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6022 6023 6024 6025 6026 6027 6028 6029 6030 6031 6032 6033 6034 6035 6036 6037 6038 6039 6040 6041 6042 6043 6044 6045 6046 6047 6048 6049 6050 6051 6052 6053 6054 6055 6056 6057 6058 6059 6060 6061 6062 6063 6064 6065 6066 6067 6068 6069 6070 6071 6072 6073 6074 6075 6076 6077 6078 6079 6080 6081 6082 6083 6084 6085 6086 6087 6088 6089 6090 6091 6092 6093 6094 6095 6096 6097 6098 6099 6100 6101 6102 6103 6104 6105 6106 6107 6108 6109 6110 6111 6112 6113 6114 6115 6116 6117 6118 6119 6120 6121 6122 6123 6124 6125 | /* * Copyright © 2014 Red Hat * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that copyright * notice and this permission notice appear in supporting documentation, and * that the name of the copyright holders not be used in advertising or * publicity pertaining to distribution of the software without specific, * written prior permission. The copyright holders make no representations * about the suitability of this software for any purpose. It is provided "as * is" without express or implied warranty. * * THE COPYRIGHT HOLDERS DISCLAIM ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO * EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE * OF THIS SOFTWARE. */ #include <linux/bitfield.h> #include <linux/delay.h> #include <linux/errno.h> #include <linux/i2c.h> #include <linux/init.h> #include <linux/kernel.h> #include <linux/random.h> #include <linux/sched.h> #include <linux/seq_file.h> #include <linux/iopoll.h> #if IS_ENABLED(CONFIG_DRM_DEBUG_DP_MST_TOPOLOGY_REFS) #include <linux/stacktrace.h> #include <linux/sort.h> #include <linux/timekeeping.h> #include <linux/math64.h> #endif #include <drm/display/drm_dp_mst_helper.h> #include <drm/drm_atomic.h> #include <drm/drm_atomic_helper.h> #include <drm/drm_drv.h> #include <drm/drm_edid.h> #include <drm/drm_fixed.h> #include <drm/drm_print.h> #include <drm/drm_probe_helper.h> #include "drm_dp_helper_internal.h" #include "drm_dp_mst_topology_internal.h" /** * DOC: dp mst helper * * These functions contain parts of the DisplayPort 1.2a MultiStream Transport * protocol. The helpers contain a topology manager and bandwidth manager. * The helpers encapsulate the sending and received of sideband msgs. */ struct drm_dp_pending_up_req { struct drm_dp_sideband_msg_hdr hdr; struct drm_dp_sideband_msg_req_body msg; struct list_head next; }; static bool dump_dp_payload_table(struct drm_dp_mst_topology_mgr *mgr, char *buf); static void drm_dp_mst_topology_put_port(struct drm_dp_mst_port *port); static int drm_dp_dpcd_write_payload(struct drm_dp_mst_topology_mgr *mgr, int id, u8 start_slot, u8 num_slots); static int drm_dp_send_dpcd_read(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port, int offset, int size, u8 *bytes); static int drm_dp_send_dpcd_write(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port, int offset, int size, u8 *bytes); static int drm_dp_send_link_address(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_branch *mstb); static void drm_dp_send_clear_payload_id_table(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_branch *mstb); static int drm_dp_send_enum_path_resources(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_branch *mstb, struct drm_dp_mst_port *port); static bool drm_dp_validate_guid(struct drm_dp_mst_topology_mgr *mgr, u8 *guid); static int drm_dp_mst_register_i2c_bus(struct drm_dp_mst_port *port); static void drm_dp_mst_unregister_i2c_bus(struct drm_dp_mst_port *port); static void drm_dp_mst_kick_tx(struct drm_dp_mst_topology_mgr *mgr); static bool drm_dp_mst_port_downstream_of_branch(struct drm_dp_mst_port *port, struct drm_dp_mst_branch *branch); #define DBG_PREFIX "[dp_mst]" #define DP_STR(x) [DP_ ## x] = #x static const char *drm_dp_mst_req_type_str(u8 req_type) { static const char * const req_type_str[] = { DP_STR(GET_MSG_TRANSACTION_VERSION), DP_STR(LINK_ADDRESS), DP_STR(CONNECTION_STATUS_NOTIFY), DP_STR(ENUM_PATH_RESOURCES), DP_STR(ALLOCATE_PAYLOAD), DP_STR(QUERY_PAYLOAD), DP_STR(RESOURCE_STATUS_NOTIFY), DP_STR(CLEAR_PAYLOAD_ID_TABLE), DP_STR(REMOTE_DPCD_READ), DP_STR(REMOTE_DPCD_WRITE), DP_STR(REMOTE_I2C_READ), DP_STR(REMOTE_I2C_WRITE), DP_STR(POWER_UP_PHY), DP_STR(POWER_DOWN_PHY), DP_STR(SINK_EVENT_NOTIFY), DP_STR(QUERY_STREAM_ENC_STATUS), }; if (req_type >= ARRAY_SIZE(req_type_str) || !req_type_str[req_type]) return "unknown"; return req_type_str[req_type]; } #undef DP_STR #define DP_STR(x) [DP_NAK_ ## x] = #x static const char *drm_dp_mst_nak_reason_str(u8 nak_reason) { static const char * const nak_reason_str[] = { DP_STR(WRITE_FAILURE), DP_STR(INVALID_READ), DP_STR(CRC_FAILURE), DP_STR(BAD_PARAM), DP_STR(DEFER), DP_STR(LINK_FAILURE), DP_STR(NO_RESOURCES), DP_STR(DPCD_FAIL), DP_STR(I2C_NAK), DP_STR(ALLOCATE_FAIL), }; if (nak_reason >= ARRAY_SIZE(nak_reason_str) || !nak_reason_str[nak_reason]) return "unknown"; return nak_reason_str[nak_reason]; } #undef DP_STR #define DP_STR(x) [DRM_DP_SIDEBAND_TX_ ## x] = #x static const char *drm_dp_mst_sideband_tx_state_str(int state) { static const char * const sideband_reason_str[] = { DP_STR(QUEUED), DP_STR(START_SEND), DP_STR(SENT), DP_STR(RX), DP_STR(TIMEOUT), }; if (state >= ARRAY_SIZE(sideband_reason_str) || !sideband_reason_str[state]) return "unknown"; return sideband_reason_str[state]; } static int drm_dp_mst_rad_to_str(const u8 rad[8], u8 lct, char *out, size_t len) { int i; u8 unpacked_rad[16]; for (i = 0; i < lct; i++) { if (i % 2) unpacked_rad[i] = rad[i / 2] >> 4; else unpacked_rad[i] = rad[i / 2] & BIT_MASK(4); } /* TODO: Eventually add something to printk so we can format the rad * like this: 1.2.3 */ return snprintf(out, len, "%*phC", lct, unpacked_rad); } /* sideband msg handling */ static u8 drm_dp_msg_header_crc4(const uint8_t *data, size_t num_nibbles) { u8 bitmask = 0x80; u8 bitshift = 7; u8 array_index = 0; int number_of_bits = num_nibbles * 4; u8 remainder = 0; while (number_of_bits != 0) { number_of_bits--; remainder <<= 1; remainder |= (data[array_index] & bitmask) >> bitshift; bitmask >>= 1; bitshift--; if (bitmask == 0) { bitmask = 0x80; bitshift = 7; array_index++; } if ((remainder & 0x10) == 0x10) remainder ^= 0x13; } number_of_bits = 4; while (number_of_bits != 0) { number_of_bits--; remainder <<= 1; if ((remainder & 0x10) != 0) remainder ^= 0x13; } return remainder; } static u8 drm_dp_msg_data_crc4(const uint8_t *data, u8 number_of_bytes) { u8 bitmask = 0x80; u8 bitshift = 7; u8 array_index = 0; int number_of_bits = number_of_bytes * 8; u16 remainder = 0; while (number_of_bits != 0) { number_of_bits--; remainder <<= 1; remainder |= (data[array_index] & bitmask) >> bitshift; bitmask >>= 1; bitshift--; if (bitmask == 0) { bitmask = 0x80; bitshift = 7; array_index++; } if ((remainder & 0x100) == 0x100) remainder ^= 0xd5; } number_of_bits = 8; while (number_of_bits != 0) { number_of_bits--; remainder <<= 1; if ((remainder & 0x100) != 0) remainder ^= 0xd5; } return remainder & 0xff; } static inline u8 drm_dp_calc_sb_hdr_size(struct drm_dp_sideband_msg_hdr *hdr) { u8 size = 3; size += (hdr->lct / 2); return size; } static void drm_dp_encode_sideband_msg_hdr(struct drm_dp_sideband_msg_hdr *hdr, u8 *buf, int *len) { int idx = 0; int i; u8 crc4; buf[idx++] = ((hdr->lct & 0xf) << 4) | (hdr->lcr & 0xf); for (i = 0; i < (hdr->lct / 2); i++) buf[idx++] = hdr->rad[i]; buf[idx++] = (hdr->broadcast << 7) | (hdr->path_msg << 6) | (hdr->msg_len & 0x3f); buf[idx++] = (hdr->somt << 7) | (hdr->eomt << 6) | (hdr->seqno << 4); crc4 = drm_dp_msg_header_crc4(buf, (idx * 2) - 1); buf[idx - 1] |= (crc4 & 0xf); *len = idx; } static bool drm_dp_decode_sideband_msg_hdr(const struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_sideband_msg_hdr *hdr, u8 *buf, int buflen, u8 *hdrlen) { u8 crc4; u8 len; int i; u8 idx; if (buf[0] == 0) return false; len = 3; len += ((buf[0] & 0xf0) >> 4) / 2; if (len > buflen) return false; crc4 = drm_dp_msg_header_crc4(buf, (len * 2) - 1); if ((crc4 & 0xf) != (buf[len - 1] & 0xf)) { drm_dbg_kms(mgr->dev, "crc4 mismatch 0x%x 0x%x\n", crc4, buf[len - 1]); return false; } hdr->lct = (buf[0] & 0xf0) >> 4; hdr->lcr = (buf[0] & 0xf); idx = 1; for (i = 0; i < (hdr->lct / 2); i++) hdr->rad[i] = buf[idx++]; hdr->broadcast = (buf[idx] >> 7) & 0x1; hdr->path_msg = (buf[idx] >> 6) & 0x1; hdr->msg_len = buf[idx] & 0x3f; idx++; hdr->somt = (buf[idx] >> 7) & 0x1; hdr->eomt = (buf[idx] >> 6) & 0x1; hdr->seqno = (buf[idx] >> 4) & 0x1; idx++; *hdrlen = idx; return true; } void drm_dp_encode_sideband_req(const struct drm_dp_sideband_msg_req_body *req, struct drm_dp_sideband_msg_tx *raw) { int idx = 0; int i; u8 *buf = raw->msg; buf[idx++] = req->req_type & 0x7f; switch (req->req_type) { case DP_ENUM_PATH_RESOURCES: case DP_POWER_DOWN_PHY: case DP_POWER_UP_PHY: buf[idx] = (req->u.port_num.port_number & 0xf) << 4; idx++; break; case DP_ALLOCATE_PAYLOAD: buf[idx] = (req->u.allocate_payload.port_number & 0xf) << 4 | (req->u.allocate_payload.number_sdp_streams & 0xf); idx++; buf[idx] = (req->u.allocate_payload.vcpi & 0x7f); idx++; buf[idx] = (req->u.allocate_payload.pbn >> 8); idx++; buf[idx] = (req->u.allocate_payload.pbn & 0xff); idx++; for (i = 0; i < req->u.allocate_payload.number_sdp_streams / 2; i++) { buf[idx] = ((req->u.allocate_payload.sdp_stream_sink[i * 2] & 0xf) << 4) | (req->u.allocate_payload.sdp_stream_sink[i * 2 + 1] & 0xf); idx++; } if (req->u.allocate_payload.number_sdp_streams & 1) { i = req->u.allocate_payload.number_sdp_streams - 1; buf[idx] = (req->u.allocate_payload.sdp_stream_sink[i] & 0xf) << 4; idx++; } break; case DP_QUERY_PAYLOAD: buf[idx] = (req->u.query_payload.port_number & 0xf) << 4; idx++; buf[idx] = (req->u.query_payload.vcpi & 0x7f); idx++; break; case DP_REMOTE_DPCD_READ: buf[idx] = (req->u.dpcd_read.port_number & 0xf) << 4; buf[idx] |= ((req->u.dpcd_read.dpcd_address & 0xf0000) >> 16) & 0xf; idx++; buf[idx] = (req->u.dpcd_read.dpcd_address & 0xff00) >> 8; idx++; buf[idx] = (req->u.dpcd_read.dpcd_address & 0xff); idx++; buf[idx] = (req->u.dpcd_read.num_bytes); idx++; break; case DP_REMOTE_DPCD_WRITE: buf[idx] = (req->u.dpcd_write.port_number & 0xf) << 4; buf[idx] |= ((req->u.dpcd_write.dpcd_address & 0xf0000) >> 16) & 0xf; idx++; buf[idx] = (req->u.dpcd_write.dpcd_address & 0xff00) >> 8; idx++; buf[idx] = (req->u.dpcd_write.dpcd_address & 0xff); idx++; buf[idx] = (req->u.dpcd_write.num_bytes); idx++; memcpy(&buf[idx], req->u.dpcd_write.bytes, req->u.dpcd_write.num_bytes); idx += req->u.dpcd_write.num_bytes; break; case DP_REMOTE_I2C_READ: buf[idx] = (req->u.i2c_read.port_number & 0xf) << 4; buf[idx] |= (req->u.i2c_read.num_transactions & 0x3); idx++; for (i = 0; i < (req->u.i2c_read.num_transactions & 0x3); i++) { buf[idx] = req->u.i2c_read.transactions[i].i2c_dev_id & 0x7f; idx++; buf[idx] = req->u.i2c_read.transactions[i].num_bytes; idx++; memcpy(&buf[idx], req->u.i2c_read.transactions[i].bytes, req->u.i2c_read.transactions[i].num_bytes); idx += req->u.i2c_read.transactions[i].num_bytes; buf[idx] = (req->u.i2c_read.transactions[i].no_stop_bit & 0x1) << 4; buf[idx] |= (req->u.i2c_read.transactions[i].i2c_transaction_delay & 0xf); idx++; } buf[idx] = (req->u.i2c_read.read_i2c_device_id) & 0x7f; idx++; buf[idx] = (req->u.i2c_read.num_bytes_read); idx++; break; case DP_REMOTE_I2C_WRITE: buf[idx] = (req->u.i2c_write.port_number & 0xf) << 4; idx++; buf[idx] = (req->u.i2c_write.write_i2c_device_id) & 0x7f; idx++; buf[idx] = (req->u.i2c_write.num_bytes); idx++; memcpy(&buf[idx], req->u.i2c_write.bytes, req->u.i2c_write.num_bytes); idx += req->u.i2c_write.num_bytes; break; case DP_QUERY_STREAM_ENC_STATUS: { const struct drm_dp_query_stream_enc_status *msg; msg = &req->u.enc_status; buf[idx] = msg->stream_id; idx++; memcpy(&buf[idx], msg->client_id, sizeof(msg->client_id)); idx += sizeof(msg->client_id); buf[idx] = 0; buf[idx] |= FIELD_PREP(GENMASK(1, 0), msg->stream_event); buf[idx] |= msg->valid_stream_event ? BIT(2) : 0; buf[idx] |= FIELD_PREP(GENMASK(4, 3), msg->stream_behavior); buf[idx] |= msg->valid_stream_behavior ? BIT(5) : 0; idx++; } break; } raw->cur_len = idx; } EXPORT_SYMBOL_FOR_TESTS_ONLY(drm_dp_encode_sideband_req); /* Decode a sideband request we've encoded, mainly used for debugging */ int drm_dp_decode_sideband_req(const struct drm_dp_sideband_msg_tx *raw, struct drm_dp_sideband_msg_req_body *req) { const u8 *buf = raw->msg; int i, idx = 0; req->req_type = buf[idx++] & 0x7f; switch (req->req_type) { case DP_ENUM_PATH_RESOURCES: case DP_POWER_DOWN_PHY: case DP_POWER_UP_PHY: req->u.port_num.port_number = (buf[idx] >> 4) & 0xf; break; case DP_ALLOCATE_PAYLOAD: { struct drm_dp_allocate_payload *a = &req->u.allocate_payload; a->number_sdp_streams = buf[idx] & 0xf; a->port_number = (buf[idx] >> 4) & 0xf; WARN_ON(buf[++idx] & 0x80); a->vcpi = buf[idx] & 0x7f; a->pbn = buf[++idx] << 8; a->pbn |= buf[++idx]; idx++; for (i = 0; i < a->number_sdp_streams; i++) { a->sdp_stream_sink[i] = (buf[idx + (i / 2)] >> ((i % 2) ? 0 : 4)) & 0xf; } } break; case DP_QUERY_PAYLOAD: req->u.query_payload.port_number = (buf[idx] >> 4) & 0xf; WARN_ON(buf[++idx] & 0x80); req->u.query_payload.vcpi = buf[idx] & 0x7f; break; case DP_REMOTE_DPCD_READ: { struct drm_dp_remote_dpcd_read *r = &req->u.dpcd_read; r->port_number = (buf[idx] >> 4) & 0xf; r->dpcd_address = (buf[idx] << 16) & 0xf0000; r->dpcd_address |= (buf[++idx] << 8) & 0xff00; r->dpcd_address |= buf[++idx] & 0xff; r->num_bytes = buf[++idx]; } break; case DP_REMOTE_DPCD_WRITE: { struct drm_dp_remote_dpcd_write *w = &req->u.dpcd_write; w->port_number = (buf[idx] >> 4) & 0xf; w->dpcd_address = (buf[idx] << 16) & 0xf0000; w->dpcd_address |= (buf[++idx] << 8) & 0xff00; w->dpcd_address |= buf[++idx] & 0xff; w->num_bytes = buf[++idx]; w->bytes = kmemdup(&buf[++idx], w->num_bytes, GFP_KERNEL); if (!w->bytes) return -ENOMEM; } break; case DP_REMOTE_I2C_READ: { struct drm_dp_remote_i2c_read *r = &req->u.i2c_read; struct drm_dp_remote_i2c_read_tx *tx; bool failed = false; r->num_transactions = buf[idx] & 0x3; r->port_number = (buf[idx] >> 4) & 0xf; for (i = 0; i < r->num_transactions; i++) { tx = &r->transactions[i]; tx->i2c_dev_id = buf[++idx] & 0x7f; tx->num_bytes = buf[++idx]; tx->bytes = kmemdup(&buf[++idx], tx->num_bytes, GFP_KERNEL); if (!tx->bytes) { failed = true; break; } idx += tx->num_bytes; tx->no_stop_bit = (buf[idx] >> 5) & 0x1; tx->i2c_transaction_delay = buf[idx] & 0xf; } if (failed) { for (i = 0; i < r->num_transactions; i++) { tx = &r->transactions[i]; kfree(tx->bytes); } return -ENOMEM; } r->read_i2c_device_id = buf[++idx] & 0x7f; r->num_bytes_read = buf[++idx]; } break; case DP_REMOTE_I2C_WRITE: { struct drm_dp_remote_i2c_write *w = &req->u.i2c_write; w->port_number = (buf[idx] >> 4) & 0xf; w->write_i2c_device_id = buf[++idx] & 0x7f; w->num_bytes = buf[++idx]; w->bytes = kmemdup(&buf[++idx], w->num_bytes, GFP_KERNEL); if (!w->bytes) return -ENOMEM; } break; case DP_QUERY_STREAM_ENC_STATUS: req->u.enc_status.stream_id = buf[idx++]; for (i = 0; i < sizeof(req->u.enc_status.client_id); i++) req->u.enc_status.client_id[i] = buf[idx++]; req->u.enc_status.stream_event = FIELD_GET(GENMASK(1, 0), buf[idx]); req->u.enc_status.valid_stream_event = FIELD_GET(BIT(2), buf[idx]); req->u.enc_status.stream_behavior = FIELD_GET(GENMASK(4, 3), buf[idx]); req->u.enc_status.valid_stream_behavior = FIELD_GET(BIT(5), buf[idx]); break; } return 0; } EXPORT_SYMBOL_FOR_TESTS_ONLY(drm_dp_decode_sideband_req); void drm_dp_dump_sideband_msg_req_body(const struct drm_dp_sideband_msg_req_body *req, int indent, struct drm_printer *printer) { int i; #define P(f, ...) drm_printf_indent(printer, indent, f, ##__VA_ARGS__) if (req->req_type == DP_LINK_ADDRESS) { /* No contents to print */ P("type=%s\n", drm_dp_mst_req_type_str(req->req_type)); return; } P("type=%s contents:\n", drm_dp_mst_req_type_str(req->req_type)); indent++; switch (req->req_type) { case DP_ENUM_PATH_RESOURCES: case DP_POWER_DOWN_PHY: case DP_POWER_UP_PHY: P("port=%d\n", req->u.port_num.port_number); break; case DP_ALLOCATE_PAYLOAD: P("port=%d vcpi=%d pbn=%d sdp_streams=%d %*ph\n", req->u.allocate_payload.port_number, req->u.allocate_payload.vcpi, req->u.allocate_payload.pbn, req->u.allocate_payload.number_sdp_streams, req->u.allocate_payload.number_sdp_streams, req->u.allocate_payload.sdp_stream_sink); break; case DP_QUERY_PAYLOAD: P("port=%d vcpi=%d\n", req->u.query_payload.port_number, req->u.query_payload.vcpi); break; case DP_REMOTE_DPCD_READ: P("port=%d dpcd_addr=%05x len=%d\n", req->u.dpcd_read.port_number, req->u.dpcd_read.dpcd_address, req->u.dpcd_read.num_bytes); break; case DP_REMOTE_DPCD_WRITE: P("port=%d addr=%05x len=%d: %*ph\n", req->u.dpcd_write.port_number, req->u.dpcd_write.dpcd_address, req->u.dpcd_write.num_bytes, req->u.dpcd_write.num_bytes, req->u.dpcd_write.bytes); break; case DP_REMOTE_I2C_READ: P("port=%d num_tx=%d id=%d size=%d:\n", req->u.i2c_read.port_number, req->u.i2c_read.num_transactions, req->u.i2c_read.read_i2c_device_id, req->u.i2c_read.num_bytes_read); indent++; for (i = 0; i < req->u.i2c_read.num_transactions; i++) { const struct drm_dp_remote_i2c_read_tx *rtx = &req->u.i2c_read.transactions[i]; P("%d: id=%03d size=%03d no_stop_bit=%d tx_delay=%03d: %*ph\n", i, rtx->i2c_dev_id, rtx->num_bytes, rtx->no_stop_bit, rtx->i2c_transaction_delay, rtx->num_bytes, rtx->bytes); } break; case DP_REMOTE_I2C_WRITE: P("port=%d id=%d size=%d: %*ph\n", req->u.i2c_write.port_number, req->u.i2c_write.write_i2c_device_id, req->u.i2c_write.num_bytes, req->u.i2c_write.num_bytes, req->u.i2c_write.bytes); break; case DP_QUERY_STREAM_ENC_STATUS: P("stream_id=%u client_id=%*ph stream_event=%x " "valid_event=%d stream_behavior=%x valid_behavior=%d", req->u.enc_status.stream_id, (int)ARRAY_SIZE(req->u.enc_status.client_id), req->u.enc_status.client_id, req->u.enc_status.stream_event, req->u.enc_status.valid_stream_event, req->u.enc_status.stream_behavior, req->u.enc_status.valid_stream_behavior); break; default: P("???\n"); break; } #undef P } EXPORT_SYMBOL_FOR_TESTS_ONLY(drm_dp_dump_sideband_msg_req_body); static inline void drm_dp_mst_dump_sideband_msg_tx(struct drm_printer *p, const struct drm_dp_sideband_msg_tx *txmsg) { struct drm_dp_sideband_msg_req_body req; char buf[64]; int ret; int i; drm_dp_mst_rad_to_str(txmsg->dst->rad, txmsg->dst->lct, buf, sizeof(buf)); drm_printf(p, "txmsg cur_offset=%x cur_len=%x seqno=%x state=%s path_msg=%d dst=%s\n", txmsg->cur_offset, txmsg->cur_len, txmsg->seqno, drm_dp_mst_sideband_tx_state_str(txmsg->state), txmsg->path_msg, buf); ret = drm_dp_decode_sideband_req(txmsg, &req); if (ret) { drm_printf(p, "<failed to decode sideband req: %d>\n", ret); return; } drm_dp_dump_sideband_msg_req_body(&req, 1, p); switch (req.req_type) { case DP_REMOTE_DPCD_WRITE: kfree(req.u.dpcd_write.bytes); break; case DP_REMOTE_I2C_READ: for (i = 0; i < req.u.i2c_read.num_transactions; i++) kfree(req.u.i2c_read.transactions[i].bytes); break; case DP_REMOTE_I2C_WRITE: kfree(req.u.i2c_write.bytes); break; } } static void drm_dp_crc_sideband_chunk_req(u8 *msg, u8 len) { u8 crc4; crc4 = drm_dp_msg_data_crc4(msg, len); msg[len] = crc4; } static void drm_dp_encode_sideband_reply(struct drm_dp_sideband_msg_reply_body *rep, struct drm_dp_sideband_msg_tx *raw) { int idx = 0; u8 *buf = raw->msg; buf[idx++] = (rep->reply_type & 0x1) << 7 | (rep->req_type & 0x7f); raw->cur_len = idx; } static int drm_dp_sideband_msg_set_header(struct drm_dp_sideband_msg_rx *msg, struct drm_dp_sideband_msg_hdr *hdr, u8 hdrlen) { /* * ignore out-of-order messages or messages that are part of a * failed transaction */ if (!hdr->somt && !msg->have_somt) return false; /* get length contained in this portion */ msg->curchunk_idx = 0; msg->curchunk_len = hdr->msg_len; msg->curchunk_hdrlen = hdrlen; /* we have already gotten an somt - don't bother parsing */ if (hdr->somt && msg->have_somt) return false; if (hdr->somt) { memcpy(&msg->initial_hdr, hdr, sizeof(struct drm_dp_sideband_msg_hdr)); msg->have_somt = true; } if (hdr->eomt) msg->have_eomt = true; return true; } /* this adds a chunk of msg to the builder to get the final msg */ static bool drm_dp_sideband_append_payload(struct drm_dp_sideband_msg_rx *msg, u8 *replybuf, u8 replybuflen) { u8 crc4; memcpy(&msg->chunk[msg->curchunk_idx], replybuf, replybuflen); msg->curchunk_idx += replybuflen; if (msg->curchunk_idx >= msg->curchunk_len) { /* do CRC */ crc4 = drm_dp_msg_data_crc4(msg->chunk, msg->curchunk_len - 1); if (crc4 != msg->chunk[msg->curchunk_len - 1]) print_hex_dump(KERN_DEBUG, "wrong crc", DUMP_PREFIX_NONE, 16, 1, msg->chunk, msg->curchunk_len, false); /* copy chunk into bigger msg */ memcpy(&msg->msg[msg->curlen], msg->chunk, msg->curchunk_len - 1); msg->curlen += msg->curchunk_len - 1; } return true; } static bool drm_dp_sideband_parse_link_address(const struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_reply_body *repmsg) { int idx = 1; int i; memcpy(repmsg->u.link_addr.guid, &raw->msg[idx], 16); idx += 16; repmsg->u.link_addr.nports = raw->msg[idx] & 0xf; idx++; if (idx > raw->curlen) goto fail_len; for (i = 0; i < repmsg->u.link_addr.nports; i++) { if (raw->msg[idx] & 0x80) repmsg->u.link_addr.ports[i].input_port = 1; repmsg->u.link_addr.ports[i].peer_device_type = (raw->msg[idx] >> 4) & 0x7; repmsg->u.link_addr.ports[i].port_number = (raw->msg[idx] & 0xf); idx++; if (idx > raw->curlen) goto fail_len; repmsg->u.link_addr.ports[i].mcs = (raw->msg[idx] >> 7) & 0x1; repmsg->u.link_addr.ports[i].ddps = (raw->msg[idx] >> 6) & 0x1; if (repmsg->u.link_addr.ports[i].input_port == 0) repmsg->u.link_addr.ports[i].legacy_device_plug_status = (raw->msg[idx] >> 5) & 0x1; idx++; if (idx > raw->curlen) goto fail_len; if (repmsg->u.link_addr.ports[i].input_port == 0) { repmsg->u.link_addr.ports[i].dpcd_revision = (raw->msg[idx]); idx++; if (idx > raw->curlen) goto fail_len; memcpy(repmsg->u.link_addr.ports[i].peer_guid, &raw->msg[idx], 16); idx += 16; if (idx > raw->curlen) goto fail_len; repmsg->u.link_addr.ports[i].num_sdp_streams = (raw->msg[idx] >> 4) & 0xf; repmsg->u.link_addr.ports[i].num_sdp_stream_sinks = (raw->msg[idx] & 0xf); idx++; } if (idx > raw->curlen) goto fail_len; } return true; fail_len: DRM_DEBUG_KMS("link address reply parse length fail %d %d\n", idx, raw->curlen); return false; } static bool drm_dp_sideband_parse_remote_dpcd_read(struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_reply_body *repmsg) { int idx = 1; repmsg->u.remote_dpcd_read_ack.port_number = raw->msg[idx] & 0xf; idx++; if (idx > raw->curlen) goto fail_len; repmsg->u.remote_dpcd_read_ack.num_bytes = raw->msg[idx]; idx++; if (idx > raw->curlen) goto fail_len; memcpy(repmsg->u.remote_dpcd_read_ack.bytes, &raw->msg[idx], repmsg->u.remote_dpcd_read_ack.num_bytes); return true; fail_len: DRM_DEBUG_KMS("link address reply parse length fail %d %d\n", idx, raw->curlen); return false; } static bool drm_dp_sideband_parse_remote_dpcd_write(struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_reply_body *repmsg) { int idx = 1; repmsg->u.remote_dpcd_write_ack.port_number = raw->msg[idx] & 0xf; idx++; if (idx > raw->curlen) goto fail_len; return true; fail_len: DRM_DEBUG_KMS("parse length fail %d %d\n", idx, raw->curlen); return false; } static bool drm_dp_sideband_parse_remote_i2c_read_ack(struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_reply_body *repmsg) { int idx = 1; repmsg->u.remote_i2c_read_ack.port_number = (raw->msg[idx] & 0xf); idx++; if (idx > raw->curlen) goto fail_len; repmsg->u.remote_i2c_read_ack.num_bytes = raw->msg[idx]; idx++; /* TODO check */ memcpy(repmsg->u.remote_i2c_read_ack.bytes, &raw->msg[idx], repmsg->u.remote_i2c_read_ack.num_bytes); return true; fail_len: DRM_DEBUG_KMS("remote i2c reply parse length fail %d %d\n", idx, raw->curlen); return false; } static bool drm_dp_sideband_parse_enum_path_resources_ack(struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_reply_body *repmsg) { int idx = 1; repmsg->u.path_resources.port_number = (raw->msg[idx] >> 4) & 0xf; repmsg->u.path_resources.fec_capable = raw->msg[idx] & 0x1; idx++; if (idx > raw->curlen) goto fail_len; repmsg->u.path_resources.full_payload_bw_number = (raw->msg[idx] << 8) | (raw->msg[idx+1]); idx += 2; if (idx > raw->curlen) goto fail_len; repmsg->u.path_resources.avail_payload_bw_number = (raw->msg[idx] << 8) | (raw->msg[idx+1]); idx += 2; if (idx > raw->curlen) goto fail_len; return true; fail_len: DRM_DEBUG_KMS("enum resource parse length fail %d %d\n", idx, raw->curlen); return false; } static bool drm_dp_sideband_parse_allocate_payload_ack(struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_reply_body *repmsg) { int idx = 1; repmsg->u.allocate_payload.port_number = (raw->msg[idx] >> 4) & 0xf; idx++; if (idx > raw->curlen) goto fail_len; repmsg->u.allocate_payload.vcpi = raw->msg[idx]; idx++; if (idx > raw->curlen) goto fail_len; repmsg->u.allocate_payload.allocated_pbn = (raw->msg[idx] << 8) | (raw->msg[idx+1]); idx += 2; if (idx > raw->curlen) goto fail_len; return true; fail_len: DRM_DEBUG_KMS("allocate payload parse length fail %d %d\n", idx, raw->curlen); return false; } static bool drm_dp_sideband_parse_query_payload_ack(struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_reply_body *repmsg) { int idx = 1; repmsg->u.query_payload.port_number = (raw->msg[idx] >> 4) & 0xf; idx++; if (idx > raw->curlen) goto fail_len; repmsg->u.query_payload.allocated_pbn = (raw->msg[idx] << 8) | (raw->msg[idx + 1]); idx += 2; if (idx > raw->curlen) goto fail_len; return true; fail_len: DRM_DEBUG_KMS("query payload parse length fail %d %d\n", idx, raw->curlen); return false; } static bool drm_dp_sideband_parse_power_updown_phy_ack(struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_reply_body *repmsg) { int idx = 1; repmsg->u.port_number.port_number = (raw->msg[idx] >> 4) & 0xf; idx++; if (idx > raw->curlen) { DRM_DEBUG_KMS("power up/down phy parse length fail %d %d\n", idx, raw->curlen); return false; } return true; } static bool drm_dp_sideband_parse_query_stream_enc_status( struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_reply_body *repmsg) { struct drm_dp_query_stream_enc_status_ack_reply *reply; reply = &repmsg->u.enc_status; reply->stream_id = raw->msg[3]; reply->reply_signed = raw->msg[2] & BIT(0); /* * NOTE: It's my impression from reading the spec that the below parsing * is correct. However I noticed while testing with an HDCP 1.4 display * through an HDCP 2.2 hub that only bit 3 was set. In that case, I * would expect both bits to be set. So keep the parsing following the * spec, but beware reality might not match the spec (at least for some * configurations). */ reply->hdcp_1x_device_present = raw->msg[2] & BIT(4); reply->hdcp_2x_device_present = raw->msg[2] & BIT(3); reply->query_capable_device_present = raw->msg[2] & BIT(5); reply->legacy_device_present = raw->msg[2] & BIT(6); reply->unauthorizable_device_present = raw->msg[2] & BIT(7); reply->auth_completed = !!(raw->msg[1] & BIT(3)); reply->encryption_enabled = !!(raw->msg[1] & BIT(4)); reply->repeater_present = !!(raw->msg[1] & BIT(5)); reply->state = (raw->msg[1] & GENMASK(7, 6)) >> 6; return true; } static bool drm_dp_sideband_parse_reply(const struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_reply_body *msg) { memset(msg, 0, sizeof(*msg)); msg->reply_type = (raw->msg[0] & 0x80) >> 7; msg->req_type = (raw->msg[0] & 0x7f); if (msg->reply_type == DP_SIDEBAND_REPLY_NAK) { memcpy(msg->u.nak.guid, &raw->msg[1], 16); msg->u.nak.reason = raw->msg[17]; msg->u.nak.nak_data = raw->msg[18]; return false; } switch (msg->req_type) { case DP_LINK_ADDRESS: return drm_dp_sideband_parse_link_address(mgr, raw, msg); case DP_QUERY_PAYLOAD: return drm_dp_sideband_parse_query_payload_ack(raw, msg); case DP_REMOTE_DPCD_READ: return drm_dp_sideband_parse_remote_dpcd_read(raw, msg); case DP_REMOTE_DPCD_WRITE: return drm_dp_sideband_parse_remote_dpcd_write(raw, msg); case DP_REMOTE_I2C_READ: return drm_dp_sideband_parse_remote_i2c_read_ack(raw, msg); case DP_REMOTE_I2C_WRITE: return true; /* since there's nothing to parse */ case DP_ENUM_PATH_RESOURCES: return drm_dp_sideband_parse_enum_path_resources_ack(raw, msg); case DP_ALLOCATE_PAYLOAD: return drm_dp_sideband_parse_allocate_payload_ack(raw, msg); case DP_POWER_DOWN_PHY: case DP_POWER_UP_PHY: return drm_dp_sideband_parse_power_updown_phy_ack(raw, msg); case DP_CLEAR_PAYLOAD_ID_TABLE: return true; /* since there's nothing to parse */ case DP_QUERY_STREAM_ENC_STATUS: return drm_dp_sideband_parse_query_stream_enc_status(raw, msg); default: drm_err(mgr->dev, "Got unknown reply 0x%02x (%s)\n", msg->req_type, drm_dp_mst_req_type_str(msg->req_type)); return false; } } static bool drm_dp_sideband_parse_connection_status_notify(const struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_req_body *msg) { int idx = 1; msg->u.conn_stat.port_number = (raw->msg[idx] & 0xf0) >> 4; idx++; if (idx > raw->curlen) goto fail_len; memcpy(msg->u.conn_stat.guid, &raw->msg[idx], 16); idx += 16; if (idx > raw->curlen) goto fail_len; msg->u.conn_stat.legacy_device_plug_status = (raw->msg[idx] >> 6) & 0x1; msg->u.conn_stat.displayport_device_plug_status = (raw->msg[idx] >> 5) & 0x1; msg->u.conn_stat.message_capability_status = (raw->msg[idx] >> 4) & 0x1; msg->u.conn_stat.input_port = (raw->msg[idx] >> 3) & 0x1; msg->u.conn_stat.peer_device_type = (raw->msg[idx] & 0x7); idx++; return true; fail_len: drm_dbg_kms(mgr->dev, "connection status reply parse length fail %d %d\n", idx, raw->curlen); return false; } static bool drm_dp_sideband_parse_resource_status_notify(const struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_req_body *msg) { int idx = 1; msg->u.resource_stat.port_number = (raw->msg[idx] & 0xf0) >> 4; idx++; if (idx > raw->curlen) goto fail_len; memcpy(msg->u.resource_stat.guid, &raw->msg[idx], 16); idx += 16; if (idx > raw->curlen) goto fail_len; msg->u.resource_stat.available_pbn = (raw->msg[idx] << 8) | (raw->msg[idx + 1]); idx++; return true; fail_len: drm_dbg_kms(mgr->dev, "resource status reply parse length fail %d %d\n", idx, raw->curlen); return false; } static bool drm_dp_sideband_parse_req(const struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_sideband_msg_rx *raw, struct drm_dp_sideband_msg_req_body *msg) { memset(msg, 0, sizeof(*msg)); msg->req_type = (raw->msg[0] & 0x7f); switch (msg->req_type) { case DP_CONNECTION_STATUS_NOTIFY: return drm_dp_sideband_parse_connection_status_notify(mgr, raw, msg); case DP_RESOURCE_STATUS_NOTIFY: return drm_dp_sideband_parse_resource_status_notify(mgr, raw, msg); default: drm_err(mgr->dev, "Got unknown request 0x%02x (%s)\n", msg->req_type, drm_dp_mst_req_type_str(msg->req_type)); return false; } } static void build_dpcd_write(struct drm_dp_sideband_msg_tx *msg, u8 port_num, u32 offset, u8 num_bytes, u8 *bytes) { struct drm_dp_sideband_msg_req_body req; req.req_type = DP_REMOTE_DPCD_WRITE; req.u.dpcd_write.port_number = port_num; req.u.dpcd_write.dpcd_address = offset; req.u.dpcd_write.num_bytes = num_bytes; req.u.dpcd_write.bytes = bytes; drm_dp_encode_sideband_req(&req, msg); } static void build_link_address(struct drm_dp_sideband_msg_tx *msg) { struct drm_dp_sideband_msg_req_body req; req.req_type = DP_LINK_ADDRESS; drm_dp_encode_sideband_req(&req, msg); } static void build_clear_payload_id_table(struct drm_dp_sideband_msg_tx *msg) { struct drm_dp_sideband_msg_req_body req; req.req_type = DP_CLEAR_PAYLOAD_ID_TABLE; drm_dp_encode_sideband_req(&req, msg); msg->path_msg = true; } static int build_enum_path_resources(struct drm_dp_sideband_msg_tx *msg, int port_num) { struct drm_dp_sideband_msg_req_body req; req.req_type = DP_ENUM_PATH_RESOURCES; req.u.port_num.port_number = port_num; drm_dp_encode_sideband_req(&req, msg); msg->path_msg = true; return 0; } static void build_allocate_payload(struct drm_dp_sideband_msg_tx *msg, int port_num, u8 vcpi, uint16_t pbn, u8 number_sdp_streams, u8 *sdp_stream_sink) { struct drm_dp_sideband_msg_req_body req; memset(&req, 0, sizeof(req)); req.req_type = DP_ALLOCATE_PAYLOAD; req.u.allocate_payload.port_number = port_num; req.u.allocate_payload.vcpi = vcpi; req.u.allocate_payload.pbn = pbn; req.u.allocate_payload.number_sdp_streams = number_sdp_streams; memcpy(req.u.allocate_payload.sdp_stream_sink, sdp_stream_sink, number_sdp_streams); drm_dp_encode_sideband_req(&req, msg); msg->path_msg = true; } static void build_power_updown_phy(struct drm_dp_sideband_msg_tx *msg, int port_num, bool power_up) { struct drm_dp_sideband_msg_req_body req; if (power_up) req.req_type = DP_POWER_UP_PHY; else req.req_type = DP_POWER_DOWN_PHY; req.u.port_num.port_number = port_num; drm_dp_encode_sideband_req(&req, msg); msg->path_msg = true; } static int build_query_stream_enc_status(struct drm_dp_sideband_msg_tx *msg, u8 stream_id, u8 *q_id) { struct drm_dp_sideband_msg_req_body req; req.req_type = DP_QUERY_STREAM_ENC_STATUS; req.u.enc_status.stream_id = stream_id; memcpy(req.u.enc_status.client_id, q_id, sizeof(req.u.enc_status.client_id)); req.u.enc_status.stream_event = 0; req.u.enc_status.valid_stream_event = false; req.u.enc_status.stream_behavior = 0; req.u.enc_status.valid_stream_behavior = false; drm_dp_encode_sideband_req(&req, msg); return 0; } static bool check_txmsg_state(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_sideband_msg_tx *txmsg) { unsigned int state; /* * All updates to txmsg->state are protected by mgr->qlock, and the two * cases we check here are terminal states. For those the barriers * provided by the wake_up/wait_event pair are enough. */ state = READ_ONCE(txmsg->state); return (state == DRM_DP_SIDEBAND_TX_RX || state == DRM_DP_SIDEBAND_TX_TIMEOUT); } static int drm_dp_mst_wait_tx_reply(struct drm_dp_mst_branch *mstb, struct drm_dp_sideband_msg_tx *txmsg) { struct drm_dp_mst_topology_mgr *mgr = mstb->mgr; unsigned long wait_timeout = msecs_to_jiffies(4000); unsigned long wait_expires = jiffies + wait_timeout; int ret; for (;;) { /* * If the driver provides a way for this, change to * poll-waiting for the MST reply interrupt if we didn't receive * it for 50 msec. This would cater for cases where the HPD * pulse signal got lost somewhere, even though the sink raised * the corresponding MST interrupt correctly. One example is the * Club 3D CAC-1557 TypeC -> DP adapter which for some reason * filters out short pulses with a duration less than ~540 usec. * * The poll period is 50 msec to avoid missing an interrupt * after the sink has cleared it (after a 110msec timeout * since it raised the interrupt). */ ret = wait_event_timeout(mgr->tx_waitq, check_txmsg_state(mgr, txmsg), mgr->cbs->poll_hpd_irq ? msecs_to_jiffies(50) : wait_timeout); if (ret || !mgr->cbs->poll_hpd_irq || time_after(jiffies, wait_expires)) break; mgr->cbs->poll_hpd_irq(mgr); } mutex_lock(&mgr->qlock); if (ret > 0) { if (txmsg->state == DRM_DP_SIDEBAND_TX_TIMEOUT) { ret = -EIO; goto out; } } else { drm_dbg_kms(mgr->dev, "timedout msg send %p %d %d\n", txmsg, txmsg->state, txmsg->seqno); /* dump some state */ ret = -EIO; /* remove from q */ if (txmsg->state == DRM_DP_SIDEBAND_TX_QUEUED || txmsg->state == DRM_DP_SIDEBAND_TX_START_SEND || txmsg->state == DRM_DP_SIDEBAND_TX_SENT) list_del(&txmsg->next); } out: if (unlikely(ret == -EIO) && drm_debug_enabled(DRM_UT_DP)) { struct drm_printer p = drm_debug_printer(DBG_PREFIX); drm_dp_mst_dump_sideband_msg_tx(&p, txmsg); } mutex_unlock(&mgr->qlock); drm_dp_mst_kick_tx(mgr); return ret; } static struct drm_dp_mst_branch *drm_dp_add_mst_branch_device(u8 lct, u8 *rad) { struct drm_dp_mst_branch *mstb; mstb = kzalloc(sizeof(*mstb), GFP_KERNEL); if (!mstb) return NULL; mstb->lct = lct; if (lct > 1) memcpy(mstb->rad, rad, lct / 2); INIT_LIST_HEAD(&mstb->ports); kref_init(&mstb->topology_kref); kref_init(&mstb->malloc_kref); return mstb; } static void drm_dp_free_mst_branch_device(struct kref *kref) { struct drm_dp_mst_branch *mstb = container_of(kref, struct drm_dp_mst_branch, malloc_kref); if (mstb->port_parent) drm_dp_mst_put_port_malloc(mstb->port_parent); kfree(mstb); } /** * DOC: Branch device and port refcounting * * Topology refcount overview * ~~~~~~~~~~~~~~~~~~~~~~~~~~ * * The refcounting schemes for &struct drm_dp_mst_branch and &struct * drm_dp_mst_port are somewhat unusual. Both ports and branch devices have * two different kinds of refcounts: topology refcounts, and malloc refcounts. * * Topology refcounts are not exposed to drivers, and are handled internally * by the DP MST helpers. The helpers use them in order to prevent the * in-memory topology state from being changed in the middle of critical * operations like changing the internal state of payload allocations. This * means each branch and port will be considered to be connected to the rest * of the topology until its topology refcount reaches zero. Additionally, * for ports this means that their associated &struct drm_connector will stay * registered with userspace until the port's refcount reaches 0. * * Malloc refcount overview * ~~~~~~~~~~~~~~~~~~~~~~~~ * * Malloc references are used to keep a &struct drm_dp_mst_port or &struct * drm_dp_mst_branch allocated even after all of its topology references have * been dropped, so that the driver or MST helpers can safely access each * branch's last known state before it was disconnected from the topology. * When the malloc refcount of a port or branch reaches 0, the memory * allocation containing the &struct drm_dp_mst_branch or &struct * drm_dp_mst_port respectively will be freed. * * For &struct drm_dp_mst_branch, malloc refcounts are not currently exposed * to drivers. As of writing this documentation, there are no drivers that * have a usecase for accessing &struct drm_dp_mst_branch outside of the MST * helpers. Exposing this API to drivers in a race-free manner would take more * tweaking of the refcounting scheme, however patches are welcome provided * there is a legitimate driver usecase for this. * * Refcount relationships in a topology * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ * * Let's take a look at why the relationship between topology and malloc * refcounts is designed the way it is. * * .. kernel-figure:: dp-mst/topology-figure-1.dot * * An example of topology and malloc refs in a DP MST topology with two * active payloads. Topology refcount increments are indicated by solid * lines, and malloc refcount increments are indicated by dashed lines. * Each starts from the branch which incremented the refcount, and ends at * the branch to which the refcount belongs to, i.e. the arrow points the * same way as the C pointers used to reference a structure. * * As you can see in the above figure, every branch increments the topology * refcount of its children, and increments the malloc refcount of its * parent. Additionally, every payload increments the malloc refcount of its * assigned port by 1. * * So, what would happen if MSTB #3 from the above figure was unplugged from * the system, but the driver hadn't yet removed payload #2 from port #3? The * topology would start to look like the figure below. * * .. kernel-figure:: dp-mst/topology-figure-2.dot * * Ports and branch devices which have been released from memory are * colored grey, and references which have been removed are colored red. * * Whenever a port or branch device's topology refcount reaches zero, it will * decrement the topology refcounts of all its children, the malloc refcount * of its parent, and finally its own malloc refcount. For MSTB #4 and port * #4, this means they both have been disconnected from the topology and freed * from memory. But, because payload #2 is still holding a reference to port * #3, port #3 is removed from the topology but its &struct drm_dp_mst_port * is still accessible from memory. This also means port #3 has not yet * decremented the malloc refcount of MSTB #3, so its &struct * drm_dp_mst_branch will also stay allocated in memory until port #3's * malloc refcount reaches 0. * * This relationship is necessary because in order to release payload #2, we * need to be able to figure out the last relative of port #3 that's still * connected to the topology. In this case, we would travel up the topology as * shown below. * * .. kernel-figure:: dp-mst/topology-figure-3.dot * * And finally, remove payload #2 by communicating with port #2 through * sideband transactions. */ /** * drm_dp_mst_get_mstb_malloc() - Increment the malloc refcount of a branch * device * @mstb: The &struct drm_dp_mst_branch to increment the malloc refcount of * * Increments &drm_dp_mst_branch.malloc_kref. When * &drm_dp_mst_branch.malloc_kref reaches 0, the memory allocation for @mstb * will be released and @mstb may no longer be used. * * See also: drm_dp_mst_put_mstb_malloc() */ static void drm_dp_mst_get_mstb_malloc(struct drm_dp_mst_branch *mstb) { kref_get(&mstb->malloc_kref); drm_dbg(mstb->mgr->dev, "mstb %p (%d)\n", mstb, kref_read(&mstb->malloc_kref)); } /** * drm_dp_mst_put_mstb_malloc() - Decrement the malloc refcount of a branch * device * @mstb: The &struct drm_dp_mst_branch to decrement the malloc refcount of * * Decrements &drm_dp_mst_branch.malloc_kref. When * &drm_dp_mst_branch.malloc_kref reaches 0, the memory allocation for @mstb * will be released and @mstb may no longer be used. * * See also: drm_dp_mst_get_mstb_malloc() */ static void drm_dp_mst_put_mstb_malloc(struct drm_dp_mst_branch *mstb) { drm_dbg(mstb->mgr->dev, "mstb %p (%d)\n", mstb, kref_read(&mstb->malloc_kref) - 1); kref_put(&mstb->malloc_kref, drm_dp_free_mst_branch_device); } static void drm_dp_free_mst_port(struct kref *kref) { struct drm_dp_mst_port *port = container_of(kref, struct drm_dp_mst_port, malloc_kref); drm_dp_mst_put_mstb_malloc(port->parent); kfree(port); } /** * drm_dp_mst_get_port_malloc() - Increment the malloc refcount of an MST port * @port: The &struct drm_dp_mst_port to increment the malloc refcount of * * Increments &drm_dp_mst_port.malloc_kref. When &drm_dp_mst_port.malloc_kref * reaches 0, the memory allocation for @port will be released and @port may * no longer be used. * * Because @port could potentially be freed at any time by the DP MST helpers * if &drm_dp_mst_port.malloc_kref reaches 0, including during a call to this * function, drivers that which to make use of &struct drm_dp_mst_port should * ensure that they grab at least one main malloc reference to their MST ports * in &drm_dp_mst_topology_cbs.add_connector. This callback is called before * there is any chance for &drm_dp_mst_port.malloc_kref to reach 0. * * See also: drm_dp_mst_put_port_malloc() */ void drm_dp_mst_get_port_malloc(struct drm_dp_mst_port *port) { kref_get(&port->malloc_kref); drm_dbg(port->mgr->dev, "port %p (%d)\n", port, kref_read(&port->malloc_kref)); } EXPORT_SYMBOL(drm_dp_mst_get_port_malloc); /** * drm_dp_mst_put_port_malloc() - Decrement the malloc refcount of an MST port * @port: The &struct drm_dp_mst_port to decrement the malloc refcount of * * Decrements &drm_dp_mst_port.malloc_kref. When &drm_dp_mst_port.malloc_kref * reaches 0, the memory allocation for @port will be released and @port may * no longer be used. * * See also: drm_dp_mst_get_port_malloc() */ void drm_dp_mst_put_port_malloc(struct drm_dp_mst_port *port) { drm_dbg(port->mgr->dev, "port %p (%d)\n", port, kref_read(&port->malloc_kref) - 1); kref_put(&port->malloc_kref, drm_dp_free_mst_port); } EXPORT_SYMBOL(drm_dp_mst_put_port_malloc); #if IS_ENABLED(CONFIG_DRM_DEBUG_DP_MST_TOPOLOGY_REFS) #define STACK_DEPTH 8 static noinline void __topology_ref_save(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_topology_ref_history *history, enum drm_dp_mst_topology_ref_type type) { struct drm_dp_mst_topology_ref_entry *entry = NULL; depot_stack_handle_t backtrace; ulong stack_entries[STACK_DEPTH]; uint n; int i; n = stack_trace_save(stack_entries, ARRAY_SIZE(stack_entries), 1); backtrace = stack_depot_save(stack_entries, n, GFP_KERNEL); if (!backtrace) return; /* Try to find an existing entry for this backtrace */ for (i = 0; i < history->len; i++) { if (history->entries[i].backtrace == backtrace) { entry = &history->entries[i]; break; } } /* Otherwise add one */ if (!entry) { struct drm_dp_mst_topology_ref_entry *new; int new_len = history->len + 1; new = krealloc(history->entries, sizeof(*new) * new_len, GFP_KERNEL); if (!new) return; entry = &new[history->len]; history->len = new_len; history->entries = new; entry->backtrace = backtrace; entry->type = type; entry->count = 0; } entry->count++; entry->ts_nsec = ktime_get_ns(); } static int topology_ref_history_cmp(const void *a, const void *b) { const struct drm_dp_mst_topology_ref_entry *entry_a = a, *entry_b = b; if (entry_a->ts_nsec > entry_b->ts_nsec) return 1; else if (entry_a->ts_nsec < entry_b->ts_nsec) return -1; else return 0; } static inline const char * topology_ref_type_to_str(enum drm_dp_mst_topology_ref_type type) { if (type == DRM_DP_MST_TOPOLOGY_REF_GET) return "get"; else return "put"; } static void __dump_topology_ref_history(struct drm_dp_mst_topology_ref_history *history, void *ptr, const char *type_str) { struct drm_printer p = drm_debug_printer(DBG_PREFIX); char *buf = kzalloc(PAGE_SIZE, GFP_KERNEL); int i; if (!buf) return; if (!history->len) goto out; /* First, sort the list so that it goes from oldest to newest * reference entry */ sort(history->entries, history->len, sizeof(*history->entries), topology_ref_history_cmp, NULL); drm_printf(&p, "%s (%p) topology count reached 0, dumping history:\n", type_str, ptr); for (i = 0; i < history->len; i++) { const struct drm_dp_mst_topology_ref_entry *entry = &history->entries[i]; u64 ts_nsec = entry->ts_nsec; u32 rem_nsec = do_div(ts_nsec, 1000000000); stack_depot_snprint(entry->backtrace, buf, PAGE_SIZE, 4); drm_printf(&p, " %d %ss (last at %5llu.%06u):\n%s", entry->count, topology_ref_type_to_str(entry->type), ts_nsec, rem_nsec / 1000, buf); } /* Now free the history, since this is the only time we expose it */ kfree(history->entries); out: kfree(buf); } static __always_inline void drm_dp_mst_dump_mstb_topology_history(struct drm_dp_mst_branch *mstb) { __dump_topology_ref_history(&mstb->topology_ref_history, mstb, "MSTB"); } static __always_inline void drm_dp_mst_dump_port_topology_history(struct drm_dp_mst_port *port) { __dump_topology_ref_history(&port->topology_ref_history, port, "Port"); } static __always_inline void save_mstb_topology_ref(struct drm_dp_mst_branch *mstb, enum drm_dp_mst_topology_ref_type type) { __topology_ref_save(mstb->mgr, &mstb->topology_ref_history, type); } static __always_inline void save_port_topology_ref(struct drm_dp_mst_port *port, enum drm_dp_mst_topology_ref_type type) { __topology_ref_save(port->mgr, &port->topology_ref_history, type); } static inline void topology_ref_history_lock(struct drm_dp_mst_topology_mgr *mgr) { mutex_lock(&mgr->topology_ref_history_lock); } static inline void topology_ref_history_unlock(struct drm_dp_mst_topology_mgr *mgr) { mutex_unlock(&mgr->topology_ref_history_lock); } #else static inline void topology_ref_history_lock(struct drm_dp_mst_topology_mgr *mgr) {} static inline void topology_ref_history_unlock(struct drm_dp_mst_topology_mgr *mgr) {} static inline void drm_dp_mst_dump_mstb_topology_history(struct drm_dp_mst_branch *mstb) {} static inline void drm_dp_mst_dump_port_topology_history(struct drm_dp_mst_port *port) {} #define save_mstb_topology_ref(mstb, type) #define save_port_topology_ref(port, type) #endif struct drm_dp_mst_atomic_payload * drm_atomic_get_mst_payload_state(struct drm_dp_mst_topology_state *state, struct drm_dp_mst_port *port) { struct drm_dp_mst_atomic_payload *payload; list_for_each_entry(payload, &state->payloads, next) if (payload->port == port) return payload; return NULL; } EXPORT_SYMBOL(drm_atomic_get_mst_payload_state); static void drm_dp_destroy_mst_branch_device(struct kref *kref) { struct drm_dp_mst_branch *mstb = container_of(kref, struct drm_dp_mst_branch, topology_kref); struct drm_dp_mst_topology_mgr *mgr = mstb->mgr; drm_dp_mst_dump_mstb_topology_history(mstb); INIT_LIST_HEAD(&mstb->destroy_next); /* * This can get called under mgr->mutex, so we need to perform the * actual destruction of the mstb in another worker */ mutex_lock(&mgr->delayed_destroy_lock); list_add(&mstb->destroy_next, &mgr->destroy_branch_device_list); mutex_unlock(&mgr->delayed_destroy_lock); queue_work(mgr->delayed_destroy_wq, &mgr->delayed_destroy_work); } /** * drm_dp_mst_topology_try_get_mstb() - Increment the topology refcount of a * branch device unless it's zero * @mstb: &struct drm_dp_mst_branch to increment the topology refcount of * * Attempts to grab a topology reference to @mstb, if it hasn't yet been * removed from the topology (e.g. &drm_dp_mst_branch.topology_kref has * reached 0). Holding a topology reference implies that a malloc reference * will be held to @mstb as long as the user holds the topology reference. * * Care should be taken to ensure that the user has at least one malloc * reference to @mstb. If you already have a topology reference to @mstb, you * should use drm_dp_mst_topology_get_mstb() instead. * * See also: * drm_dp_mst_topology_get_mstb() * drm_dp_mst_topology_put_mstb() * * Returns: * * 1: A topology reference was grabbed successfully * * 0: @port is no longer in the topology, no reference was grabbed */ static int __must_check drm_dp_mst_topology_try_get_mstb(struct drm_dp_mst_branch *mstb) { int ret; topology_ref_history_lock(mstb->mgr); ret = kref_get_unless_zero(&mstb->topology_kref); if (ret) { drm_dbg(mstb->mgr->dev, "mstb %p (%d)\n", mstb, kref_read(&mstb->topology_kref)); save_mstb_topology_ref(mstb, DRM_DP_MST_TOPOLOGY_REF_GET); } topology_ref_history_unlock(mstb->mgr); return ret; } /** * drm_dp_mst_topology_get_mstb() - Increment the topology refcount of a * branch device * @mstb: The &struct drm_dp_mst_branch to increment the topology refcount of * * Increments &drm_dp_mst_branch.topology_refcount without checking whether or * not it's already reached 0. This is only valid to use in scenarios where * you are already guaranteed to have at least one active topology reference * to @mstb. Otherwise, drm_dp_mst_topology_try_get_mstb() must be used. * * See also: * drm_dp_mst_topology_try_get_mstb() * drm_dp_mst_topology_put_mstb() */ static void drm_dp_mst_topology_get_mstb(struct drm_dp_mst_branch *mstb) { topology_ref_history_lock(mstb->mgr); save_mstb_topology_ref(mstb, DRM_DP_MST_TOPOLOGY_REF_GET); WARN_ON(kref_read(&mstb->topology_kref) == 0); kref_get(&mstb->topology_kref); drm_dbg(mstb->mgr->dev, "mstb %p (%d)\n", mstb, kref_read(&mstb->topology_kref)); topology_ref_history_unlock(mstb->mgr); } /** * drm_dp_mst_topology_put_mstb() - release a topology reference to a branch * device * @mstb: The &struct drm_dp_mst_branch to release the topology reference from * * Releases a topology reference from @mstb by decrementing * &drm_dp_mst_branch.topology_kref. * * See also: * drm_dp_mst_topology_try_get_mstb() * drm_dp_mst_topology_get_mstb() */ static void drm_dp_mst_topology_put_mstb(struct drm_dp_mst_branch *mstb) { topology_ref_history_lock(mstb->mgr); drm_dbg(mstb->mgr->dev, "mstb %p (%d)\n", mstb, kref_read(&mstb->topology_kref) - 1); save_mstb_topology_ref(mstb, DRM_DP_MST_TOPOLOGY_REF_PUT); topology_ref_history_unlock(mstb->mgr); kref_put(&mstb->topology_kref, drm_dp_destroy_mst_branch_device); } static void drm_dp_destroy_port(struct kref *kref) { struct drm_dp_mst_port *port = container_of(kref, struct drm_dp_mst_port, topology_kref); struct drm_dp_mst_topology_mgr *mgr = port->mgr; drm_dp_mst_dump_port_topology_history(port); /* There's nothing that needs locking to destroy an input port yet */ if (port->input) { drm_dp_mst_put_port_malloc(port); return; } drm_edid_free(port->cached_edid); /* * we can't destroy the connector here, as we might be holding the * mode_config.mutex from an EDID retrieval */ mutex_lock(&mgr->delayed_destroy_lock); list_add(&port->next, &mgr->destroy_port_list); mutex_unlock(&mgr->delayed_destroy_lock); queue_work(mgr->delayed_destroy_wq, &mgr->delayed_destroy_work); } /** * drm_dp_mst_topology_try_get_port() - Increment the topology refcount of a * port unless it's zero * @port: &struct drm_dp_mst_port to increment the topology refcount of * * Attempts to grab a topology reference to @port, if it hasn't yet been * removed from the topology (e.g. &drm_dp_mst_port.topology_kref has reached * 0). Holding a topology reference implies that a malloc reference will be * held to @port as long as the user holds the topology reference. * * Care should be taken to ensure that the user has at least one malloc * reference to @port. If you already have a topology reference to @port, you * should use drm_dp_mst_topology_get_port() instead. * * See also: * drm_dp_mst_topology_get_port() * drm_dp_mst_topology_put_port() * * Returns: * * 1: A topology reference was grabbed successfully * * 0: @port is no longer in the topology, no reference was grabbed */ static int __must_check drm_dp_mst_topology_try_get_port(struct drm_dp_mst_port *port) { int ret; topology_ref_history_lock(port->mgr); ret = kref_get_unless_zero(&port->topology_kref); if (ret) { drm_dbg(port->mgr->dev, "port %p (%d)\n", port, kref_read(&port->topology_kref)); save_port_topology_ref(port, DRM_DP_MST_TOPOLOGY_REF_GET); } topology_ref_history_unlock(port->mgr); return ret; } /** * drm_dp_mst_topology_get_port() - Increment the topology refcount of a port * @port: The &struct drm_dp_mst_port to increment the topology refcount of * * Increments &drm_dp_mst_port.topology_refcount without checking whether or * not it's already reached 0. This is only valid to use in scenarios where * you are already guaranteed to have at least one active topology reference * to @port. Otherwise, drm_dp_mst_topology_try_get_port() must be used. * * See also: * drm_dp_mst_topology_try_get_port() * drm_dp_mst_topology_put_port() */ static void drm_dp_mst_topology_get_port(struct drm_dp_mst_port *port) { topology_ref_history_lock(port->mgr); WARN_ON(kref_read(&port->topology_kref) == 0); kref_get(&port->topology_kref); drm_dbg(port->mgr->dev, "port %p (%d)\n", port, kref_read(&port->topology_kref)); save_port_topology_ref(port, DRM_DP_MST_TOPOLOGY_REF_GET); topology_ref_history_unlock(port->mgr); } /** * drm_dp_mst_topology_put_port() - release a topology reference to a port * @port: The &struct drm_dp_mst_port to release the topology reference from * * Releases a topology