
buffers[0].pcie_length.len1 = MAX_SIZE;
buffers[0].pcie_length.len2 = MAX_SIZE;
buffers[0].pcie_length.len3 = size - MAX_SIZE * 3;
buffers[1].u64 = address;
address += MAX_SIZE;
buffers[2].u64 = address;
address += MAX_SIZE;
buffers[3].u64 = address;
address += MAX_SIZE;
buffers[4].u64 = address;
segments+=4;
break;
}
else
{
/* Five or more segments are needed */
buffers[0].pcie_length.len0 = MAX_SIZE;
buffers[0].pcie_length.len1 = MAX_SIZE;
buffers[0].pcie_length.len2 = MAX_SIZE;
buffers[0].pcie_length.len3 = MAX_SIZE;
buffers[1].u64 = address;
address += MAX_SIZE;
buffers[2].u64 = address;
address += MAX_SIZE;
buffers[3].u64 = address;
address += MAX_SIZE;
buffers[4].u64 = address;
address += MAX_SIZE;
size -= MAX_SIZE*4;
buffers += 5;
segments+=4;
}
}
return segments;
}
/**
* Build the first and last pointers based on a DMA engine header
* and submit them to the engine. The purpose of this function is
* to simplify the building of DMA engine commands by automatically
* converting a simple address and size into the apropriate internal
* or PCI / PCIe address list. This function does not support gather lists,
* so you will need to build your own lists in that case.
*
* @param engine Engine to submit to (0-4)
* @param header DMA Command header. Note that the nfst and nlst fields do not
* need to be filled in. All other fields must be set properly.
* @param first_address
* Address to use for the first pointers. In the case of INTERNAL,
* INBOUND, and OUTBOUND this is an Octeon memory address. In the
* case of EXTERNAL, this is the source PCI / PCIe address.
* @param last_address
* Address to use for the last pointers. In the case of EXTERNAL,
* INBOUND, and OUTBOUND this is a PCI / PCIe address. In the
* case of INTERNAL, this is the Octeon memory destination address.
* @param size Size of the transfer to perform.
*
* @return Zero on success, negative on failure
*/
int cvmx_dma_engine_transfer(int engine, cvmx_dma_engine_header_t header,
uint64_t first_address, uint64_t last_address,
int size)
{
cvmx_dma_engine_buffer_t buffers[32];
int words = 0;
switch (header.s.type)
{
case CVMX_DMA_ENGINE_TRANSFER_INTERNAL:
header.s.nfst = __cvmx_dma_engine_build_internal_pointers(buffers, first_address, size);
words += header.s.nfst;
header.s.nlst = __cvmx_dma_engine_build_internal_pointers(buffers + words, last_address, size);
words += header.s.nlst;
break;
case CVMX_DMA_ENGINE_TRANSFER_INBOUND:
case CVMX_DMA_ENGINE_TRANSFER_OUTBOUND:
header.s.nfst = __cvmx_dma_engine_build_internal_pointers(buffers, first_address, size);
words += header.s.nfst;
header.s.nlst = __cvmx_dma_engine_build_external_pointers(buffers + words, last_address, size);
words += header.s.nlst + ((header.s.nlst-1) >> 2) + 1;
break;
case CVMX_DMA_ENGINE_TRANSFER_EXTERNAL:
header.s.nfst = __cvmx_dma_engine_build_external_pointers(buffers, first_address, size);
words += header.s.nfst + ((header.s.nfst-1) >> 2) + 1;
header.s.nlst = __cvmx_dma_engine_build_external_pointers(buffers + words, last_address, size);
words += header.s.nlst + ((header.s.nlst-1) >> 2) + 1;
break;
}
return cvmx_dma_engine_submit(engine, header, words, buffers);
}
#endif
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