/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * nxge_hio.c * * This file manages the virtualization resources for Neptune * devices. That is, it implements a hybrid I/O (HIO) approach in the * Solaris kernel, whereby a guest domain on an LDOMs server may * request & use hardware resources from the service domain. * */ #include #include #include #include #include #include /* * External prototypes */ extern npi_status_t npi_rxdma_dump_rdc_table(npi_handle_t, uint8_t); /* The following function may be found in nxge_main.c */ extern int nxge_m_mmac_remove(void *arg, int slot); extern int nxge_m_mmac_add_g(void *arg, const uint8_t *maddr, int rdctbl, boolean_t usetbl); /* The following function may be found in nxge_[t|r]xdma.c */ extern npi_status_t nxge_txdma_channel_disable(nxge_t *, int); extern nxge_status_t nxge_disable_rxdma_channel(nxge_t *, uint16_t); /* * Local prototypes */ static void nxge_grp_dc_append(nxge_t *, nxge_grp_t *, nxge_hio_dc_t *); static nxge_hio_dc_t *nxge_grp_dc_unlink(nxge_t *, nxge_grp_t *, int); static void nxge_grp_dc_map(nxge_grp_t *group); /* * These functions are used by both service & guest domains to * decide whether they're running in an LDOMs/XEN environment * or not. If so, then the Hybrid I/O (HIO) module is initialized. */ /* * nxge_get_environs * * Figure out if we are in a guest domain or not. * * Arguments: * nxge * * Notes: * * Context: * Any domain */ void nxge_get_environs( nxge_t *nxge) { char *string; /* * In the beginning, assume that we are running sans LDOMs/XEN. */ nxge->environs = SOLARIS_DOMAIN; /* * Are we a hybrid I/O (HIO) guest domain driver? */ if ((ddi_prop_lookup_string(DDI_DEV_T_ANY, nxge->dip, DDI_PROP_DONTPASS | DDI_PROP_NOTPROM, "niutype", &string)) == DDI_PROP_SUCCESS) { if (strcmp(string, "n2niu") == 0) { nxge->environs = SOLARIS_GUEST_DOMAIN; /* So we can allocate properly-aligned memory. */ nxge->niu_type = N2_NIU; NXGE_DEBUG_MSG((nxge, HIO_CTL, "Hybrid IO-capable guest domain")); } ddi_prop_free(string); } } #if !defined(sun4v) /* * nxge_hio_init * * Initialize the HIO module of the NXGE driver. * * Arguments: * nxge * * Notes: * This is the non-hybrid I/O version of this function. * * Context: * Any domain */ int nxge_hio_init(nxge_t *nxge) { nxge_hio_data_t *nhd; int i; nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; if (nhd == NULL) { nhd = KMEM_ZALLOC(sizeof (*nhd), KM_SLEEP); MUTEX_INIT(&nhd->lock, NULL, MUTEX_DRIVER, NULL); nhd->type = NXGE_HIO_TYPE_SERVICE; nxge->nxge_hw_p->hio = (uintptr_t)nhd; } /* * Initialize share and ring group structures. */ for (i = 0; i < NXGE_MAX_TDCS; i++) nxge->tdc_is_shared[i] = B_FALSE; for (i = 0; i < NXGE_MAX_TDC_GROUPS; i++) { nxge->tx_hio_groups[i].ghandle = NULL; nxge->tx_hio_groups[i].nxgep = nxge; nxge->tx_hio_groups[i].type = MAC_RING_TYPE_TX; nxge->tx_hio_groups[i].gindex = 0; nxge->tx_hio_groups[i].sindex = 0; } for (i = 0; i < NXGE_MAX_RDC_GROUPS; i++) { nxge->rx_hio_groups[i].ghandle = NULL; nxge->rx_hio_groups[i].nxgep = nxge; nxge->rx_hio_groups[i].type = MAC_RING_TYPE_RX; nxge->rx_hio_groups[i].gindex = 0; nxge->rx_hio_groups[i].sindex = 0; nxge->rx_hio_groups[i].started = B_FALSE; nxge->rx_hio_groups[i].port_default_grp = B_FALSE; nxge->rx_hio_groups[i].rdctbl = -1; nxge->rx_hio_groups[i].n_mac_addrs = 0; } nhd->hio.ldoms = B_FALSE; return (NXGE_OK); } #endif void nxge_hio_uninit(nxge_t *nxge) { nxge_hio_data_t *nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; ASSERT(nxge->nxge_hw_p->ndevs == 0); if (nhd != NULL) { MUTEX_DESTROY(&nhd->lock); KMEM_FREE(nhd, sizeof (*nhd)); nxge->nxge_hw_p->hio = 0; } } /* * nxge_dci_map * * Map a DMA channel index to a channel number. * * Arguments: * instance The instance number of the driver. * type The type of channel this is: Tx or Rx. * index The index to convert to a channel number * * Notes: * This function is called by nxge_ndd.c:nxge_param_set_port_rdc() * * Context: * Any domain */ int nxge_dci_map( nxge_t *nxge, vpc_type_t type, int index) { nxge_grp_set_t *set; int dc; switch (type) { case VP_BOUND_TX: set = &nxge->tx_set; break; case VP_BOUND_RX: set = &nxge->rx_set; break; } for (dc = 0; dc < NXGE_MAX_TDCS; dc++) { if ((1 << dc) & set->owned.map) { if (index == 0) return (dc); else index--; } } return (-1); } /* * --------------------------------------------------------------------- * These are the general-purpose DMA channel group functions. That is, * these functions are used to manage groups of TDCs or RDCs in an HIO * environment. * * But is also expected that in the future they will be able to manage * Crossbow groups. * --------------------------------------------------------------------- */ /* * nxge_grp_cleanup(p_nxge_t nxge) * * Remove all outstanding groups. * * Arguments: * nxge */ void nxge_grp_cleanup(p_nxge_t nxge) { nxge_grp_set_t *set; int i; MUTEX_ENTER(&nxge->group_lock); /* * Find RX groups that need to be cleaned up. */ set = &nxge->rx_set; for (i = 0; i < NXGE_LOGICAL_GROUP_MAX; i++) { if (set->group[i] != NULL) { KMEM_FREE(set->group[i], sizeof (nxge_grp_t)); set->group[i] = NULL; } } /* * Find TX groups that need to be cleaned up. */ set = &nxge->tx_set; for (i = 0; i < NXGE_LOGICAL_GROUP_MAX; i++) { if (set->group[i] != NULL) { KMEM_FREE(set->group[i], sizeof (nxge_grp_t)); set->group[i] = NULL; } } MUTEX_EXIT(&nxge->group_lock); } /* * nxge_grp_add * * Add a group to an instance of NXGE. * * Arguments: * nxge * type Tx or Rx * * Notes: * * Context: * Any domain */ nxge_grp_t * nxge_grp_add( nxge_t *nxge, nxge_grp_type_t type) { nxge_grp_set_t *set; nxge_grp_t *group; int i; group = KMEM_ZALLOC(sizeof (*group), KM_SLEEP); group->nxge = nxge; MUTEX_ENTER(&nxge->group_lock); switch (type) { case NXGE_TRANSMIT_GROUP: case EXT_TRANSMIT_GROUP: set = &nxge->tx_set; break; default: set = &nxge->rx_set; break; } group->type = type; group->active = B_TRUE; group->sequence = set->sequence++; /* Find an empty slot for this logical group. */ for (i = 0; i < NXGE_LOGICAL_GROUP_MAX; i++) { if (set->group[i] == 0) { group->index = i; set->group[i] = group; NXGE_DC_SET(set->lg.map, i); set->lg.count++; break; } } MUTEX_EXIT(&nxge->group_lock); NXGE_DEBUG_MSG((nxge, HIO_CTL, "nxge_grp_add: %cgroup = %d.%d", type == NXGE_TRANSMIT_GROUP ? 