From e5ad79099c13b84ee8af6352fd598e430c3d93b9 Mon Sep 17 00:00:00 2001 From: Aaron Williams Date: Thu, 6 May 2021 12:26:07 +0200 Subject: [PATCH] mips: octeon: Add cvmx-pko3-queue.c Import cvmx-pko3-queue.c from 2013 U-Boot. It will be used by the later added drivers to support networking on the MIPS Octeon II / III platforms. Signed-off-by: Aaron Williams Signed-off-by: Stefan Roese --- arch/mips/mach-octeon/cvmx-pko3-queue.c | 879 ++++++++++++++++++++++++++++++++ 1 file changed, 879 insertions(+) create mode 100644 arch/mips/mach-octeon/cvmx-pko3-queue.c diff --git a/arch/mips/mach-octeon/cvmx-pko3-queue.c b/arch/mips/mach-octeon/cvmx-pko3-queue.c new file mode 100644 index 0000000..e28afdf --- /dev/null +++ b/arch/mips/mach-octeon/cvmx-pko3-queue.c @@ -0,0 +1,879 @@ +// SPDX-License-Identifier: GPL-2.0 +/* + * Copyright (C) 2018-2022 Marvell International Ltd. + */ + +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include + +#include +#include +#include + +#include +#include +#include +#include + +/* Smalles Round-Robin quantum to use +1 */ +#define CVMX_PKO3_RR_QUANTUM_MIN 0x10 + +static int debug; /* 1 for basic, 2 for detailed trace */ + +struct cvmx_pko3_dq { + unsigned dq_count : 6; /* Number of descriptor queues */ + unsigned dq_base : 10; /* Descriptor queue start number */ +#define CVMX_PKO3_SWIZZLE_IPD 0x0 +}; + +/* + * @INTERNAL + * Descriptor Queue to IPD port mapping table. + * + * This pointer is per-core, contains the virtual address + * of a global named block which has 2^12 entries per each + * possible node. + */ +struct cvmx_pko3_dq *__cvmx_pko3_dq_table; + +int cvmx_pko3_get_queue_base(int ipd_port) +{ + struct cvmx_pko3_dq *dq_table; + int ret = -1; + unsigned int i; + struct cvmx_xport xp = cvmx_helper_ipd_port_to_xport(ipd_port); + + /* get per-node table */ + if (cvmx_unlikely(!__cvmx_pko3_dq_table)) + __cvmx_pko3_dq_table_setup(); + + i = CVMX_PKO3_SWIZZLE_IPD ^ xp.port; + + /* get per-node table */ + dq_table = __cvmx_pko3_dq_table + CVMX_PKO3_IPD_NUM_MAX * xp.node; + + if (cvmx_likely(dq_table[i].dq_count > 0)) + ret = xp.node << 10 | dq_table[i].dq_base; + else if (debug) + cvmx_printf("ERROR: %s: no queues for ipd_port=%#x\n", __func__, + ipd_port); + + return ret; +} + +int cvmx_pko3_get_queue_num(int ipd_port) +{ + struct cvmx_pko3_dq *dq_table; + int ret = -1; + unsigned int i; + struct cvmx_xport xp = cvmx_helper_ipd_port_to_xport(ipd_port); + + /* get per-node table */ + if (cvmx_unlikely(!__cvmx_pko3_dq_table)) + __cvmx_pko3_dq_table_setup(); + + i = CVMX_PKO3_SWIZZLE_IPD ^ xp.port; + + /* get per-node table */ + dq_table = __cvmx_pko3_dq_table + CVMX_PKO3_IPD_NUM_MAX * xp.node; + + if (cvmx_likely(dq_table[i].dq_count > 0)) + ret = dq_table[i].dq_count; + else if (debug) + debug("ERROR: %s: no queues for ipd_port=%#x\n", __func__, + ipd_port); + + return ret; +} + +/** + * @INTERNAL + * + * Initialize port/dq table contents + */ +static void __cvmx_pko3_dq_table_init(void *ptr) +{ + unsigned int size = sizeof(struct cvmx_pko3_dq) * + CVMX_PKO3_IPD_NUM_MAX * CVMX_MAX_NODES; + + memset(ptr, 0, size); +} + +/** + * @INTERNAL + * + * Find or allocate global port/dq map table + * which is a named table, contains entries for + * all possible OCI nodes. + * + * The table global pointer is stored in core-local variable + * so that every core will call this function once, on first use. + */ +int __cvmx_pko3_dq_table_setup(void) +{ + void *ptr; + + ptr = cvmx_bootmem_alloc_named_range_once( + /* size */ + sizeof(struct