reference from @port by decrementing * &drm_dp_mst_port.topology_kref. * * See also: * drm_dp_mst_topology_try_get_port() * drm_dp_mst_topology_get_port() */ static void drm_dp_mst_topology_put_port(struct drm_dp_mst_port *port) { topology_ref_history_lock(port->mgr); drm_dbg(port->mgr->dev, "port %p (%d)\n", port, kref_read(&port->topology_kref) - 1); save_port_topology_ref(port, DRM_DP_MST_TOPOLOGY_REF_PUT); topology_ref_history_unlock(port->mgr); kref_put(&port->topology_kref, drm_dp_destroy_port); } static struct drm_dp_mst_branch * drm_dp_mst_topology_get_mstb_validated_locked(struct drm_dp_mst_branch *mstb, struct drm_dp_mst_branch *to_find) { struct drm_dp_mst_port *port; struct drm_dp_mst_branch *rmstb; if (to_find == mstb) return mstb; list_for_each_entry(port, &mstb->ports, next) { if (port->mstb) { rmstb = drm_dp_mst_topology_get_mstb_validated_locked( port->mstb, to_find); if (rmstb) return rmstb; } } return NULL; } static struct drm_dp_mst_branch * drm_dp_mst_topology_get_mstb_validated(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_branch *mstb) { struct drm_dp_mst_branch *rmstb = NULL; mutex_lock(&mgr->lock); if (mgr->mst_primary) { rmstb = drm_dp_mst_topology_get_mstb_validated_locked( mgr->mst_primary, mstb); if (rmstb && !drm_dp_mst_topology_try_get_mstb(rmstb)) rmstb = NULL; } mutex_unlock(&mgr->lock); return rmstb; } static struct drm_dp_mst_port * drm_dp_mst_topology_get_port_validated_locked(struct drm_dp_mst_branch *mstb, struct drm_dp_mst_port *to_find) { struct drm_dp_mst_port *port, *mport; list_for_each_entry(port, &mstb->ports, next) { if (port == to_find) return port; if (port->mstb) { mport = drm_dp_mst_topology_get_port_validated_locked( port->mstb, to_find); if (mport) return mport; } } return NULL; } static struct drm_dp_mst_port * drm_dp_mst_topology_get_port_validated(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port) { struct drm_dp_mst_port *rport = NULL; mutex_lock(&mgr->lock); if (mgr->mst_primary) { rport = drm_dp_mst_topology_get_port_validated_locked( mgr->mst_primary, port); if (rport && !drm_dp_mst_topology_try_get_port(rport)) rport = NULL; } mutex_unlock(&mgr->lock); return rport; } static struct drm_dp_mst_port *drm_dp_get_port(struct drm_dp_mst_branch *mstb, u8 port_num) { struct drm_dp_mst_port *port; int ret; list_for_each_entry(port, &mstb->ports, next) { if (port->port_num == port_num) { ret = drm_dp_mst_topology_try_get_port(port); return ret ? port : NULL; } } return NULL; } /* * calculate a new RAD for this MST branch device * if parent has an LCT of 2 then it has 1 nibble of RAD, * if parent has an LCT of 3 then it has 2 nibbles of RAD, */ static u8 drm_dp_calculate_rad(struct drm_dp_mst_port *port, u8 *rad) { int parent_lct = port->parent->lct; int shift = 4; int idx = (parent_lct - 1) / 2; if (parent_lct > 1) { memcpy(rad, port->parent->rad, idx + 1); shift = (parent_lct % 2) ? 4 : 0; } else rad[0] = 0; rad[idx] |= port->port_num << shift; return parent_lct + 1; } static bool drm_dp_mst_is_end_device(u8 pdt, bool mcs) { switch (pdt) { case DP_PEER_DEVICE_DP_LEGACY_CONV: case DP_PEER_DEVICE_SST_SINK: return true; case DP_PEER_DEVICE_MST_BRANCHING: /* For sst branch device */ if (!mcs) return true; return false; } return true; } static int drm_dp_port_set_pdt(struct drm_dp_mst_port *port, u8 new_pdt, bool new_mcs) { struct drm_dp_mst_topology_mgr *mgr = port->mgr; struct drm_dp_mst_branch *mstb; u8 rad[8], lct; int ret = 0; if (port->pdt == new_pdt && port->mcs == new_mcs) return 0; /* Teardown the old pdt, if there is one */ if (port->pdt != DP_PEER_DEVICE_NONE) { if (drm_dp_mst_is_end_device(port->pdt, port->mcs)) { /* * If the new PDT would also have an i2c bus, * don't bother with reregistering it */ if (new_pdt != DP_PEER_DEVICE_NONE && drm_dp_mst_is_end_device(new_pdt, new_mcs)) { port->pdt = new_pdt; port->mcs = new_mcs; return 0; } /* remove i2c over sideband */ drm_dp_mst_unregister_i2c_bus(port); } else { mutex_lock(&mgr->lock); drm_dp_mst_topology_put_mstb(port->mstb); port->mstb = NULL; mutex_unlock(&mgr->lock); } } port->pdt = new_pdt; port->mcs = new_mcs; if (port->pdt != DP_PEER_DEVICE_NONE) { if (drm_dp_mst_is_end_device(port->pdt, port->mcs)) { /* add i2c over sideband */ ret = drm_dp_mst_register_i2c_bus(port); } else { lct = drm_dp_calculate_rad(port, rad); mstb = drm_dp_add_mst_branch_device(lct, rad); if (!mstb) { ret = -ENOMEM; drm_err(mgr->dev, "Failed to create MSTB for port %p", port); goto out; } mutex_lock(&mgr->lock); port->mstb = mstb; mstb->mgr = port->mgr; mstb->port_parent = port; /* * Make sure this port's memory allocation stays * around until its child MSTB releases it */ drm_dp_mst_get_port_malloc(port); mutex_unlock(&mgr->lock); /* And make sure we send a link address for this */ ret = 1; } } out: if (ret < 0) port->pdt = DP_PEER_DEVICE_NONE; return ret; } /** * drm_dp_mst_dpcd_read() - read a series of bytes from the DPCD via sideband * @aux: Fake sideband AUX CH * @offset: address of the (first) register to read * @buffer: buffer to store the register values * @size: number of bytes in @buffer * * Performs the same functionality for remote devices via * sideband messaging as drm_dp_dpcd_read() does for local * devices via actual AUX CH. * * Return: Number of bytes read, or negative error code on failure. */ ssize_t drm_dp_mst_dpcd_read(struct drm_dp_aux *aux, unsigned int offset, void *buffer, size_t size) { struct drm_dp_mst_port *port = container_of(aux, struct drm_dp_mst_port, aux); return drm_dp_send_dpcd_read(port->mgr, port, offset, size, buffer); } /** * drm_dp_mst_dpcd_write() - write a series of bytes to the DPCD via sideband * @aux: Fake sideband AUX CH * @offset: address of the (first) register to write * @buffer: buffer containing the values to write * @size: number of bytes in @buffer * * Performs the same functionality for remote devices via * sideband messaging as drm_dp_dpcd_write() does for local * devices via actual AUX CH. * * Return: number of bytes written on success, negative error code on failure. */ ssize_t drm_dp_mst_dpcd_write(struct drm_dp_aux *aux, unsigned int offset, void *buffer, size_t size) { struct drm_dp_mst_port *port = container_of(aux, struct drm_dp_mst_port, aux); return drm_dp_send_dpcd_write(port->mgr, port, offset, size, buffer); } static int drm_dp_check_mstb_guid(struct drm_dp_mst_branch *mstb, u8 *guid) { int ret = 0; memcpy(mstb->guid, guid, 16); if (!drm_dp_validate_guid(mstb->mgr, mstb->guid)) { if (mstb->port_parent) { ret = drm_dp_send_dpcd_write(mstb->mgr, mstb->port_parent, DP_GUID, 16, mstb->guid); } else { ret = drm_dp_dpcd_write(mstb->mgr->aux, DP_GUID, mstb->guid, 16); } } if (ret < 16 && ret > 0) return -EPROTO; return ret == 16 ? 0 : ret; } static void build_mst_prop_path(const struct drm_dp_mst_branch *mstb, int pnum, char *proppath, size_t proppath_size) { int i; char temp[8]; snprintf(proppath, proppath_size, "mst:%d", mstb->mgr->conn_base_id); for (i = 0; i < (mstb->lct - 1); i++) { int shift = (i % 2) ? 0 : 4; int port_num = (mstb->rad[i / 2] >> shift) & 0xf; snprintf(temp, sizeof(temp), "-%d", port_num); strlcat(proppath, temp, proppath_size); } snprintf(temp, sizeof(temp), "-%d", pnum); strlcat(proppath, temp, proppath_size); } /** * drm_dp_mst_connector_late_register() - Late MST connector registration * @connector: The MST connector * @port: The MST port for this connector * * Helper to register the remote aux device for this MST port. Drivers should * call this from their mst connector's late_register hook to enable MST aux * devices. * * Return: 0 on success, negative error code on failure. */ int drm_dp_mst_connector_late_register(struct drm_connector *connector, struct drm_dp_mst_port *port) { drm_dbg_kms(port->mgr->dev, "registering %s remote bus for %s\n", port->aux.name, connector->kdev->kobj.name); port->aux.dev = connector->kdev; return drm_dp_aux_register_devnode(&port->aux); } EXPORT_SYMBOL(drm_dp_mst_connector_late_register); /** * drm_dp_mst_connector_early_unregister() - Early MST connector unregistration * @connector: The MST connector * @port: The MST port for this connector * * Helper to unregister the remote aux device for this MST port, registered by * drm_dp_mst_connector_late_register(). Drivers should call this from their mst * connector's early_unregister hook. */ void drm_dp_mst_connector_early_unregister(struct drm_connector *connector, struct drm_dp_mst_port *port) { drm_dbg_kms(port->mgr->dev, "unregistering %s remote bus for %s\n", port->aux.name, connector->kdev->kobj.name); drm_dp_aux_unregister_devnode(&port->aux); } EXPORT_SYMBOL(drm_dp_mst_connector_early_unregister); static void drm_dp_mst_port_add_connector(struct drm_dp_mst_branch *mstb, struct drm_dp_mst_port *port) { struct drm_dp_mst_topology_mgr *mgr = port->mgr; char proppath[255]; int ret; build_mst_prop_path(mstb, port->port_num, proppath, sizeof(proppath)); port->connector = mgr->cbs->add_connector(mgr, port, proppath); if (!port->connector) { ret = -ENOMEM; goto error; } if (port->pdt != DP_PEER_DEVICE_NONE && drm_dp_mst_is_end_device(port->pdt, port->mcs) && port->port_num >= DP_MST_LOGICAL_PORT_0) port->cached_edid = drm_edid_read_ddc(port->connector, &port->aux.ddc); drm_connector_register(port->connector); return; error: drm_err(mgr->dev, "Failed to create connector for port %p: %d\n", port, ret); } /* * Drop a topology reference, and unlink the port from the in-memory topology * layout */ static void drm_dp_mst_topology_unlink_port(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port) { mutex_lock(&mgr->lock); port->parent->num_ports--; list_del(&port->next); mutex_unlock(&mgr->lock); drm_dp_mst_topology_put_port(port); } static struct drm_dp_mst_port * drm_dp_mst_add_port(struct drm_device *dev, struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_branch *mstb, u8 port_number) { struct drm_dp_mst_port *port = kzalloc(sizeof(*port), GFP_KERNEL); if (!port) return NULL; kref_init(&port->topology_kref); kref_init(&port->malloc_kref); port->parent = mstb; port->port_num = port_number; port->mgr = mgr; port->aux.name = "DPMST"; port->aux.dev = dev->dev; port->aux.is_remote = true; /* initialize the MST downstream port's AUX crc work queue */ port->aux.drm_dev = dev; drm_dp_remote_aux_init(&port->aux); /* * Make sure the memory allocation for our parent branch stays * around until our own memory allocation is released */ drm_dp_mst_get_mstb_malloc(mstb); return port; } static int drm_dp_mst_handle_link_address_port(struct drm_dp_mst_branch *mstb, struct drm_device *dev, struct drm_dp_link_addr_reply_port *port_msg) { struct drm_dp_mst_topology_mgr *mgr = mstb->mgr; struct drm_dp_mst_port *port; int old_ddps = 0, ret; u8 new_pdt = DP_PEER_DEVICE_NONE; bool new_mcs = 0; bool created = false, send_link_addr = false, changed = false; port = drm_dp_get_port(mstb, port_msg->port_number); if (!port) { port = drm_dp_mst_add_port(dev, mgr, mstb, port_msg->port_number); if (!port) return -ENOMEM; created = true; changed = true; } else if (!port->input && port_msg->input_port && port->connector) { /* Since port->connector can't be changed here, we create a * new port if input_port changes from 0 to 1 */ drm_dp_mst_topology_unlink_port(mgr, port); drm_dp_mst_topology_put_port(port); port = drm_dp_mst_add_port(dev, mgr, mstb, port_msg->port_number); if (!port) return -ENOMEM; changed = true; created = true; } else if (port->input && !port_msg->input_port) { changed = true; } else if (port->connector) { /* We're updating a port that's exposed to userspace, so do it * under lock */ drm_modeset_lock(&mgr->base.lock, NULL); old_ddps = port->ddps; changed = port->ddps != port_msg->ddps || (port->ddps && (port->ldps != port_msg->legacy_device_plug_status || port->dpcd_rev != port_msg->dpcd_revision || port->mcs != port_msg->mcs || port->pdt != port_msg->peer_device_type || port->num_sdp_stream_sinks != port_msg->num_sdp_stream_sinks)); } port->input = port_msg->input_port; if (!port->input) new_pdt = port_msg->peer_device_type; new_mcs = port_msg->mcs; port->ddps = port_msg->ddps; port->ldps = port_msg->legacy_device_plug_status; port->dpcd_rev = port_msg->dpcd_revision; port->num_sdp_streams = port_msg->num_sdp_streams; port->num_sdp_stream_sinks = port_msg->num_sdp_stream_sinks; /* manage mstb port lists with mgr lock - take a reference for this list */ if (created) { mutex_lock(&mgr->lock); drm_dp_mst_topology_get_port(port); list_add(&port->next, &mstb->ports); mstb->num_ports++; mutex_unlock(&mgr->lock); } /* * Reprobe PBN caps on both hotplug, and when re-probing the link * for our parent mstb */ if (old_ddps != port->ddps || !created) { if (port->ddps && !port->input) { ret = drm_dp_send_enum_path_resources(mgr, mstb, port); if (ret == 1) changed = true; } else { port->full_pbn = 0; } } ret = drm_dp_port_set_pdt(port, new_pdt, new_mcs); if (ret == 1) { send_link_addr = true; } else if (ret < 0) { drm_err(dev, "Failed to change PDT on port %p: %d\n", port, ret); goto fail; } /* * If this port wasn't just created, then we're reprobing because * we're coming out of suspend. In this case, always resend the link * address if there's an MSTB on this port */ if (!created && port->pdt == DP_PEER_DEVICE_MST_BRANCHING && port->mcs) send_link_addr = true; if (port->connector) drm_modeset_unlock(&mgr->base.lock); else if (!port->input) drm_dp_mst_port_add_connector(mstb, port); if (send_link_addr && port->mstb) { ret = drm_dp_send_link_address(mgr, port->mstb); if (ret == 1) /* MSTB below us changed */ changed = true; else if (ret < 0) goto fail_put; } /* put reference to this port */ drm_dp_mst_topology_put_port(port); return changed; fail: drm_dp_mst_topology_unlink_port(mgr, port); if (port->connector) drm_modeset_unlock(&mgr->base.lock); fail_put: drm_dp_mst_topology_put_port(port); return ret; } static int drm_dp_mst_handle_conn_stat(struct drm_dp_mst_branch *mstb, struct drm_dp_connection_status_notify *conn_stat) { struct drm_dp_mst_topology_mgr *mgr = mstb->mgr; struct drm_dp_mst_port *port; int old_ddps, ret; u8 new_pdt; bool new_mcs; bool dowork = false, create_connector = false; port = drm_dp_get_port(mstb, conn_stat->port_number); if (!port) return 0; if (port->connector) { if (!port->input && conn_stat->input_port) { /* * We can't remove a connector from an already exposed * port, so just throw the port out and make sure we * reprobe the link address of it's parent MSTB */ drm_dp_mst_topology_unlink_port(mgr, port); mstb->link_address_sent = false; dowork = true; goto out; } /* Locking is only needed if the port's exposed to userspace */ drm_modeset_lock(&mgr->base.lock, NULL); } else if (port->input && !conn_stat->input_port) { create_connector = true; /* Reprobe link address so we get num_sdp_streams */ mstb->link_address_sent = false; dowork = true; } old_ddps = port->ddps; port->input = conn_stat->input_port; port->ldps = conn_stat->legacy_device_plug_status; port->ddps = conn_stat->displayport_device_plug_status; if (old_ddps != port->ddps) { if (port->ddps && !port->input) drm_dp_send_enum_path_resources(mgr, mstb, port); else port->full_pbn = 0; } new_pdt = port->input ? DP_PEER_DEVICE_NONE : conn_stat->peer_device_type; new_mcs = conn_stat->message_capability_status; ret = drm_dp_port_set_pdt(port, new_pdt, new_mcs); if (ret == 1) { dowork = true; } else if (ret < 0) { drm_err(mgr->dev, "Failed to change PDT for port %p: %d\n", port, ret); dowork = false; } if (port->connector) drm_modeset_unlock(&mgr->base.lock); else if (create_connector) drm_dp_mst_port_add_connector(mstb, port); out: drm_dp_mst_topology_put_port(port); return dowork; } static struct drm_dp_mst_branch *drm_dp_get_mst_branch_device(struct drm_dp_mst_topology_mgr *mgr, u8 lct, u8 *rad) { struct drm_dp_mst_branch *mstb; struct drm_dp_mst_port *port; int i, ret; /* find the port by iterating down */ mutex_lock(&mgr->lock); mstb = mgr->mst_primary; if (!mstb) goto out; for (i = 0; i < lct - 1; i++) { int shift = (i % 2) ? 0 : 4; int port_num = (rad[i / 2] >> shift) & 0xf; list_for_each_entry(port, &mstb->ports, next) { if (port->port_num == port_num) { mstb = port->mstb; if (!mstb) { drm_err(mgr->dev, "failed to lookup MSTB with lct %d, rad %02x\n", lct, rad[0]); goto out; } break; } } } ret = drm_dp_mst_topology_try_get_mstb(mstb); if (!ret) mstb = NULL; out: mutex_unlock(&mgr->lock); return mstb; } static struct drm_dp_mst_branch *get_mst_branch_device_by_guid_helper( struct drm_dp_mst_branch *mstb, const uint8_t *guid) { struct drm_dp_mst_branch *found_mstb; struct drm_dp_mst_port *port; if (!mstb) return NULL; if (memcmp(mstb->guid, guid, 16) == 0) return mstb; list_for_each_entry(port, &mstb->ports, next) { found_mstb = get_mst_branch_device_by_guid_helper(port->mstb, guid); if (found_mstb) return found_mstb; } return NULL; } static struct drm_dp_mst_branch * drm_dp_get_mst_branch_device_by_guid(struct drm_dp_mst_topology_mgr *mgr, const uint8_t *guid) { struct drm_dp_mst_branch *mstb; int ret; /* find the port by iterating down */ mutex_lock(&mgr->lock); mstb = get_mst_branch_device_by_guid_helper(mgr->mst_primary, guid); if (mstb) { ret = drm_dp_mst_topology_try_get_mstb(mstb); if (!ret) mstb = NULL; } mutex_unlock(&mgr->lock); return mstb; } static int drm_dp_check_and_send_link_address(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_branch *mstb) { struct drm_dp_mst_port *port; int ret; bool changed = false; if (!mstb->link_address_sent) { ret = drm_dp_send_link_address(mgr, mstb); if (ret == 1) changed = true; else if (ret < 0) return ret; } list_for_each_entry(port, &mstb->ports, next) { if (port->input || !port->ddps || !port->mstb) continue; ret = drm_dp_check_and_send_link_address(mgr, port->mstb); if (ret == 1) changed = true; else if (ret < 0) return ret; } return changed; } static void drm_dp_mst_link_probe_work(struct work_struct *work) { struct drm_dp_mst_topology_mgr *mgr = container_of(work, struct drm_dp_mst_topology_mgr, work); struct drm_device *dev = mgr->dev; struct drm_dp_mst_branch *mstb; int ret; bool clear_payload_id_table; mutex_lock(&mgr->probe_lock); mutex_lock(&mgr->lock); clear_payload_id_table = !mgr->payload_id_table_cleared; mgr->payload_id_table_cleared = true; mstb = mgr->mst_primary; if (mstb) { ret = drm_dp_mst_topology_try_get_mstb(mstb); if (!ret) mstb = NULL; } mutex_unlock(&mgr->lock); if (!mstb) { mutex_unlock(&mgr->probe_lock); return; } /* * Certain branch devices seem to incorrectly report an available_pbn * of 0 on downstream sinks, even after clearing the * DP_PAYLOAD_ALLOCATE_* registers in * drm_dp_mst_topology_mgr_set_mst(). Namely, the CableMatters USB-C * 2x DP hub. Sending a CLEAR_PAYLOAD_ID_TABLE message seems to make * things work again. */ if (clear_payload_id_table) { drm_dbg_kms(dev, "Clearing payload ID table\n"); drm_dp_send_clear_payload_id_table(mgr, mstb); } ret = drm_dp_check_and_send_link_address(mgr, mstb); drm_dp_mst_topology_put_mstb(mstb); mutex_unlock(&mgr->probe_lock); if (ret > 0) drm_kms_helper_hotplug_event(dev); } static bool drm_dp_validate_guid(struct drm_dp_mst_topology_mgr *mgr, u8 *guid) { u64 salt; if (memchr_inv(guid, 0, 16)) return true; salt = get_jiffies_64(); memcpy(&guid[0], &salt, sizeof(u64)); memcpy(&guid[8], &salt, sizeof(u64)); return false; } static void build_dpcd_read(struct drm_dp_sideband_msg_tx *msg, u8 port_num, u32 offset, u8 num_bytes) { struct drm_dp_sideband_msg_req_body req; req.req_type = DP_REMOTE_DPCD_READ; req.u.dpcd_read.port_number = port_num; req.u.dpcd_read.dpcd_address = offset; req.u.dpcd_read.num_bytes = num_bytes; drm_dp_encode_sideband_req(&req, msg); } static int drm_dp_send_sideband_msg(struct drm_dp_mst_topology_mgr *mgr, bool up, u8 *msg, int len) { int ret; int regbase = up ? DP_SIDEBAND_MSG_UP_REP_BASE : DP_SIDEBAND_MSG_DOWN_REQ_BASE; int tosend, total, offset; int retries = 0; retry: total = len; offset = 0; do { tosend = min3(mgr->max_dpcd_transaction_bytes, 16, total); ret = drm_dp_dpcd_write(mgr->aux, regbase + offset, &msg[offset], tosend); if (ret != tosend) { if (ret == -EIO && retries < 5) { retries++; goto retry; } drm_dbg_kms(mgr->dev, "failed to dpcd write %d %d\n", tosend, ret); return -EIO; } offset += tosend; total -= tosend; } while (total > 0); return 0; } static int set_hdr_from_dst_qlock(struct drm_dp_sideband_msg_hdr *hdr, struct drm_dp_sideband_msg_tx *txmsg) { struct drm_dp_mst_branch *mstb = txmsg->dst; u8 req_type; req_type = txmsg->msg[0] & 0x7f; if (req_type == DP_CONNECTION_STATUS_NOTIFY || req_type == DP_RESOURCE_STATUS_NOTIFY || req_type == DP_CLEAR_PAYLOAD_ID_TABLE) hdr->broadcast = 1; else hdr->broadcast = 0; hdr->path_msg = txmsg->path_msg; if (hdr->broadcast) { hdr->lct = 1; hdr->lcr = 6; } else { hdr->lct = mstb->lct; hdr->lcr = mstb->lct - 1; } memcpy(hdr->rad, mstb->rad, hdr->lct / 2); return 0; } /* * process a single block of the next message in the sideband queue */ static int process_single_tx_qlock(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_sideband_msg_tx *txmsg, bool up) { u8 chunk[48]; struct drm_dp_sideband_msg_hdr hdr; int len, space, idx, tosend; int ret; if (txmsg->state == DRM_DP_SIDEBAND_TX_SENT) return 0; memset(&hdr, 0, sizeof(struct drm_dp_sideband_msg_hdr)); if (txmsg->state == DRM_DP_SIDEBAND_TX_QUEUED) txmsg->state = DRM_DP_SIDEBAND_TX_START_SEND; /* make hdr from dst mst */ ret = set_hdr_from_dst_qlock(&hdr, txmsg); if (ret < 0) return ret; /* amount left to send in this message */ len = txmsg->cur_len - txmsg->cur_offset; /* 48 - sideband msg size - 1 byte for data CRC, x header bytes */ space = 48 - 1 - drm_dp_calc_sb_hdr_size(&hdr); tosend = min(len, space); if (len == txmsg->cur_len) hdr.somt = 1; if (space >= len) hdr.eomt = 1; hdr.msg_len = tosend + 