't' : 'r', nxge->mac.portnum, group->sequence)); return (group); } void nxge_grp_remove( nxge_t *nxge, nxge_grp_t *group) /* The group to remove. */ { nxge_grp_set_t *set; vpc_type_t type; MUTEX_ENTER(&nxge->group_lock); switch (group->type) { case NXGE_TRANSMIT_GROUP: case EXT_TRANSMIT_GROUP: set = &nxge->tx_set; break; default: set = &nxge->rx_set; break; } if (set->group[group->index] != group) { MUTEX_EXIT(&nxge->group_lock); return; } set->group[group->index] = 0; NXGE_DC_RESET(set->lg.map, group->index); set->lg.count--; /* While inside the mutex, deactivate . */ group->active = B_FALSE; MUTEX_EXIT(&nxge->group_lock); NXGE_DEBUG_MSG((nxge, HIO_CTL, "nxge_grp_remove(%c.%d.%d) called", group->type == NXGE_TRANSMIT_GROUP ? 't' : 'r', nxge->mac.portnum, group->sequence)); /* Now, remove any DCs which are still active. */ switch (group->type) { default: type = VP_BOUND_TX; break; case NXGE_RECEIVE_GROUP: case EXT_RECEIVE_GROUP: type = VP_BOUND_RX; } while (group->dc) { nxge_grp_dc_remove(nxge, type, group->dc->channel); } KMEM_FREE(group, sizeof (*group)); } /* * nxge_grp_dc_add * * Add a DMA channel to a VR/Group. * * Arguments: * nxge * channel The channel to add. * Notes: * * Context: * Any domain */ /* ARGSUSED */ int nxge_grp_dc_add( nxge_t *nxge, nxge_grp_t *group, /* The group to add to. */ vpc_type_t type, /* Rx or Tx */ int channel) /* A physical/logical channel number */ { nxge_hio_data_t *nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; nxge_hio_dc_t *dc; nxge_grp_set_t *set; nxge_status_t status = NXGE_OK; NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_grp_dc_add")); if (group == 0) return (0); switch (type) { case VP_BOUND_TX: set = &nxge->tx_set; if (channel > NXGE_MAX_TDCS) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_grp_dc_add: TDC = %d", channel)); return (NXGE_ERROR); } break; case VP_BOUND_RX: set = &nxge->rx_set; if (channel > NXGE_MAX_RDCS) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_grp_dc_add: RDC = %d", channel)); return (NXGE_ERROR); } break; default: NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_grp_dc_add: unknown type channel(%d)", channel)); } NXGE_DEBUG_MSG((nxge, HIO_CTL, "nxge_grp_dc_add: %cgroup = %d.%d.%d, channel = %d", type == VP_BOUND_TX ? 't' : 'r', nxge->mac.portnum, group->sequence, group->count, channel)); MUTEX_ENTER(&nxge->group_lock); if (group->active != B_TRUE) { /* We may be in the process of removing this group. */ MUTEX_EXIT(&nxge->group_lock); return (NXGE_ERROR); } MUTEX_EXIT(&nxge->group_lock); if (!(dc = nxge_grp_dc_find(nxge, type, channel))) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_grp_dc_add(%d): DC FIND failed", channel)); return (NXGE_ERROR); } MUTEX_ENTER(&nhd->lock); if (dc->group) { MUTEX_EXIT(&nhd->lock); /* This channel is already in use! */ NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_grp_dc_add(%d): channel already in group", channel)); return (NXGE_ERROR); } dc->next = 0; dc->page = channel; dc->channel = (nxge_channel_t)channel; dc->type = type; if (type == VP_BOUND_RX) { dc->init = nxge_init_rxdma_channel; dc->uninit = nxge_uninit_rxdma_channel; } else { dc->init = nxge_init_txdma_channel; dc->uninit = nxge_uninit_txdma_channel; } dc->group = group; if (isLDOMguest(nxge)) (void) nxge_hio_ldsv_add(nxge, dc); NXGE_DC_SET(set->owned.map, channel); set->owned.count++; MUTEX_EXIT(&nhd->lock); if ((status = (*dc->init)(nxge, channel)) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_grp_dc_add(%d): channel init failed", channel)); MUTEX_ENTER(&nhd->lock); (void) memset(dc, 0, sizeof (*dc)); NXGE_DC_RESET(set->owned.map, channel); set->owned.count--; MUTEX_EXIT(&nhd->lock); return (NXGE_ERROR); } nxge_grp_dc_append(nxge, group, dc); if (type == VP_BOUND_TX) { MUTEX_ENTER(&nhd->lock); nxge->tdc_is_shared[channel] = B_FALSE; MUTEX_EXIT(&nhd->lock); } NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_grp_dc_add")); return ((int)status); } void nxge_grp_dc_remove( nxge_t *nxge, vpc_type_t type, int channel) { nxge_hio_data_t *nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; nxge_hio_dc_t *dc; nxge_grp_set_t *set; nxge_grp_t *group; dc_uninit_t uninit; NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_grp_dc_remove")); if ((dc = nxge_grp_dc_find(nxge, type, channel)) == 0) goto nxge_grp_dc_remove_exit; if ((dc->group == NULL) && (dc->next == 0) && (dc->channel == 0) && (dc->page == 0) && (dc->type == 0)) { goto nxge_grp_dc_remove_exit; } group = (nxge_grp_t *)dc->group; if (isLDOMguest(nxge)) { (void) nxge_hio_intr_remove(nxge, type, channel); } NXGE_DEBUG_MSG((nxge, HIO_CTL, "DC remove: group = %d.%d.%d, %cdc %d", nxge->mac.portnum, group->sequence, group->count, type == VP_BOUND_TX ? 't' : 'r', dc->channel)); MUTEX_ENTER(&nhd->lock); set = dc->type == VP_BOUND_TX ? &nxge->tx_set : &nxge->rx_set; /* Remove the DC from its group. */ if (nxge_grp_dc_unlink(nxge, group, channel) != dc) { MUTEX_EXIT(&nhd->lock); NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_grp_dc_remove(%d) failed", channel)); goto nxge_grp_dc_remove_exit; } uninit = dc->uninit; channel = dc->channel; NXGE_DC_RESET(set->owned.map, channel); set->owned.count--; (void) memset(dc, 0, sizeof (*dc)); MUTEX_EXIT(&nhd->lock); (*uninit)(nxge, channel); nxge_grp_dc_remove_exit: NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_grp_dc_remove")); } nxge_hio_dc_t * nxge_grp_dc_find( nxge_t *nxge, vpc_type_t type, /* Rx or Tx */ int channel) { nxge_hio_data_t *nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; nxge_hio_dc_t *current; current = (type == VP_BOUND_TX) ? &nhd->tdc[0] : &nhd->rdc[0]; if (!isLDOMguest(nxge)) { return (¤t[channel]); } else { /* We're in a guest domain. */ int i, limit = (type == VP_BOUND_TX) ? NXGE_MAX_TDCS : NXGE_MAX_RDCS; MUTEX_ENTER(&nhd->lock); for (i = 0; i < limit; i++, current++) { if (current->channel == channel) { if (current->vr && current->vr->nxge == (uintptr_t)nxge) { MUTEX_EXIT(&nhd->lock); return (current); } } } MUTEX_EXIT(&nhd->lock); } return (0); } /* * nxge_grp_dc_append * * Append a DMA channel to a group. * * Arguments: * nxge * group The group to append to * dc The DMA channel to append * * Notes: * * Context: * Any domain */ static void nxge_grp_dc_append( nxge_t *nxge, nxge_grp_t *group, nxge_hio_dc_t *dc) { MUTEX_ENTER(&nxge->group_lock); if (group->dc == 0) { group->dc = dc; } else { nxge_hio_dc_t *current = group->dc; do { if (current->next == 0) { current->next = dc; break; } current = current->next; } while (current); } NXGE_DC_SET(group->map, dc->channel); nxge_grp_dc_map(group); group->count++; MUTEX_EXIT(&nxge->group_lock); } /* * nxge_grp_dc_unlink * * Unlink a DMA channel fromits linked list (group). * * Arguments: * nxge * group The group (linked list) to unlink from * dc The DMA channel to append * * Notes: * * Context: * Any domain */ nxge_hio_dc_t * nxge_grp_dc_unlink( nxge_t *nxge, nxge_grp_t *group, int channel) { nxge_hio_dc_t *current, *previous; MUTEX_ENTER(&nxge->group_lock); if (group == NULL) { MUTEX_EXIT(&nxge->group_lock); return (0); } if ((current = group->dc) == 0) { MUTEX_EXIT(&nxge->group_lock); return (0); } previous = 0; do { if (current->channel == channel) { if (previous) previous->next = current->next; else group->dc = current->next; break; } previous = current; current = current->next; } while (current); if (current == 0) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "DC unlink: DC %d not found", channel)); } else { current->next = 0; current->group = 0; NXGE_DC_RESET(group->map, channel); group->count--; } nxge_grp_dc_map(group); MUTEX_EXIT(&nxge->group_lock); return (current); } /* * nxge_grp_dc_map * * Map a linked list to an array of channel numbers. * * Arguments: * nxge * group The group to remap. * * Notes: * It is expected that the caller will hold the correct mutex. * * Context: * Service domain */ void nxge_grp_dc_map( nxge_grp_t *group) { nxge_channel_t *legend; nxge_hio_dc_t *dc; (void) memset(group->legend, 0, sizeof (group->legend)); legend = group->legend; dc = group->dc; while (dc) { *legend = dc->channel; legend++; dc = dc->next; } } /* * --------------------------------------------------------------------- * These are HIO debugging functions. * --------------------------------------------------------------------- */ /* * nxge_delay * * Delay number of seconds. * * Arguments: * nxge * group The group to append to * dc The DMA channel to append * * Notes: * This is a developer-only function. * * Context: * Any domain */ void nxge_delay( int seconds) { delay(drv_usectohz(seconds * 1000000)); } static dmc_reg_name_t rx_names[] = { { "RXDMA_CFIG1", 0 }, { "RXDMA_CFIG2", 8 }, { "RBR_CFIG_A", 0x10 }, { "RBR_CFIG_B", 0x18 }, { "RBR_KICK", 0x20 }, { "RBR_STAT", 0x28 }, { "RBR_HDH", 0x30 }, { "RBR_HDL", 0x38 }, { "RCRCFIG_A", 0x40 }, { "RCRCFIG_B", 0x48 }, { "RCRSTAT_A", 0x50 }, { "RCRSTAT_B", 0x58 }, { "RCRSTAT_C", 0x60 }, { "RX_DMA_ENT_MSK", 0x68 }, { "RX_DMA_CTL_STAT", 0x70 }, { "RCR_FLSH", 0x78 }, { "RXMISC", 0x90 }, { "RX_DMA_CTL_STAT_DBG", 0x98 }, { 0, -1 } }; static dmc_reg_name_t tx_names[] = { { "Tx_RNG_CFIG", 0 }, { "Tx_RNG_HDL", 0x10 }, { "Tx_RNG_KICK", 0x18 }, { "Tx_ENT_MASK", 0x20 }, { "Tx_CS", 0x28 }, { "TxDMA_MBH", 0x30 }, { "TxDMA_MBL", 0x38 }, { "TxDMA_PRE_ST", 0x40 }, { "Tx_RNG_ERR_LOGH", 0x48 }, { "Tx_RNG_ERR_LOGL", 0x50 }, { "TDMC_INTR_DBG", 0x60 }, { "Tx_CS_DBG", 0x68 }, { 0, -1 } }; /* * nxge_xx2str * * Translate a register address into a string. * * Arguments: * offset The address of the register to translate. * * Notes: * These are developer-only function. * * Context: * Any domain */ const char * nxge_rx2str( int offset) { dmc_reg_name_t *reg = &rx_names[0]; offset &= DMA_CSR_MASK; while (reg->name) { if (offset == reg->offset) return (reg->name); reg++; } return (0); } const char * nxge_tx2str( int offset) { dmc_reg_name_t *reg = &tx_names[0]; offset &= DMA_CSR_MASK; while (reg->name) { if (offset == reg->offset) return (reg->name); reg++; } return (0); } /* * nxge_ddi_perror * * Map a DDI error number to a string. * * Arguments: * ddi_error The DDI error number to map. * * Notes: * * Context: * Any domain */ const char * nxge_ddi_perror( int ddi_error) { switch (ddi_error) { case DDI_SUCCESS: return ("DDI_SUCCESS"); case DDI_FAILURE: return ("DDI_FAILURE"); case DDI_NOT_WELL_FORMED: return ("DDI_NOT_WELL_FORMED"); case DDI_EAGAIN: return ("DDI_EAGAIN"); case DDI_EINVAL: return ("DDI_EINVAL"); case DDI_ENOTSUP: return ("DDI_ENOTSUP"); case DDI_EPENDING: return ("DDI_EPENDING"); case DDI_ENOMEM: return ("DDI_ENOMEM"); case DDI_EBUSY: return ("DDI_EBUSY"); case DDI_ETRANSPORT: return ("DDI_ETRANSPORT"); case DDI_ECONTEXT: return ("DDI_ECONTEXT"); default: return ("Unknown error"); } } /* * --------------------------------------------------------------------- * These are Sun4v HIO function definitions * --------------------------------------------------------------------- */ #if defined(sun4v) /* * Local prototypes */ static nxge_hio_vr_t *nxge_hio_vr_share(nxge_t *); static void nxge_hio_unshare(nxge_hio_vr_t *); static int nxge_hio_addres(nxge_hio_vr_t *, mac_ring_type_t, uint64_t *); static void nxge_hio_remres(nxge_hio_vr_t *, mac_ring_type_t, res_map_t); static void nxge_hio_tdc_unshare(nxge_t *nxge, int dev_grpid, int channel); static void nxge_hio_rdc_unshare(nxge_t *nxge, int dev_grpid, int channel); static int nxge_hio_dc_share(nxge_t *, nxge_hio_vr_t *, mac_ring_type_t, int); static void nxge_hio_dc_unshare(nxge_t *, nxge_hio_vr_t *, mac_ring_type_t, int); /* * nxge_hio_init * * Initialize the HIO module of the NXGE driver. * * Arguments: * nxge * * Notes: * * Context: * Any domain */ int nxge_hio_init(nxge_t *nxge) { nxge_hio_data_t *nhd; int i, region; nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; if (nhd == 0) { nhd = KMEM_ZALLOC(sizeof (*nhd), KM_SLEEP); MUTEX_INIT(&nhd->lock, NULL, MUTEX_DRIVER, NULL); if (isLDOMguest(nxge)) nhd->type = NXGE_HIO_TYPE_GUEST; else nhd->type = NXGE_HIO_TYPE_SERVICE; nxge->nxge_hw_p->hio = (uintptr_t)nhd; } if ((nxge->environs == SOLARIS_DOMAIN) && (nxge->niu_type == N2_NIU)) { if (nxge->niu_hsvc_available == B_TRUE) { hsvc_info_t *niu_hsvc = &nxge->niu_hsvc; if (niu_hsvc->hsvc_major == 1 && niu_hsvc->hsvc_minor == 1) nxge->environs = SOLARIS_SERVICE_DOMAIN; NXGE_DEBUG_MSG((nxge, HIO_CTL, "nxge_hio_init: hypervisor services " "version %d.