cvmx_pko3_dq) * CVMX_PKO3_IPD_NUM_MAX * + CVMX_MAX_NODES, + /* min_addr, max_addr, align */ + 0ull, 0ull, sizeof(struct cvmx_pko3_dq), + /* name */ + "cvmx_pko3_global_dq_table", __cvmx_pko3_dq_table_init); + + if (debug) + debug("%s: dq_table_ptr=%p\n", __func__, ptr); + + if (!ptr) + return -1; + + __cvmx_pko3_dq_table = ptr; + return 0; +} + +/* + * @INTERNAL + * Register a range of Descriptor Queues with an interface port + * + * This function populates the DQ-to-IPD translation table + * used by the application to retrieve the DQ range (typically ordered + * by priority) for a given IPD-port, which is either a physical port, + * or a channel on a channelized interface (i.e. ILK). + * + * @param xiface is the physical interface number + * @param index is either a physical port on an interface + * or a channel of an ILK interface + * @param dq_base is the first Descriptor Queue number in a consecutive range + * @param dq_count is the number of consecutive Descriptor Queues leading + * the same channel or port. + * + * Only a consecutive range of Descriptor Queues can be associated with any + * given channel/port, and usually they are ordered from most to least + * in terms of scheduling priority. + * + * Note: thus function only populates the node-local translation table. + * NOTE: This function would be cleaner if it had a single ipd_port argument + * + * @returns 0 on success, -1 on failure. + */ +int __cvmx_pko3_ipd_dq_register(int xiface, int index, unsigned int dq_base, + unsigned int dq_count) +{ + struct cvmx_pko3_dq *dq_table; + int ipd_port; + unsigned int i; + struct cvmx_xiface xi = cvmx_helper_xiface_to_node_interface(xiface); + struct cvmx_xport xp; + + if (__cvmx_helper_xiface_is_null(xiface)) { + ipd_port = cvmx_helper_node_to_ipd_port(xi.node, + CVMX_PKO3_IPD_PORT_NULL); + } else { + int p; + + p = cvmx_helper_get_ipd_port(xiface, index); + if (p < 0) { + cvmx_printf("ERROR: %s: xiface %#x has no IPD port\n", + __func__, xiface); + return -1; + } + ipd_port = p; + } + + xp = cvmx_helper_ipd_port_to_xport(ipd_port); + + i = CVMX_PKO3_SWIZZLE_IPD ^ xp.port; + + /* get per-node table */ + if (!__cvmx_pko3_dq_table) + __cvmx_pko3_dq_table_setup(); + + dq_table = __cvmx_pko3_dq_table + CVMX_PKO3_IPD_NUM_MAX * xi.node; + + if (debug) + debug("%s: ipd_port=%#x ix=%#x dq %u cnt %u\n", __func__, + ipd_port, i, dq_base, dq_count); + + /* Check the IPD port has not already been configured */ + if (dq_table[i].dq_count > 0) { + cvmx_printf("%s: ERROR: IPD %#x already registered\n", __func__, + ipd_port); + return -1; + } + + /* Store DQ# range in the queue lookup table */ + dq_table[i].dq_base = dq_base; + dq_table[i].dq_count = dq_count; + + return 0; +} + +/* + * @INTERNAL + * Convert normal CHAN_E (i.e. IPD port) value to compressed channel form + * that is used to populate PKO_LUT. + * + * Note: This code may be model specific. + */ +static int cvmx_pko3_chan_2_xchan(uint16_t ipd_port) +{ + u16 xchan; + u8 off; + static const u8 *xchan_base; + static const u8 xchan_base_cn78xx[16] = { + /* IPD 0x000 */ 0x3c0 >> 4, /* LBK */ + /* IPD 0x100 */ 0x380 >> 4, /* DPI */ + /* IPD 0x200 */ 0xfff >> 4, /* not used */ + /* IPD 0x300 */ 0xfff >> 4, /* not used */ + /* IPD 0x400 */ 0x000 >> 4, /* ILK0 */ + /* IPD 0x500 */ 0x100 >> 4, /* ILK1 */ + /* IPD 0x600 */ 0xfff >> 4, /* not used */ + /* IPD 0x700 */ 0xfff >> 4, /* not used */ + /* IPD 0x800 */ 0x200 >> 4, /* BGX0 */ + /* IPD 0x900 */ 0x240 >> 4, /* BGX1 */ + /* IPD 0xa00 */ 0x280 >> 4, /* BGX2 */ + /* IPD 0xb00 */ 0x2c0 >> 4, /* BGX3 */ + /* IPD 0xc00 */ 0x300 >> 4, /* BGX4 */ + /* IPD 0xd00 */ 0x340 >> 4, /* BGX5 */ + /* IPD 0xe00 */ 0xfff >> 4, /* not used */ + /* IPD 0xf00 */ 0xfff >> 4 /* not used */ + }; + static const u8 xchan_base_cn73xx[16] = { + /* IPD 0x000 */ 0x0c0 >> 4, /* LBK */ + /* IPD 0x100 */ 0x100 >> 4, /* DPI */ + /* IPD 0x200 */ 0xfff >> 4, /* not used */ + /* IPD 0x300 */ 0xfff >> 4, /* not used */ + /* IPD 0x400 */ 0xfff >> 4, /* not used */ + /* IPD 0x500 */ 0xfff >> 4, /* not used */ + /* IPD 0x600 */ 0xfff >> 4, /* not used */ + /* IPD 0x700 */ 0xfff >> 4, /* not used */ + /* IPD 0x800 */ 0x000 >> 4, /* BGX0 */ + /* IPD 0x900 */ 0x040 >> 4, /* BGX1 */ + /* IPD 0xa00 */ 0x080 >> 4, /* BGX2 */ + /* IPD 0xb00 */ 0xfff >> 4, /* not used */ + /* IPD 0xc00 */ 0xfff >> 4, /* not used */ + /* IPD 0xd00 */ 0xfff >> 4, /* not used */ + /* IPD 0xe00 */ 0xfff >> 4, /* not used */ + /* IPD 0xf00 */ 0xfff >> 4 /* not used */ + }; + static const u8 xchan_base_cn75xx[16] = { + /* IPD 0x000 */ 0x040 >> 4, /* LBK */ + /* IPD 0x100 */ 0x080 >> 4, /* DPI */ + /* IPD 0x200 */ 0xeee >> 4, /* SRIO0 noop */ + /* IPD 0x300 */ 0xfff >> 4, /* not used */ + /* IPD 0x400 */ 0xfff >> 4, /* not used */ + /* IPD 0x500 */ 0xfff >> 4, /* not used */ + /* IPD 0x600 */ 0xfff >> 4, /* not used */ + /* IPD 0x700 */ 0xfff >> 4, /* not used */ + /* IPD 0x800 */ 0x000 >> 4, /* BGX0 */ + /* IPD 0x900 */ 0xfff >> 4, /* not used */ + /* IPD 0xa00 */ 0xfff >> 4, /* not used */ + /* IPD 0xb00 */ 0xfff >> 4, /* not used */ + /* IPD 0xc00 */ 0xfff >> 4, /* not used */ + /* IPD 0xd00 */ 0xfff >> 4, /* not used */ + /* IPD 0xe00 */ 0xfff >> 4, /* not used */ + /* IPD 0xf00 */ 0xfff >> 4 /* not used */ + }; + + if (OCTEON_IS_MODEL(OCTEON_CN73XX)) + xchan_base = xchan_base_cn73xx; + if (OCTEON_IS_MODEL(OCTEON_CNF75XX)) + xchan_base = xchan_base_cn75xx; + if (OCTEON_IS_MODEL(OCTEON_CN78XX)) + xchan_base = xchan_base_cn78xx; + + if (!xchan_base) + return -1; + + xchan = ipd_port >> 8; + + /* ILKx, DPI has 8 bits logical channels, others just 6 */ + if (((xchan & 0xfe) == 0x04) || xchan == 0x01) + off = ipd_port & 0xff; + else + off = ipd_port & 0x3f; + + xchan = xchan_base[xchan & 0xf]; + + if (xchan == 0xff) + return -1; /* Invalid IPD_PORT */ + else if (xchan == 0xee) + return -2; /* LUT not used */ + else + return (xchan << 4) | off; +} + +/* + * Map channel number in PKO + * + * @param node is to specify the node to which this configuration is applied. + * @param pq_num specifies the Port Queue (i.e. L1) queue number. + * @param l2_l3_q_num specifies L2/L3 queue number. + * @param channel specifies the channel number to map to the queue. + * + * The channel assignment applies to L2 or L3 Shaper Queues depending + * on the setting of channel credit level. + * + * @return returns none. + */ +void cvmx_pko3_map_channel(unsigned int node, unsigned int pq_num, + unsigned int l2_l3_q_num, uint16_t channel) +{ + union cvmx_pko_l3_l2_sqx_channel sqx_channel; + cvmx_pko_lutx_t lutx; + int xchan; + + sqx_channel.u64 = + csr_rd_node(node, CVMX_PKO_L3_L2_SQX_CHANNEL(l2_l3_q_num)); + + sqx_channel.s.cc_channel = channel; + + csr_wr_node(node, CVMX_PKO_L3_L2_SQX_CHANNEL(l2_l3_q_num), + sqx_channel.u64); + + /* Convert CHAN_E into compressed channel */ + xchan = cvmx_pko3_chan_2_xchan(channel); + + if (debug) + debug("%s: ipd_port=%#x xchan=%#x\n", __func__, channel, xchan); + + if (xchan < 0) { + if (xchan == -1) + cvmx_printf("%s: ERROR: channel %#x not recognized\n", + __func__, channel); + return; + } + + lutx.u64 = 0; + lutx.s.valid = 1; + lutx.s.pq_idx = pq_num; + lutx.s.queue_number = l2_l3_q_num; + + csr_wr_node(node, CVMX_PKO_LUTX(xchan), lutx.u64); + + if (debug) + debug("%s: channel %#x (compressed=%#x) mapped L2/L3 SQ=%u, PQ=%u\n", + __func__, channel, xchan, l2_l3_q_num, pq_num); +} + +/* + * @INTERNAL + * This function configures port queue scheduling and topology parameters + * in hardware. + * + * @param node is to specify the node to which this configuration is applied. + * @param port_queue is the port queue number to be configured. + * @param mac_num is the mac number of the mac that will be tied to this port_queue. + */ +static void cvmx_pko_configure_port_queue(int node, int port_queue, int mac_num) +{ + cvmx_pko_l1_sqx_topology_t pko_l1_topology; + cvmx_pko_l1_sqx_shape_t pko_l1_shape; + cvmx_pko_l1_sqx_link_t pko_l1_link; + + pko_l1_topology.u64 = 0; + pko_l1_topology.s.link = mac_num; + csr_wr_node(node, CVMX_PKO_L1_SQX_TOPOLOGY(port_queue), + pko_l1_topology.u64); + + pko_l1_shape.u64 = 0; + pko_l1_shape.s.link = mac_num; + csr_wr_node(node, CVMX_PKO_L1_SQX_SHAPE(port_queue), pko_l1_shape.u64); + + pko_l1_link.u64 = 0; + pko_l1_link.s.link = mac_num; + csr_wr_node(node, CVMX_PKO_L1_SQX_LINK(port_queue), pko_l1_link.u64); +} + +/* + * @INTERNAL + * This function configures level 2 queues scheduling and topology parameters + * in hardware. + * + * @param node is to specify the node to which this configuration is applied. + * @param queue is the level3 queue number to be configured. + * @param parent_queue is the parent queue at next level for this l3 queue. + * @param prio is this queue's priority in parent's scheduler. + * @param rr_quantum is this queue's round robin quantum value. + * @param child_base is the first child queue number in the static prioriy children. + * @param child_rr_prio is the round robin children priority. + */ +static void cvmx_pko_configure_l2_queue(int node, int queue, int parent_queue, + int prio, int rr_quantum, + int child_base, int child_rr_prio) +{ + cvmx_pko_l2_sqx_schedule_t pko_sq_sched; + cvmx_pko_l2_sqx_topology_t pko_child_topology; + cvmx_pko_l1_sqx_topology_t pko_parent_topology; + + /* parent topology configuration */ + pko_parent_topology.u64 = + csr_rd_node(node, CVMX_PKO_L1_SQX_TOPOLOGY(parent_queue)); + pko_parent_topology.s.prio_anchor = child_base; + pko_parent_topology.s.rr_prio = child_rr_prio; + csr_wr_node(node, CVMX_PKO_L1_SQX_TOPOLOGY(parent_queue), + pko_parent_topology.u64); + + if (debug > 1) + debug("CVMX_PKO_L1_SQX_TOPOLOGY(%u): PRIO_ANCHOR=%u PARENT=%u\n", + parent_queue, pko_parent_topology.s.prio_anchor, + pko_parent_topology.s.link); + + /* scheduler configuration for this sq in the parent queue */ + pko_sq_sched.u64 = 0; + pko_sq_sched.s.prio = prio; + pko_sq_sched.s.rr_quantum = rr_quantum; + csr_wr_node(node, CVMX_PKO_L2_SQX_SCHEDULE(queue), pko_sq_sched.u64); + + /* child topology configuration */ + pko_child_topology.u64 = 0; + pko_child_topology.s.parent = parent_queue; + csr_wr_node(node, CVMX_PKO_L2_SQX_TOPOLOGY(queue), + pko_child_topology.u64); +} + +/* + * @INTERNAL + * This function configures level 3 queues scheduling and topology parameters + * in hardware. + * + * @param node is to specify the node to which this configuration is applied. + * @param queue is the level3 queue number to be configured. + * @param parent_queue is the parent queue at next level for this l3 queue. + * @param prio is this queue's priority in parent's scheduler. + * @param rr_quantum is this queue's