%d", niu_hsvc->hsvc_major, niu_hsvc->hsvc_minor)); } } /* * Initialize share and ring group structures. */ for (i = 0; i < NXGE_MAX_TDC_GROUPS; i++) { nxge->tx_hio_groups[i].ghandle = NULL; nxge->tx_hio_groups[i].nxgep = nxge; nxge->tx_hio_groups[i].type = MAC_RING_TYPE_TX; nxge->tx_hio_groups[i].gindex = 0; nxge->tx_hio_groups[i].sindex = 0; } for (i = 0; i < NXGE_MAX_RDC_GROUPS; i++) { nxge->rx_hio_groups[i].ghandle = NULL; nxge->rx_hio_groups[i].nxgep = nxge; nxge->rx_hio_groups[i].type = MAC_RING_TYPE_RX; nxge->rx_hio_groups[i].gindex = 0; nxge->rx_hio_groups[i].sindex = 0; nxge->rx_hio_groups[i].started = B_FALSE; nxge->rx_hio_groups[i].port_default_grp = B_FALSE; nxge->rx_hio_groups[i].rdctbl = -1; nxge->rx_hio_groups[i].n_mac_addrs = 0; } if (!isLDOMs(nxge)) { nhd->hio.ldoms = B_FALSE; return (NXGE_OK); } nhd->hio.ldoms = B_TRUE; /* * Fill in what we can. */ for (region = 0; region < NXGE_VR_SR_MAX; region++) { nhd->vr[region].region = region; } nhd->vrs = NXGE_VR_SR_MAX - 2; /* * Initialize the share stuctures. */ for (i = 0; i < NXGE_MAX_TDCS; i++) nxge->tdc_is_shared[i] = B_FALSE; for (i = 0; i < NXGE_VR_SR_MAX; i++) { nxge->shares[i].nxgep = nxge; nxge->shares[i].index = 0; nxge->shares[i].vrp = NULL; nxge->shares[i].tmap = 0; nxge->shares[i].rmap = 0; nxge->shares[i].rxgroup = 0; nxge->shares[i].active = B_FALSE; } /* Fill in the HV HIO function pointers. */ nxge_hio_hv_init(nxge); if (isLDOMservice(nxge)) { NXGE_DEBUG_MSG((nxge, HIO_CTL, "Hybrid IO-capable service domain")); return (NXGE_OK); } return (0); } #endif /* defined(sun4v) */ static int nxge_hio_group_mac_add(nxge_t *nxge, nxge_ring_group_t *g, const uint8_t *macaddr) { int rv; nxge_rdc_grp_t *group; mutex_enter(nxge->genlock); /* * Initialize the NXGE RDC table data structure. */ group = &nxge->pt_config.rdc_grps[g->rdctbl]; if (!group->flag) { group->port = NXGE_GET_PORT_NUM(nxge->function_num); group->config_method = RDC_TABLE_ENTRY_METHOD_REP; group->flag = B_TRUE; /* This group has been configured. */ } mutex_exit(nxge->genlock); /* * Add the MAC address. */ if ((rv = nxge_m_mmac_add_g((void *)nxge, macaddr, g->rdctbl, B_TRUE)) != 0) { return (rv); } mutex_enter(nxge->genlock); g->n_mac_addrs++; mutex_exit(nxge->genlock); return (0); } static int nxge_hio_set_unicst(void *arg, const uint8_t *macaddr) { p_nxge_t nxgep = (p_nxge_t)arg; struct ether_addr addrp; bcopy(macaddr, (uint8_t *)&addrp, ETHERADDRL); if (nxge_set_mac_addr(nxgep, &addrp)) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "<== nxge_m_unicst: set unitcast failed")); return (EINVAL); } nxgep->primary = B_TRUE; return (0); } /*ARGSUSED*/ static int nxge_hio_clear_unicst(p_nxge_t nxgep, const uint8_t *mac_addr) { nxgep->primary = B_FALSE; return (0); } static int nxge_hio_add_mac(void *arg, const uint8_t *mac_addr) { nxge_ring_group_t *group = (nxge_ring_group_t *)arg; p_nxge_t nxge = group->nxgep; int rv; nxge_hio_vr_t *vr; /* The Virtualization Region */ ASSERT(group->type == MAC_RING_TYPE_RX); ASSERT(group->nxgep != NULL); if (isLDOMguest(group->nxgep)) return (0); mutex_enter(nxge->genlock); if (!nxge->primary && group->port_default_grp) { rv = nxge_hio_set_unicst((void *)nxge, mac_addr); mutex_exit(nxge->genlock); return (rv); } /* * If the group is associated with a VR, then only one * address may be assigned to the group. */ vr = (nxge_hio_vr_t *)nxge->shares[group->sindex].vrp; if ((vr != NULL) && (group->n_mac_addrs)) { mutex_exit(nxge->genlock); return (ENOSPC); } mutex_exit(nxge->genlock); /* * Program the mac address for the group. */ if ((rv = nxge_hio_group_mac_add(nxge, group, mac_addr)) != 0) { return (rv); } return (0); } static int find_mac_slot(nxge_mmac_t *mmac_info, const uint8_t *mac_addr) { int i; for (i = 0; i <= mmac_info->num_mmac; i++) { if (memcmp(mmac_info->mac_pool[i].addr, mac_addr, ETHERADDRL) == 0) { return (i); } } return (-1); } /* ARGSUSED */ static int nxge_hio_rem_mac(void *arg, const uint8_t *mac_addr) { nxge_ring_group_t *group = (nxge_ring_group_t *)arg; struct ether_addr addrp; p_nxge_t nxge = group->nxgep; nxge_mmac_t *mmac_info; int rv, slot; ASSERT(group->type == MAC_RING_TYPE_RX); ASSERT(group->nxgep != NULL); if (isLDOMguest(group->nxgep)) return (0); mutex_enter(nxge->genlock); mmac_info = &nxge->nxge_mmac_info; slot = find_mac_slot(mmac_info, mac_addr); if (slot < 0) { if (group->port_default_grp && nxge->primary) { bcopy(mac_addr, (uint8_t *)&addrp, ETHERADDRL); if (ether_cmp(&addrp, &nxge->ouraddr) == 0) { rv = nxge_hio_clear_unicst(nxge, mac_addr); mutex_exit(nxge->genlock); return (rv); } else { mutex_exit(nxge->genlock); return (EINVAL); } } else { mutex_exit(nxge->genlock); return (EINVAL); } } mutex_exit(nxge->genlock); /* * Remove the mac address for the group */ if ((rv = nxge_m_mmac_remove(nxge, slot)) != 0) { return (rv); } mutex_enter(nxge->genlock); group->n_mac_addrs--; mutex_exit(nxge->genlock); return (0); } static int nxge_hio_group_start(mac_group_driver_t gdriver) { nxge_ring_group_t *group = (nxge_ring_group_t *)gdriver; nxge_rdc_grp_t *rdc_grp_p; int rdctbl; int dev_gindex; ASSERT(group->type == MAC_RING_TYPE_RX); ASSERT(group->nxgep != NULL); ASSERT(group->nxgep->nxge_mac_state == NXGE_MAC_STARTED); if (group->nxgep->nxge_mac_state != NXGE_MAC_STARTED) return (ENXIO); mutex_enter(group->nxgep->genlock); if (isLDOMguest(group->nxgep)) goto nxge_hio_group_start_exit; dev_gindex = group->nxgep->pt_config.hw_config.def_mac_rxdma_grpid + group->gindex; rdc_grp_p = &group->nxgep->pt_config.rdc_grps[dev_gindex]; /* * Get an rdc table for this group. * Group ID is given by the caller, and that's the group it needs * to bind to. The default group is already bound when the driver * was attached. * * For Group 0, it's RDC table was allocated at attach time * no need to allocate a new table. */ if (group->gindex != 0) { rdctbl = nxge_fzc_rdc_tbl_bind(group->nxgep, dev_gindex, B_TRUE); if (rdctbl < 0) { mutex_exit(group->nxgep->genlock); return (rdctbl); } } else { rdctbl = group->nxgep->pt_config.hw_config.def_mac_rxdma_grpid; } group->rdctbl = rdctbl; (void) nxge_init_fzc_rdc_tbl(group->nxgep, rdc_grp_p, rdctbl); nxge_hio_group_start_exit: group->started = B_TRUE; mutex_exit(group->nxgep->genlock); return (0); } static void nxge_hio_group_stop(mac_group_driver_t gdriver) { nxge_ring_group_t *group = (nxge_ring_group_t *)gdriver; ASSERT(group->type == MAC_RING_TYPE_RX); mutex_enter(group->nxgep->genlock); group->started = B_FALSE; if (isLDOMguest(group->nxgep)) goto nxge_hio_group_stop_exit; /* * Unbind the RDC table previously bound for this group. * * Since RDC table for group 0 was allocated at attach * time, no need to unbind the table here. */ if (group->gindex != 0) (void) nxge_fzc_rdc_tbl_unbind(group->nxgep, group->rdctbl); nxge_hio_group_stop_exit: mutex_exit(group->nxgep->genlock); } /* ARGSUSED */ void nxge_hio_group_get(void *arg, mac_ring_type_t type, int groupid, mac_group_info_t *infop, mac_group_handle_t ghdl) { p_nxge_t nxgep = (p_nxge_t)arg; nxge_ring_group_t *group; int dev_gindex; switch (type) { case MAC_RING_TYPE_RX: group = &nxgep->rx_hio_groups[groupid]; group->nxgep = nxgep; group->ghandle = ghdl; group->gindex = groupid; group->sindex = 0; /* not yet bound to a share */ if (!isLDOMguest(nxgep)) { dev_gindex = nxgep->pt_config.hw_config.def_mac_rxdma_grpid + groupid; if (nxgep->pt_config.hw_config.def_mac_rxdma_grpid == dev_gindex) group->port_default_grp = B_TRUE; infop->mgi_count = nxgep->pt_config.rdc_grps[dev_gindex].max_rdcs; } else { infop->mgi_count = NXGE_HIO_SHARE_MAX_CHANNELS; } infop->mgi_driver = (mac_group_driver_t)group; infop->mgi_start = nxge_hio_group_start; infop->mgi_stop = nxge_hio_group_stop; infop->mgi_addmac = nxge_hio_add_mac; infop->mgi_remmac = nxge_hio_rem_mac; break; case MAC_RING_TYPE_TX: /* * 'groupid' for TX should be incremented by one since * the default group (groupid 0) is not known by the MAC layer */ group = &nxgep->tx_hio_groups[groupid + 1]; group->nxgep = nxgep; group->ghandle = ghdl; group->gindex = groupid + 1; group->sindex = 0; /* not yet bound to a share */ infop->mgi_driver = (mac_group_driver_t)group; infop->mgi_start = NULL; infop->mgi_stop = NULL; infop->mgi_addmac = NULL; /* not needed */ infop->mgi_remmac = NULL; /* not needed */ /* no rings associated with group initially */ infop->mgi_count = 0; break; } } #if defined(sun4v) int nxge_hio_share_assign( nxge_t *nxge, uint64_t cookie, res_map_t *tmap, res_map_t *rmap, nxge_hio_vr_t *vr) { nxge_hio_data_t *nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; uint64_t slot, hv_rv; nxge_hio_dc_t *dc; nxhv_vr_fp_t *fp; int i; /* * Ask the Hypervisor to set up the VR for us */ fp = &nhd->hio.vr; if ((hv_rv = (*fp->assign)(vr->region, cookie, &vr->cookie))) { NXGE_ERROR_MSG((nxge, HIO_CTL, "nxge_hio_share_assign: " "vr->assign() returned %d", hv_rv)); return (-EIO); } /* * For each shared TDC, ask the HV to find us an empty slot. * ----------------------------------------------------- */ dc = vr->tx_group.dc; for (i = 0; i < NXGE_MAX_TDCS; i++) { nxhv_dc_fp_t *tx = &nhd->hio.tx; while (dc) { hv_rv = (*tx->assign) (vr->cookie, dc->channel, &slot); if (hv_rv != 0) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_share_assign: " "tx->assign(%x, %d) failed: %ld", vr->cookie, dc->channel, hv_rv)); return (-EIO); } dc->cookie = vr->cookie; dc->page = (vp_channel_t)slot; /* Inform the caller about the slot chosen. */ (*tmap) |= 1 << slot; dc = dc->next; } } /* * For each shared RDC, ask the HV to find us an empty slot. * ----------------------------------------------------- */ dc = vr->rx_group.dc; for (i = 0; i < NXGE_MAX_RDCS; i++) { nxhv_dc_fp_t *rx = &nhd->hio.rx; while (dc) { hv_rv = (*rx->assign) (vr->cookie, dc->channel, &slot); if (hv_rv != 0) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_share_assign: " "rx->assign(%x, %d) failed: %ld", vr->cookie, dc->channel, hv_rv)); return (-EIO); } dc->cookie = vr->cookie; dc->page = (vp_channel_t)slot; /* Inform the caller about the slot chosen. */ (*rmap) |= 1 << slot; dc = dc->next; } } return (0); } void nxge_hio_share_unassign( nxge_hio_vr_t *vr) { nxge_t *nxge = (nxge_t *)vr->nxge; nxge_hio_data_t *nhd; nxge_hio_dc_t *dc; nxhv_vr_fp_t *fp; uint64_t hv_rv; nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; dc = vr->tx_group.dc; while (dc) { nxhv_dc_fp_t *tx = &nhd->hio.tx; hv_rv = (*tx->unassign)(vr->cookie, dc->page); if (hv_rv != 0) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_share_unassign: " "tx->unassign(%x, %d) failed: %ld", vr->cookie, dc->page, hv_rv)); } dc = dc->next; } dc = vr->rx_group.dc; while (dc) { nxhv_dc_fp_t *rx = &nhd->hio.rx; hv_rv = (*rx->unassign)(vr->cookie, dc->page); if (hv_rv != 0) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_share_unassign: " "rx->unassign(%x, %d) failed: %ld", vr->cookie, dc->page, hv_rv)); } dc = dc->next; } fp = &nhd->hio.vr; if (fp->unassign) { hv_rv = (*fp->unassign)(vr->cookie); if (hv_rv != 0) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_share_unassign: " "vr->assign(%x) failed: %ld", vr->cookie, hv_rv)); } } } int nxge_hio_share_alloc(void *arg, mac_share_handle_t *shandle) { p_nxge_t nxge = (p_nxge_t)arg; nxge_share_handle_t *shp; nxge_hio_vr_t *vr; /* The Virtualization Region */ nxge_hio_data_t *nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_hio_share")); if (nhd->hio.vr.assign == 0 || nhd->hio.tx.assign == 0 || nhd->hio.rx.assign == 0) { NXGE_ERROR_MSG((nxge, HIO_CTL, "HV assign function(s) NULL")); return (EIO); } /* * Get a VR. */ if ((vr = nxge_hio_vr_share(nxge)) == 0) return (EAGAIN); shp = &nxge->shares[vr->region]; shp->nxgep = nxge; shp->index = vr->region; shp->vrp = (void *)vr; shp->tmap = shp->rmap = 0; /* to be assigned by ms_sbind */ shp->rxgroup = 0; /* to be assigned by ms_sadd */ shp->active = B_FALSE; /* not bound yet */ *shandle = (mac_share_handle_t)shp; NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_hio_share")); return (0); } void nxge_hio_share_free(mac_share_handle_t shandle) { nxge_share_handle_t *shp = (nxge_share_handle_t *)shandle; nxge_hio_vr_t *vr; /* * Clear internal handle state. */ vr = shp->vrp; shp->vrp = (void *)NULL; shp->index = 0; shp->tmap = 0; shp->rmap = 0; shp->rxgroup = 0; shp->active = B_FALSE; /* * Free VR resource. */ nxge_hio_unshare(vr); } void nxge_hio_share_query(mac_share_handle_t shandle, mac_ring_type_t type, mac_ring_handle_t *rings, uint_t *n_rings) { nxge_t *nxge; nxge_share_handle_t *shp = (nxge_share_handle_t *)shandle; nxge_ring_handle_t *rh; uint32_t offset; nxge = shp->nxgep; switch (type) { case MAC_RING_TYPE_RX: rh = nxge->rx_ring_handles; offset = nxge->pt_config.hw_config.start_rdc; break; case MAC_RING_TYPE_TX: rh = nxge->tx_ring_handles; offset = nxge->pt_config.hw_config.tdc.start; break; } /* * In version 1.0, we may only give a VR 2 RDCs/TDCs. Not only that, * but the HV has statically assigned the channels like so: * VR0: RDC0 & RDC1 * VR1: RDC2 & RDC3, etc. * The TDCs are assigned in exactly the same way. */ if (rings != NULL) { rings[0] = rh[(shp->index * 2) - offset].ring_handle; rings[1] = rh[(shp->index * 2 + 1) - offset].ring_handle; } if (n_rings != NULL) { *n_rings = 2; } } int nxge_hio_share_add_group(mac_share_handle_t shandle, mac_group_driver_t ghandle) { nxge_t *nxge; nxge_share_handle_t *shp = (nxge_share_handle_t *)shandle; nxge_ring_group_t *rg = (nxge_ring_group_t *)ghandle; nxge_hio_vr_t *vr; /* The Virtualization