round robin quantum value. + * @param child_base is the first child queue number in the static prioriy children. + * @param child_rr_prio is the round robin children priority. + */ +static void cvmx_pko_configure_l3_queue(int node, int queue, int parent_queue, + int prio, int rr_quantum, + int child_base, int child_rr_prio) +{ + cvmx_pko_l3_sqx_schedule_t pko_sq_sched; + cvmx_pko_l3_sqx_topology_t pko_child_topology; + cvmx_pko_l2_sqx_topology_t pko_parent_topology; + + /* parent topology configuration */ + pko_parent_topology.u64 = + csr_rd_node(node, CVMX_PKO_L2_SQX_TOPOLOGY(parent_queue)); + pko_parent_topology.s.prio_anchor = child_base; + pko_parent_topology.s.rr_prio = child_rr_prio; + csr_wr_node(node, CVMX_PKO_L2_SQX_TOPOLOGY(parent_queue), + pko_parent_topology.u64); + + if (debug > 1) + debug("CVMX_PKO_L2_SQX_TOPOLOGY(%u): PRIO_ANCHOR=%u PARENT=%u\n", + parent_queue, pko_parent_topology.s.prio_anchor, + pko_parent_topology.s.parent); + + /* scheduler configuration for this sq in the parent queue */ + pko_sq_sched.u64 = 0; + pko_sq_sched.s.prio = prio; + pko_sq_sched.s.rr_quantum = rr_quantum; + csr_wr_node(node, CVMX_PKO_L3_SQX_SCHEDULE(queue), pko_sq_sched.u64); + + /* child topology configuration */ + pko_child_topology.u64 = 0; + pko_child_topology.s.parent = parent_queue; + csr_wr_node(node, CVMX_PKO_L3_SQX_TOPOLOGY(queue), + pko_child_topology.u64); +} + +/* + * @INTERNAL + * This function configures level 4 queues scheduling and topology parameters + * in hardware. + * + * @param node is to specify the node to which this configuration is applied. + * @param queue is the level4 queue number to be configured. + * @param parent_queue is the parent queue at next level for this l4 queue. + * @param prio is this queue's priority in parent's scheduler. + * @param rr_quantum is this queue's round robin quantum value. + * @param child_base is the first child queue number in the static prioriy children. + * @param child_rr_prio is the round robin children priority. + */ +static void cvmx_pko_configure_l4_queue(int node, int queue, int parent_queue, + int prio, int rr_quantum, + int child_base, int child_rr_prio) +{ + cvmx_pko_l4_sqx_schedule_t pko_sq_sched; + cvmx_pko_l4_sqx_topology_t pko_child_topology; + cvmx_pko_l3_sqx_topology_t pko_parent_topology; + + /* parent topology configuration */ + pko_parent_topology.u64 = + csr_rd_node(node, CVMX_PKO_L3_SQX_TOPOLOGY(parent_queue)); + pko_parent_topology.s.prio_anchor = child_base; + pko_parent_topology.s.rr_prio = child_rr_prio; + csr_wr_node(node, CVMX_PKO_L3_SQX_TOPOLOGY(parent_queue), + pko_parent_topology.u64); + + if (debug > 1) + debug("CVMX_PKO_L3_SQX_TOPOLOGY(%u): PRIO_ANCHOR=%u PARENT=%u\n", + parent_queue, pko_parent_topology.s.prio_anchor, + pko_parent_topology.s.parent); + + /* scheduler configuration for this sq in the parent queue */ + pko_sq_sched.u64 = 0; + pko_sq_sched.s.prio = prio; + pko_sq_sched.s.rr_quantum = rr_quantum; + csr_wr_node(node, CVMX_PKO_L4_SQX_SCHEDULE(queue), pko_sq_sched.u64); + + /* topology configuration */ + pko_child_topology.u64 = 0; + pko_child_topology.s.parent = parent_queue; + csr_wr_node(node, CVMX_PKO_L4_SQX_TOPOLOGY(queue), + pko_child_topology.u64); +} + +/* + * @INTERNAL + * This function configures level 5 queues scheduling and topology parameters + * in hardware. + * + * @param node is to specify the node to which this configuration is applied. + * @param queue is the level5 queue number to be configured. + * @param parent_queue is the parent queue at next level