Region */ nxge_grp_t *group; int i; if (rg->sindex != 0) { /* the group is already bound to a share */ return (EALREADY); } /* * If we are adding a group 0 to a share, this * is not correct. */ ASSERT(rg->gindex != 0); nxge = rg->nxgep; vr = shp->vrp; switch (rg->type) { case MAC_RING_TYPE_RX: /* * Make sure that the group has the right rings associated * for the share. In version 1.0, we may only give a VR * 2 RDCs. Not only that, but the HV has statically * assigned the channels like so: * VR0: RDC0 & RDC1 * VR1: RDC2 & RDC3, etc. */ group = nxge->rx_set.group[rg->gindex]; if (group->count > 2) { /* a share can have at most 2 rings */ return (EINVAL); } for (i = 0; i < NXGE_MAX_RDCS; i++) { if (group->map & (1 << i)) { if ((i != shp->index * 2) && (i != (shp->index * 2 + 1))) { /* * A group with invalid rings was * attempted to bind to this share */ return (EINVAL); } } } rg->sindex = vr->region; vr->rdc_tbl = rg->rdctbl; shp->rxgroup = vr->rdc_tbl; break; case MAC_RING_TYPE_TX: /* * Make sure that the group has the right rings associated * for the share. In version 1.0, we may only give a VR * 2 TDCs. Not only that, but the HV has statically * assigned the channels like so: * VR0: TDC0 & TDC1 * VR1: TDC2 & TDC3, etc. */ group = nxge->tx_set.group[rg->gindex]; if (group->count > 2) { /* a share can have at most 2 rings */ return (EINVAL); } for (i = 0; i < NXGE_MAX_TDCS; i++) { if (group->map & (1 << i)) { if ((i != shp->index * 2) && (i != (shp->index * 2 + 1))) { /* * A group with invalid rings was * attempted to bind to this share */ return (EINVAL); } } } vr->tdc_tbl = nxge->pt_config.hw_config.def_mac_txdma_grpid + rg->gindex; rg->sindex = vr->region; break; } return (0); } int nxge_hio_share_rem_group(mac_share_handle_t shandle, mac_group_driver_t ghandle) { nxge_share_handle_t *shp = (nxge_share_handle_t *)shandle; nxge_ring_group_t *group = (nxge_ring_group_t *)ghandle; nxge_hio_vr_t *vr; /* The Virtualization Region */ int rv = 0; vr = shp->vrp; switch (group->type) { case MAC_RING_TYPE_RX: group->sindex = 0; vr->rdc_tbl = 0; shp->rxgroup = 0; break; case MAC_RING_TYPE_TX: group->sindex = 0; vr->tdc_tbl = 0; break; } return (rv); } int nxge_hio_share_bind(mac_share_handle_t shandle, uint64_t cookie, uint64_t *rcookie) { nxge_t *nxge; nxge_share_handle_t *shp = (nxge_share_handle_t *)shandle; nxge_hio_vr_t *vr; uint64_t rmap, tmap, hv_rmap, hv_tmap; int rv; nxge = shp->nxgep; vr = (nxge_hio_vr_t *)shp->vrp; /* * Add resources to the share. * For each DMA channel associated with the VR, bind its resources * to the VR. */ tmap = 0; rv = nxge_hio_addres(vr, MAC_RING_TYPE_TX, &tmap); if (rv != 0) { return (rv); } rmap = 0; rv = nxge_hio_addres(vr, MAC_RING_TYPE_RX, &rmap); if (rv != 0) { nxge_hio_remres(vr, MAC_RING_TYPE_TX, tmap); return (rv); } /* * Ask the Hypervisor to set up the VR and allocate slots for * each rings associated with the VR. */ hv_tmap = hv_rmap = 0; if ((rv = nxge_hio_share_assign(nxge, cookie, &hv_tmap, &hv_rmap, vr))) { nxge_hio_remres(vr, MAC_RING_TYPE_TX, tmap); nxge_hio_remres(vr, MAC_RING_TYPE_RX, rmap); return (rv); } shp->active = B_TRUE; shp->tmap = hv_tmap; shp->rmap = hv_rmap; /* high 32 bits are cfg_hdl and low 32 bits are HV cookie */ *rcookie = (((uint64_t)nxge->niu_cfg_hdl) << 32) | vr->cookie; return (0); } void nxge_hio_share_unbind(mac_share_handle_t shandle) { nxge_share_handle_t *shp = (nxge_share_handle_t *)shandle; /* * First, unassign the VR (take it back), * so we can enable interrupts again. */ nxge_hio_share_unassign(shp->vrp); /* * Free Ring Resources for TX and RX */ nxge_hio_remres(shp->vrp, MAC_RING_TYPE_TX, shp->tmap); nxge_hio_remres(shp->vrp, MAC_RING_TYPE_RX, shp->rmap); } /* * nxge_hio_vr_share * * Find an unused Virtualization Region (VR). * * Arguments: * nxge * * Notes: * * Context: * Service domain */ nxge_hio_vr_t * nxge_hio_vr_share( nxge_t *nxge) { nxge_hio_data_t *nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; nxge_hio_vr_t *vr; int first, limit, region; NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_hio_vr_share")); MUTEX_ENTER(&nhd->lock); if (nhd->vrs == 0) { MUTEX_EXIT(&nhd->lock); return (0); } /* Find an empty virtual region (VR). */ if (nxge->function_num == 0) { // FUNC0_VIR0 'belongs' to NIU port 0. first = FUNC0_VIR1; limit = FUNC2_VIR0; } else if (nxge->function_num == 1) { // FUNC2_VIR0 'belongs' to NIU port 1. first = FUNC2_VIR1; limit = FUNC_VIR_MAX; } else { cmn_err(CE_WARN, "Shares not supported on function(%d) at this time.\n", nxge->function_num); } for (region = first; region < limit; region++) { if (nhd->vr[region].nxge == 0) break; } if (region == limit) { MUTEX_EXIT(&nhd->lock); return (0); } vr = &nhd->vr[region]; vr->nxge = (uintptr_t)nxge; vr->region = (uintptr_t)region; nhd->vrs--; MUTEX_EXIT(&nhd->lock); NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_hio_vr_share")); return (vr); } void nxge_hio_unshare( nxge_hio_vr_t *vr) { nxge_t *nxge = (nxge_t *)vr->nxge; nxge_hio_data_t *nhd; vr_region_t region; NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_hio_unshare")); if (!nxge) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_unshare: " "vr->nxge is NULL")); return; } /* * This function is no longer called, but I will keep it * here in case we want to revisit this topic in the future. * * nxge_hio_hostinfo_uninit(nxge, vr); */ /* * XXX: This is done by ms_sremove? * (void) nxge_fzc_rdc_tbl_unbind(nxge, vr->rdc_tbl); */ nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; MUTEX_ENTER(&nhd->lock); region = vr->region; (void) memset(vr, 0, sizeof (*vr)); vr->region = region; nhd->vrs++; MUTEX_EXIT(&nhd->lock); NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_hio_unshare")); } int nxge_hio_addres(nxge_hio_vr_t *vr, mac_ring_type_t type, uint64_t *map) { nxge_t *nxge = (nxge_t *)vr->nxge; nxge_grp_t *group; int groupid; int i, rv = 0; int max_dcs; NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_hio_addres")); if (!nxge) return (EINVAL); /* * For each ring associated with the group, add the resources * to the group and bind. */ max_dcs = (type == MAC_RING_TYPE_TX) ? NXGE_MAX_TDCS : NXGE_MAX_RDCS; if (type == MAC_RING_TYPE_TX) { /* set->group is an array of group indexed by a port group id */ groupid = vr->tdc_tbl - nxge->pt_config.hw_config.def_mac_txdma_grpid; group = nxge->tx_set.group[groupid]; } else { /* set->group is an array of group indexed by a port group id */ groupid = vr->rdc_tbl - nxge->pt_config.hw_config.def_mac_rxdma_grpid; group = nxge->rx_set.group[groupid]; } if (group->map == 0) { NXGE_DEBUG_MSG((nxge, HIO_CTL, "There is no rings associated " "with this VR")); return (EINVAL); } for (i = 0; i < max_dcs; i++) { if (group->map & (1 << i)) { if ((rv = nxge_hio_dc_share(nxge, vr, type, i)) < 0) { if (*map == 0) /* Couldn't get even one DC. */ return (-rv); else break; } *map |= (1 << i); } } if ((*map == 0) || (rv != 0)) { NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_hio_addres: rv(%x)", rv)); return (EIO); } NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_hio_addres")); return (0); } /* ARGSUSED */ void nxge_hio_remres( nxge_hio_vr_t *vr, mac_ring_type_t type, res_map_t res_map) { nxge_t *nxge = (nxge_t *)vr->nxge; nxge_grp_t *group; if (!nxge) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_remres: " "vr->nxge is NULL")); return; } NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_hio_remres(%lx)", res_map)); /* * For each ring bound to the group, remove the DMA resources * from the group and unbind. */ group = (type == MAC_RING_TYPE_TX ? &vr->tx_group : &vr->rx_group); while (group->dc) { nxge_hio_dc_t *dc = group->dc; NXGE_DC_RESET(res_map, dc->page); nxge_hio_dc_unshare(nxge, vr, type, dc->channel); } if (res_map) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_remres: " "res_map %lx", res_map)); } NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_hio_remres")); } /* * nxge_hio_tdc_share * * Share an unused TDC channel. * * Arguments: * nxge * * Notes: * * A.7.3 Reconfigure Tx DMA channel * Disable TxDMA A.9.6.10 * [Rebind TxDMA channel to Port A.9.6.7] * * We don't have to Rebind the TDC to the port - it always already bound. * * Soft Reset TxDMA A.9.6.2 * * This procedure will be executed by nxge_init_txdma_channel() in the * guest domain: * * Re-initialize TxDMA A.9.6.8 * Reconfigure TxDMA * Enable TxDMA A.9.6.9 * * Context: * Service domain */ int nxge_hio_tdc_share( nxge_t *nxge, int channel) { nxge_hio_data_t *nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; nxge_grp_set_t *set = &nxge->tx_set; tx_ring_t *ring; int count; NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_hio_tdc_share")); /* * Wait until this channel is idle. */ ring = nxge->tx_rings->rings[channel]; ASSERT(ring != NULL); (void) atomic_swap_32(&ring->tx_ring_offline, NXGE_TX_RING_OFFLINING); if (ring->tx_ring_busy) { /* * Wait for 30 seconds. */ for (count = 30 * 1000; count; count--) { if (ring->tx_ring_offline & NXGE_TX_RING_OFFLINED) { break; } drv_usecwait(1000); } if (count == 0) { (void) atomic_swap_32(&ring->tx_ring_offline, NXGE_TX_RING_ONLINE); NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_tdc_share: " "Tx ring %d was always BUSY", channel)); return (-EIO); } } else { (void) atomic_swap_32(&ring->tx_ring_offline, NXGE_TX_RING_OFFLINED); } MUTEX_ENTER(&nhd->lock); nxge->tdc_is_shared[channel] = B_TRUE; MUTEX_EXIT(&nhd->lock); if (nxge_intr_remove(nxge, VP_BOUND_TX, channel) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_tdc_share: " "Failed to remove interrupt for TxDMA channel %d", channel)); return (-EINVAL); } /* Disable TxDMA A.9.6.10 */ (void) nxge_txdma_channel_disable(nxge, channel); /* The SD is sharing this channel. */ NXGE_DC_SET(set->shared.map, channel); set->shared.count++; /* Soft Reset TxDMA A.9.6.2 */ nxge_grp_dc_remove(nxge, VP_BOUND_TX, channel); /* * Initialize the DC-specific FZC control registers. * ----------------------------------------------------- */ if (nxge_init_fzc_tdc(nxge, channel) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_tdc_share: FZC TDC failed: %d", channel)); return (-EIO); } NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_hio_tdc_share")); return (0); } /* * nxge_hio_rdc_share * * Share an unused RDC channel. * * Arguments: * nxge * * Notes: * * This is the latest version of the procedure to * Reconfigure an Rx DMA channel: * * A.6.3 Reconfigure Rx DMA channel * Stop RxMAC A.9.2.6 * Drain IPP Port A.9.3.6 * Stop and reset RxDMA A.9.5.3 * * This procedure will be executed by nxge_init_rxdma_channel() in the * guest domain: * * Initialize RxDMA A.9.5.4 * Reconfigure RxDMA * Enable RxDMA A.9.5.5 * * We will do this here, since the RDC is a canalis non grata: * Enable RxMAC A.9.2.10 * * Context: * Service domain */ int nxge_hio_rdc_share( nxge_t *nxge, nxge_hio_vr_t *vr, int channel) { nxge_grp_set_t *set = &nxge->rx_set; nxge_rdc_grp_t *rdc_grp; NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_hio_rdc_share")); /* Disable interrupts. */ if (nxge_intr_remove(nxge, VP_BOUND_RX, channel) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_rdc_share: " "Failed to remove interrupt for RxDMA channel %d", channel)); return (NXGE_ERROR); } /* Stop RxMAC = A.9.2.6 */ if (nxge_rx_mac_disable(nxge) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_rdc_share: " "Failed to disable RxMAC")); } /* Drain IPP Port = A.9.3.6 */ (void) nxge_ipp_drain(nxge); /* Stop and reset RxDMA = A.9.5.3 */ // De-assert EN: RXDMA_CFIG1[31] = 0 (DMC+00000 ) if (nxge_disable_rxdma_channel(nxge, channel) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_rdc_share: " "Failed to disable RxDMA channel %d", channel)); } /* The SD is sharing this channel. */ NXGE_DC_SET(set->shared.map, channel); set->shared.count++; // Assert RST: RXDMA_CFIG1[30] = 1 nxge_grp_dc_remove(nxge, VP_BOUND_RX, channel); /* * The guest domain will reconfigure the RDC later. * * But in the meantime, we must re-enable the Rx MAC so * that we can start receiving packets again on the * remaining RDCs: * * Enable RxMAC = A.9.2.10 */ if (nxge_rx_mac_enable(nxge) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_rdc_share: Rx MAC still disabled")); } /* * Initialize the DC-specific FZC control registers. * ----------------------------------------------------- */ if (nxge_init_fzc_rdc(nxge, channel) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_rdc_share: RZC RDC failed: %ld", channel)); return (-EIO); } /* * Update the RDC group. */ rdc_grp = &nxge->pt_config.rdc_grps[vr->rdc_tbl]; NXGE_DC_SET(rdc_grp->map, channel); NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_hio_rdc_share")); return (0); } /* * nxge_hio_dc_share * * Share a DMA channel with a guest domain. * * Arguments: * nxge * vr The VR that will belong to. * type Tx or Rx. * channel Channel to share * * Notes: * * Context: * Service domain */ int nxge_hio_dc_share( nxge_t *nxge, nxge_hio_vr_t *vr, mac_ring_type_t type, int channel) { nxge_hio_data_t *nhd = (nxge_hio_data_t *)nxge->nxge_hw_p->hio; nxge_hio_dc_t *dc; nxge_grp_t *group; int slot; NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_hio_dc_share(%cdc %d", type == MAC_RING_TYPE_TX ? 