for this l5 queue. + * @param prio is this queue's priority in parent's scheduler. + * @param rr_quantum is this queue's round robin quantum value. + * @param child_base is the first child queue number in the static prioriy children. + * @param child_rr_prio is the round robin children priority. + */ +static void cvmx_pko_configure_l5_queue(int node, int queue, int parent_queue, + int prio, int rr_quantum, + int child_base, int child_rr_prio) +{ + cvmx_pko_l5_sqx_schedule_t pko_sq_sched; + cvmx_pko_l4_sqx_topology_t pko_parent_topology; + cvmx_pko_l5_sqx_topology_t pko_child_topology; + + /* parent topology configuration */ + pko_parent_topology.u64 = + csr_rd_node(node, CVMX_PKO_L4_SQX_TOPOLOGY(parent_queue)); + pko_parent_topology.s.prio_anchor = child_base; + pko_parent_topology.s.rr_prio = child_rr_prio; + csr_wr_node(node, CVMX_PKO_L4_SQX_TOPOLOGY(parent_queue), + pko_parent_topology.u64); + + if (debug > 1) + debug("CVMX_PKO_L4_SQX_TOPOLOGY(%u): PRIO_ANCHOR=%u PARENT=%u\n", + parent_queue, pko_parent_topology.s.prio_anchor, + pko_parent_topology.s.parent); + + /* scheduler configuration for this sq in the parent queue */ + pko_sq_sched.u64 = 0; + pko_sq_sched.s.prio = prio; + pko_sq_sched.s.rr_quantum = rr_quantum; + csr_wr_node(node, CVMX_PKO_L5_SQX_SCHEDULE(queue), pko_sq_sched.u64); + + /* topology configuration */ + pko_child_topology.u64 = 0; + pko_child_topology.s.parent = parent_queue; + csr_wr_node(node, CVMX_PKO_L5_SQX_TOPOLOGY(queue), + pko_child_topology.u64); +} + +/* + * @INTERNAL + * This function configures descriptor queues scheduling and topology parameters + * in hardware. + * + * @param node is to specify the node to which this configuration is applied. + * @param dq is the descriptor queue number to be configured. + * @param parent_queue is the parent queue at next level for this dq. + * @param prio is this queue's priority in parent's scheduler. + * @param rr_quantum is this queue's round robin quantum value. + * @param child_base is the first child queue number in the static prioriy children. + * @param child_rr_prio is the round robin children priority. + */ +static void cvmx_pko_configure_dq(int node, int dq, int parent_queue, int prio, + int rr_quantum, int child_base, + int child_rr_prio) +{ + cvmx_pko_dqx_schedule_t pko_dq_sched; + cvmx_pko_dqx_topology_t pko_dq_topology; + cvmx_pko_l5_sqx_topology_t pko_parent_topology; + cvmx_pko_dqx_wm_ctl_t pko_dq_wm_ctl; + unsigned long long parent_topology_reg; + char lvl; + + if (debug) + debug("%s: dq %u parent %u child_base %u\n", __func__, dq, + parent_queue, child_base); + + if (__cvmx_pko3_sq_lvl_max() == CVMX_PKO_L5_QUEUES) { + parent_topology_reg = CVMX_PKO_L5_SQX_TOPOLOGY(parent_queue); + lvl = 5; + } else if (__cvmx_pko3_sq_lvl_max() == CVMX_PKO_L3_QUEUES) { + parent_topology_reg = CVMX_PKO_L3_SQX_TOPOLOGY(parent_queue); + lvl = 3; + } else { + return; + } + + if (debug) + debug("%s: parent_topology_reg=%#llx\n", __func__, + parent_topology_reg); + + /* parent topology configuration */ + pko_parent_topology.u64 = csr_rd_node(node, parent_topology_reg); + pko_parent_topology.s.prio_anchor = child_base; + pko_parent_topology.s.rr_prio = child_rr_prio; + csr_wr_node(node, parent_topology_reg, pko_parent_topology.u64); + + if (debug > 1) + debug("CVMX_PKO_L%d_SQX_TOPOLOGY(%u): PRIO_ANCHOR=%u PARENT=%u\n", + lvl, parent_queue, pko_parent_topology.s.prio_anchor, + pko_parent_topology.s.parent); + + /* scheduler configuration for this dq in the parent queue */ + pko_dq_sched.u64 = 0; + pko_dq_sched.s.prio = prio; + pko_dq_sched.s.rr_quantum = rr_quantum; + csr_wr_node(node, CVMX_PKO_DQX_SCHEDULE(dq), pko_dq_sched.u64); + + /* topology configuration */ + pko_dq_topology.u64 = 0; + pko_dq_topology.s.parent = parent_queue; + csr_wr_node(node, CVMX_PKO_DQX_TOPOLOGY(dq), pko_dq_topology.u64); + + /* configure for counting packets, not bytes at this level */ + pko_dq_wm_ctl.u64 = 0; + pko_dq_wm_ctl.s.kind = 1; + pko_dq_wm_ctl.s.enable = 0; + csr_wr_node(node, CVMX_PKO_DQX_WM_CTL(dq), pko_dq_wm_ctl.u64); + + if (debug > 1) { + pko_dq_sched.u64 = csr_rd_node(node, CVMX_PKO_DQX_SCHEDULE(dq)); + pko_dq_topology.u64 = + csr_rd_node(node, CVMX_PKO_DQX_TOPOLOGY(dq)); + debug("CVMX_PKO_DQX_TOPOLOGY(%u)PARENT=%u CVMX_PKO_DQX_SCHEDULE(%u) PRIO=%u Q=%u\n", + dq, pko_dq_topology.s.parent, dq, pko_dq_sched.s.prio, + pko_dq_sched.s.rr_quantum); + } +} + +/* + * @INTERNAL + * The following structure selects the Scheduling Queue configuration + * routine for each of the supported levels. + * The initial content of the table will be setup in accordance + * to the specific SoC model and its implemented resources + */ +struct pko3_cfg_tab_s { + /* function pointer for to configure the given level, last=DQ */ + struct { + u8 parent_level; + void (*cfg_sq_func)(int node, int queue, int parent_queue, + int prio, int rr_quantum, int child_base, + int child_rr_prio); + //XXX for debugging exagerated size + } lvl[256]; +}; + +static const struct pko3_cfg_tab_s pko3_cn78xx_cfg = { + { [CVMX_PKO_L2_QUEUES] = { CVMX_PKO_PORT_QUEUES, + cvmx_pko_configure_l2_queue }, + [CVMX_PKO_L3_QUEUES] = { CVMX_PKO_L2_QUEUES, + cvmx_pko_configure_l3_queue }, + [CVMX_PKO_L4_QUEUES] = { CVMX_PKO_L3_QUEUES, + cvmx_pko_configure_l4_queue }, + [CVMX_PKO_L5_QUEUES] = { CVMX_PKO_L4_QUEUES, + cvmx_pko_configure_l5_queue }, + [CVMX_PKO_DESCR_QUEUES] = { CVMX_PKO_L5_QUEUES, + cvmx_pko_configure_dq } } +}; + +static const struct pko3_cfg_tab_s pko3_cn73xx_cfg = { + { [CVMX_PKO_L2_QUEUES] = { CVMX_PKO_PORT_QUEUES, + cvmx_pko_configure_l2_queue }, + [CVMX_PKO_L3_QUEUES] = { CVMX_PKO_L2_QUEUES, + cvmx_pko_configure_l3_queue }, + [CVMX_PKO_DESCR_QUEUES] = { CVMX_PKO_L3_QUEUES, + cvmx_pko_configure_dq } } +}; + +/* + * Configure Port Queue and its children Scheduler Queue + * + * Port Queues (a.k.a L1) are assigned 1-to-1 to MACs. + * L2 Scheduler Queues are used for specifying channels, and thus there + * could be multiple L2 SQs attached to a single L1 PQ, either in a + * fair round-robin scheduling, or with static and/or round-robin priorities. + * + * @param node on which to operate + * @param mac_num is the LMAC number to that is associated with the Port Queue, + * @param pq_num is the number of the L1 PQ attached to the MAC + * + * @returns 0 on success, -1 on failure. + */ +int cvmx_pko3_pq_config(unsigned int node, unsigned int mac_num, + unsigned int pq_num) +{ + char b1[10]; + + if (debug) + debug("%s: MAC%u -> %s\n", __func__, mac_num, + __cvmx_pko3_sq_str(b1, CVMX_PKO_PORT_QUEUES, pq_num)); + + cvmx_pko_configure_port_queue(node, pq_num, mac_num); + + return 0; +} + +/* + * Configure L3 through L5 Scheduler Queues and Descriptor Queues + * + * The Scheduler Queues in Levels 3 to 5 and Descriptor Queues are + * configured one-to-one or many-to-one to a single parent Scheduler + * Queues. The level of the parent SQ is specified in an argument, + * as well as the number of childer to attach to the specific parent. + * The children can have fair round-robin or priority-based scheduling + * when multiple