't' : 'r', channel)); /* -------------------------------------------------- */ slot = (type == MAC_RING_TYPE_TX) ? nxge_hio_tdc_share(nxge, channel) : nxge_hio_rdc_share(nxge, vr, channel); if (slot < 0) { if (type == MAC_RING_TYPE_RX) { nxge_hio_rdc_unshare(nxge, vr->rdc_tbl, channel); } else { nxge_hio_tdc_unshare(nxge, vr->tdc_tbl, channel); } return (slot); } MUTEX_ENTER(&nhd->lock); /* * Tag this channel. * -------------------------------------------------- */ dc = type == MAC_RING_TYPE_TX ? &nhd->tdc[channel] : &nhd->rdc[channel]; dc->vr = vr; dc->channel = (nxge_channel_t)channel; MUTEX_EXIT(&nhd->lock); /* * vr->[t|r]x_group is used by the service domain to * keep track of its shared DMA channels. */ MUTEX_ENTER(&nxge->group_lock); group = (type == MAC_RING_TYPE_TX ? &vr->tx_group : &vr->rx_group); dc->group = group; /* Initialize , if necessary */ if (group->count == 0) { group->nxge = nxge; group->type = (type == MAC_RING_TYPE_TX) ? VP_BOUND_TX : VP_BOUND_RX; group->sequence = nhd->sequence++; group->active = B_TRUE; } MUTEX_EXIT(&nxge->group_lock); NXGE_ERROR_MSG((nxge, HIO_CTL, "DC share: %cDC %d was assigned to slot %d", type == MAC_RING_TYPE_TX ? 'T' : 'R', channel, slot)); nxge_grp_dc_append(nxge, group, dc); NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_hio_dc_share")); return (0); } /* * nxge_hio_tdc_unshare * * Unshare a TDC. * * Arguments: * nxge * channel The channel to unshare (add again). * * Notes: * * Context: * Service domain */ void nxge_hio_tdc_unshare( nxge_t *nxge, int dev_grpid, int channel) { nxge_grp_set_t *set = &nxge->tx_set; nxge_grp_t *group; int grpid; NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_hio_tdc_unshare")); NXGE_DC_RESET(set->shared.map, channel); set->shared.count--; grpid = dev_grpid - nxge->pt_config.hw_config.def_mac_txdma_grpid; group = set->group[grpid]; if ((nxge_grp_dc_add(nxge, group, VP_BOUND_TX, channel))) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_tdc_unshare: " "Failed to initialize TxDMA channel %d", channel)); return; } /* Re-add this interrupt. */ if (nxge_intr_add(nxge, VP_BOUND_TX, channel) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_tdc_unshare: " "Failed to add interrupt for TxDMA channel %d", channel)); } NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_hio_tdc_unshare")); } /* * nxge_hio_rdc_unshare * * Unshare an RDC: add it to the SD's RDC groups (tables). * * Arguments: * nxge * channel The channel to unshare (add again). * * Notes: * * Context: * Service domain */ void nxge_hio_rdc_unshare( nxge_t *nxge, int dev_grpid, int channel) { nxge_grp_set_t *set = &nxge->rx_set; nxge_grp_t *group; int grpid; NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_hio_rdc_unshare")); /* Stop RxMAC = A.9.2.6 */ if (nxge_rx_mac_disable(nxge) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_rdc_unshare: " "Failed to disable RxMAC")); } /* Drain IPP Port = A.9.3.6 */ (void) nxge_ipp_drain(nxge); /* Stop and reset RxDMA = A.9.5.3 */ // De-assert EN: RXDMA_CFIG1[31] = 0 (DMC+00000 ) if (nxge_disable_rxdma_channel(nxge, channel) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_rdc_unshare: " "Failed to disable RxDMA channel %d", channel)); } NXGE_DC_RESET(set->shared.map, channel); set->shared.count--; grpid = dev_grpid - nxge->pt_config.hw_config.def_mac_rxdma_grpid; group = set->group[grpid]; /* * Assert RST: RXDMA_CFIG1[30] = 1 * * Initialize RxDMA A.9.5.4 * Reconfigure RxDMA * Enable RxDMA A.9.5.5 */ if ((nxge_grp_dc_add(nxge, group, VP_BOUND_RX, channel))) { /* Be sure to re-enable the RX MAC. */ if (nxge_rx_mac_enable(nxge) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_rdc_share: Rx MAC still disabled")); } NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_rdc_unshare: " "Failed to initialize RxDMA channel %d", channel)); return; } /* * Enable RxMAC = A.9.2.10 */ if (nxge_rx_mac_enable(nxge) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_rdc_share: Rx MAC still disabled")); return; } /* Re-add this interrupt. */ if (nxge_intr_add(nxge, VP_BOUND_RX, channel) != NXGE_OK) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_rdc_unshare: Failed to add interrupt for " "RxDMA CHANNEL %d", channel)); } NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_hio_rdc_unshare")); } /* * nxge_hio_dc_unshare * * Unshare (reuse) a DMA channel. * * Arguments: * nxge * vr The VR that belongs to. * type Tx or Rx. * channel The DMA channel to reuse. * * Notes: * * Context: * Service domain */ void nxge_hio_dc_unshare( nxge_t *nxge, nxge_hio_vr_t *vr, mac_ring_type_t type, int channel) { nxge_grp_t *group; nxge_hio_dc_t *dc; NXGE_DEBUG_MSG((nxge, HIO_CTL, "==> nxge_hio_dc_unshare(%cdc %d)", type == MAC_RING_TYPE_TX ? 't' : 'r', channel)); /* Unlink the channel from its group. */ /* -------------------------------------------------- */ group = (type == MAC_RING_TYPE_TX) ? &vr->tx_group : &vr->rx_group; NXGE_DC_RESET(group->map, channel); if ((dc = nxge_grp_dc_unlink(nxge, group, channel)) == 0) { NXGE_ERROR_MSG((nxge, NXGE_ERR_CTL, "nxge_hio_dc_unshare(%d) failed", channel)); return; } dc->vr = 0; dc->cookie = 0; if (type == MAC_RING_TYPE_RX) { nxge_hio_rdc_unshare(nxge, vr->rdc_tbl, channel); } else { nxge_hio_tdc_unshare(nxge, vr->tdc_tbl, channel); } NXGE_DEBUG_MSG((nxge, HIO_CTL, "<== nxge_hio_dc_unshare")); } /* * nxge_hio_rxdma_bind_intr(): * * For the guest domain driver, need to bind the interrupt group * and state to the rx_rcr_ring_t. */ int nxge_hio_rxdma_bind_intr(nxge_t *nxge, rx_rcr_ring_t *ring, int channel) { nxge_hio_dc_t *dc; nxge_ldgv_t *control; nxge_ldg_t *group; nxge_ldv_t *device; /* * Find the DMA channel. */ if (!(dc = nxge_grp_dc_find(nxge, VP_BOUND_RX, channel))) { return (NXGE_ERROR); } /* * Get the control structure. */ control = nxge->ldgvp; if (control == NULL) { return (NXGE_ERROR); } group = &control->ldgp[dc->ldg.vector]; device = &control->ldvp[dc->ldg.ldsv]; MUTEX_ENTER(&ring->lock); ring->ldgp = group; ring->ldvp = device; MUTEX_EXIT(&ring->lock); return (NXGE_OK); } #endif /* if defined(sun4v) */