children are assigned a single parent. + * + * @param node on which to operate + * @param child_level is the level of the child queue + * @param parent_queue is the number of the parent Scheduler Queue + * @param child_base is the number of the first child SQ or DQ to assign to + * @param child_count is the number of consecutive children to assign + * @param stat_prio_count is the priority setting for the children L2 SQs + * + * If is -1, the Ln children will have equal Round-Robin + * relationship with eachother. If is 0, all Ln children + * will be arranged in Weighted-Round-Robin, with the first having the most + * precedence. If is between 1 and 8, it indicates how + * many children will have static priority settings (with the first having + * the most precedence), with the remaining Ln children having WRR scheduling. + * + * @returns 0 on success, -1 on failure. + * + * Note: this function supports the configuration of node-local unit. + */ +int cvmx_pko3_sq_config_children(unsigned int node, + enum cvmx_pko3_level_e child_level, + unsigned int parent_queue, + unsigned int child_base, + unsigned int child_count, int stat_prio_count) +{ + enum cvmx_pko3_level_e parent_level; + unsigned int num_elem = 0; + unsigned int rr_quantum, rr_count; + unsigned int child, prio, rr_prio; + const struct pko3_cfg_tab_s *cfg_tbl = NULL; + char b1[10], b2[10]; + + if (OCTEON_IS_MODEL(OCTEON_CN78XX)) { + num_elem = NUM_ELEMENTS(pko3_cn78xx_cfg.lvl); + cfg_tbl = &pko3_cn78xx_cfg; + } + if (OCTEON_IS_MODEL(OCTEON_CN73XX) || OCTEON_IS_MODEL(OCTEON_CNF75XX)) { + num_elem = NUM_ELEMENTS(pko3_cn73xx_cfg.lvl); + cfg_tbl = &pko3_cn73xx_cfg; + } + + if (!cfg_tbl || child_level >= num_elem) { + cvmx_printf("ERROR: %s: model or level %#x invalid\n", __func__, + child_level); + return -1; + } + + parent_level = cfg_tbl->lvl[child_level].parent_level; + + if (!cfg_tbl->lvl[child_level].cfg_sq_func || + cfg_tbl->lvl[child_level].parent_level == 0) { + cvmx_printf("ERROR: %s: queue level %#x invalid\n", __func__, + child_level); + return -1; + } + + /* First static priority is 0 - top precedence */ + prio = 0; + + if (stat_prio_count > (signed int)child_count) + stat_prio_count = child_count; + + /* Valid PRIO field is 0..9, limit maximum static priorities */ + if (stat_prio_count > 9) + stat_prio_count = 9; + + /* Special case of a single child */ + if (child_count == 1) { + rr_count = 0; + rr_prio = 0xF; + /* Special case for Fair-RR */ + } else if (stat_prio_count < 0) { + rr_count = child_count; + rr_prio = 0; + } else { + rr_count = child_count - stat_prio_count; + rr_prio = stat_prio_count; + } + + /* Compute highest RR_QUANTUM */ + if (stat_prio_count > 0) + rr_quantum = CVMX_PKO3_RR_QUANTUM_MIN * rr_count; + else + rr_quantum = CVMX_PKO3_RR_QUANTUM_MIN; + + if (debug) + debug("%s: Parent %s child_base %u rr_pri %u\n", __func__, + __cvmx_pko3_sq_str(b1, parent_level, parent_queue), + child_base, rr_prio); + + /* Parent is configured with child */ + + for (child = child_base; child < (child_base + child_count); child++) { + if (debug) + debug("%s: Child %s of %s prio %u rr_quantum %#x\n", + __func__, + __cvmx_pko3_sq_str(b1, child_level, child), + __cvmx_pko3_sq_str(b2, parent_level, + parent_queue), + prio, rr_quantum); + + cfg_tbl->lvl[child_level].cfg_sq_func(node, child, parent_queue, + prio, rr_quantum, + child_base, rr_prio); + + if (prio < rr_prio) + prio++; + else if (stat_prio_count > 0) + rr_quantum -= CVMX_PKO3_RR_QUANTUM_MIN; + } /* for child */ + + return 0; +} -- 2.7.4