1; drm_dp_encode_sideband_msg_hdr(&hdr, chunk, &idx); memcpy(&chunk[idx], &txmsg->msg[txmsg->cur_offset], tosend); /* add crc at end */ drm_dp_crc_sideband_chunk_req(&chunk[idx], tosend); idx += tosend + 1; ret = drm_dp_send_sideband_msg(mgr, up, chunk, idx); if (ret) { if (drm_debug_enabled(DRM_UT_DP)) { struct drm_printer p = drm_debug_printer(DBG_PREFIX); drm_printf(&p, "sideband msg failed to send\n"); drm_dp_mst_dump_sideband_msg_tx(&p, txmsg); } return ret; } txmsg->cur_offset += tosend; if (txmsg->cur_offset == txmsg->cur_len) { txmsg->state = DRM_DP_SIDEBAND_TX_SENT; return 1; } return 0; } static void process_single_down_tx_qlock(struct drm_dp_mst_topology_mgr *mgr) { struct drm_dp_sideband_msg_tx *txmsg; int ret; WARN_ON(!mutex_is_locked(&mgr->qlock)); /* construct a chunk from the first msg in the tx_msg queue */ if (list_empty(&mgr->tx_msg_downq)) return; txmsg = list_first_entry(&mgr->tx_msg_downq, struct drm_dp_sideband_msg_tx, next); ret = process_single_tx_qlock(mgr, txmsg, false); if (ret < 0) { drm_dbg_kms(mgr->dev, "failed to send msg in q %d\n", ret); list_del(&txmsg->next); txmsg->state = DRM_DP_SIDEBAND_TX_TIMEOUT; wake_up_all(&mgr->tx_waitq); } } static void drm_dp_queue_down_tx(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_sideband_msg_tx *txmsg) { mutex_lock(&mgr->qlock); list_add_tail(&txmsg->next, &mgr->tx_msg_downq); if (drm_debug_enabled(DRM_UT_DP)) { struct drm_printer p = drm_debug_printer(DBG_PREFIX); drm_dp_mst_dump_sideband_msg_tx(&p, txmsg); } if (list_is_singular(&mgr->tx_msg_downq)) process_single_down_tx_qlock(mgr); mutex_unlock(&mgr->qlock); } static void drm_dp_dump_link_address(const struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_link_address_ack_reply *reply) { struct drm_dp_link_addr_reply_port *port_reply; int i; for (i = 0; i < reply->nports; i++) { port_reply = &reply->ports[i]; drm_dbg_kms(mgr->dev, "port %d: input %d, pdt: %d, pn: %d, dpcd_rev: %02x, mcs: %d, ddps: %d, ldps %d, sdp %d/%d\n", i, port_reply->input_port, port_reply->peer_device_type, port_reply->port_number, port_reply->dpcd_revision, port_reply->mcs, port_reply->ddps, port_reply->legacy_device_plug_status, port_reply->num_sdp_streams, port_reply->num_sdp_stream_sinks); } } static int drm_dp_send_link_address(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_branch *mstb) { struct drm_dp_sideband_msg_tx *txmsg; struct drm_dp_link_address_ack_reply *reply; struct drm_dp_mst_port *port, *tmp; int i, ret, port_mask = 0; bool changed = false; txmsg = kzalloc(sizeof(*txmsg), GFP_KERNEL); if (!txmsg) return -ENOMEM; txmsg->dst = mstb; build_link_address(txmsg); mstb->link_address_sent = true; drm_dp_queue_down_tx(mgr, txmsg); /* FIXME: Actually do some real error handling here */ ret = drm_dp_mst_wait_tx_reply(mstb, txmsg); if (ret <= 0) { drm_err(mgr->dev, "Sending link address failed with %d\n", ret); goto out; } if (txmsg->reply.reply_type == DP_SIDEBAND_REPLY_NAK) { drm_err(mgr->dev, "link address NAK received\n"); ret = -EIO; goto out; } reply = &txmsg->reply.u.link_addr; drm_dbg_kms(mgr->dev, "link address reply: %d\n", reply->nports); drm_dp_dump_link_address(mgr, reply); ret = drm_dp_check_mstb_guid(mstb, reply->guid); if (ret) { char buf[64]; drm_dp_mst_rad_to_str(mstb->rad, mstb->lct, buf, sizeof(buf)); drm_err(mgr->dev, "GUID check on %s failed: %d\n", buf, ret); goto out; } for (i = 0; i < reply->nports; i++) { port_mask |= BIT(reply->ports[i].port_number); ret = drm_dp_mst_handle_link_address_port(mstb, mgr->dev, &reply->ports[i]); if (ret == 1) changed = true; else if (ret < 0) goto out; } /* Prune any ports that are currently a part of mstb in our in-memory * topology, but were not seen in this link address. Usually this * means that they were removed while the topology was out of sync, * e.g. during suspend/resume */ mutex_lock(&mgr->lock); list_for_each_entry_safe(port, tmp, &mstb->ports, next) { if (port_mask & BIT(port->port_num)) continue; drm_dbg_kms(mgr->dev, "port %d was not in link address, removing\n", port->port_num); list_del(&port->next); drm_dp_mst_topology_put_port(port); changed = true; } mutex_unlock(&mgr->lock); out: if (ret <= 0) mstb->link_address_sent = false; kfree(txmsg); return ret < 0 ? ret : changed; } static void drm_dp_send_clear_payload_id_table(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_branch *mstb) { struct drm_dp_sideband_msg_tx *txmsg; int ret; txmsg = kzalloc(sizeof(*txmsg), GFP_KERNEL); if (!txmsg) return; txmsg->dst = mstb; build_clear_payload_id_table(txmsg); drm_dp_queue_down_tx(mgr, txmsg); ret = drm_dp_mst_wait_tx_reply(mstb, txmsg); if (ret > 0 && txmsg->reply.reply_type == DP_SIDEBAND_REPLY_NAK) drm_dbg_kms(mgr->dev, "clear payload table id nak received\n"); kfree(txmsg); } static int drm_dp_send_enum_path_resources(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_branch *mstb, struct drm_dp_mst_port *port) { struct drm_dp_enum_path_resources_ack_reply *path_res; struct drm_dp_sideband_msg_tx *txmsg; int ret; txmsg = kzalloc(sizeof(*txmsg), GFP_KERNEL); if (!txmsg) return -ENOMEM; txmsg->dst = mstb; build_enum_path_resources(txmsg, port->port_num); drm_dp_queue_down_tx(mgr, txmsg); ret = drm_dp_mst_wait_tx_reply(mstb, txmsg); if (ret > 0) { ret = 0; path_res = &txmsg->reply.u.path_resources; if (txmsg->reply.reply_type == DP_SIDEBAND_REPLY_NAK) { drm_dbg_kms(mgr->dev, "enum path resources nak received\n"); } else { if (port->port_num != path_res->port_number) DRM_ERROR("got incorrect port in response\n"); drm_dbg_kms(mgr->dev, "enum path resources %d: %d %d\n", path_res->port_number, path_res->full_payload_bw_number, path_res->avail_payload_bw_number); /* * If something changed, make sure we send a * hotplug */ if (port->full_pbn != path_res->full_payload_bw_number || port->fec_capable != path_res->fec_capable) ret = 1; port->full_pbn = path_res->full_payload_bw_number; port->fec_capable = path_res->fec_capable; } } kfree(txmsg); return ret; } static struct drm_dp_mst_port *drm_dp_get_last_connected_port_to_mstb(struct drm_dp_mst_branch *mstb) { if (!mstb->port_parent) return NULL; if (mstb->port_parent->mstb != mstb) return mstb->port_parent; return drm_dp_get_last_connected_port_to_mstb(mstb->port_parent->parent); } /* * Searches upwards in the topology starting from mstb to try to find the * closest available parent of mstb that's still connected to the rest of the * topology. This can be used in order to perform operations like releasing * payloads, where the branch device which owned the payload may no longer be * around and thus would require that the payload on the last living relative * be freed instead. */ static struct drm_dp_mst_branch * drm_dp_get_last_connected_port_and_mstb(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_branch *mstb, int *port_num) { struct drm_dp_mst_branch *rmstb = NULL; struct drm_dp_mst_port *found_port; mutex_lock(&mgr->lock); if (!mgr->mst_primary) goto out; do { found_port = drm_dp_get_last_connected_port_to_mstb(mstb); if (!found_port) break; if (drm_dp_mst_topology_try_get_mstb(found_port->parent)) { rmstb = found_port->parent; *port_num = found_port->port_num; } else { /* Search again, starting from this parent */ mstb = found_port->parent; } } while (!rmstb); out: mutex_unlock(&mgr->lock); return rmstb; } static int drm_dp_payload_send_msg(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port, int id, int pbn) { struct drm_dp_sideband_msg_tx *txmsg; struct drm_dp_mst_branch *mstb; int ret, port_num; u8 sinks[DRM_DP_MAX_SDP_STREAMS]; int i; port_num = port->port_num; mstb = drm_dp_mst_topology_get_mstb_validated(mgr, port->parent); if (!mstb) { mstb = drm_dp_get_last_connected_port_and_mstb(mgr, port->parent, &port_num); if (!mstb) return -EINVAL; } txmsg = kzalloc(sizeof(*txmsg), GFP_KERNEL); if (!txmsg) { ret = -ENOMEM; goto fail_put; } for (i = 0; i < port->num_sdp_streams; i++) sinks[i] = i; txmsg->dst = mstb; build_allocate_payload(txmsg, port_num, id, pbn, port->num_sdp_streams, sinks); drm_dp_queue_down_tx(mgr, txmsg); /* * FIXME: there is a small chance that between getting the last * connected mstb and sending the payload message, the last connected * mstb could also be removed from the topology. In the future, this * needs to be fixed by restarting the * drm_dp_get_last_connected_port_and_mstb() search in the event of a * timeout if the topology is still connected to the system. */ ret = drm_dp_mst_wait_tx_reply(mstb, txmsg); if (ret > 0) { if (txmsg->reply.reply_type == DP_SIDEBAND_REPLY_NAK) ret = -EINVAL; else ret = 0; } kfree(txmsg); fail_put: drm_dp_mst_topology_put_mstb(mstb); return ret; } int drm_dp_send_power_updown_phy(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port, bool power_up) { struct drm_dp_sideband_msg_tx *txmsg; int ret; port = drm_dp_mst_topology_get_port_validated(mgr, port); if (!port) return -EINVAL; txmsg = kzalloc(sizeof(*txmsg), GFP_KERNEL); if (!txmsg) { drm_dp_mst_topology_put_port(port); return -ENOMEM; } txmsg->dst = port->parent; build_power_updown_phy(txmsg, port->port_num, power_up); drm_dp_queue_down_tx(mgr, txmsg); ret = drm_dp_mst_wait_tx_reply(port->parent, txmsg); if (ret > 0) { if (txmsg->reply.reply_type == DP_SIDEBAND_REPLY_NAK) ret = -EINVAL; else ret = 0; } kfree(txmsg); drm_dp_mst_topology_put_port(port); return ret; } EXPORT_SYMBOL(drm_dp_send_power_updown_phy); int drm_dp_send_query_stream_enc_status(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port, struct drm_dp_query_stream_enc_status_ack_reply *status) { struct drm_dp_mst_topology_state *state; struct drm_dp_mst_atomic_payload *payload; struct drm_dp_sideband_msg_tx *txmsg; u8 nonce[7]; int ret; txmsg = kzalloc(sizeof(*txmsg), GFP_KERNEL); if (!txmsg) return -ENOMEM; port = drm_dp_mst_topology_get_port_validated(mgr, port); if (!port) { ret = -EINVAL; goto out_get_port; } get_random_bytes(nonce, sizeof(nonce)); drm_modeset_lock(&mgr->base.lock, NULL); state = to_drm_dp_mst_topology_state(mgr->base.state); payload = drm_atomic_get_mst_payload_state(state, port); /* * "Source device targets the QUERY_STREAM_ENCRYPTION_STATUS message * transaction at the MST Branch device directly connected to the * Source" */ txmsg->dst = mgr->mst_primary; build_query_stream_enc_status(txmsg, payload->vcpi, nonce); drm_dp_queue_down_tx(mgr, txmsg); ret = drm_dp_mst_wait_tx_reply(mgr->mst_primary, txmsg); if (ret < 0) { goto out; } else if (txmsg->reply.reply_type == DP_SIDEBAND_REPLY_NAK) { drm_dbg_kms(mgr->dev, "query encryption status nak received\n"); ret = -ENXIO; goto out; } ret = 0; memcpy(status, &txmsg->reply.u.enc_status, sizeof(*status)); out: drm_modeset_unlock(&mgr->base.lock); drm_dp_mst_topology_put_port(port); out_get_port: kfree(txmsg); return ret; } EXPORT_SYMBOL(drm_dp_send_query_stream_enc_status); static int drm_dp_create_payload_at_dfp(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_atomic_payload *payload) { return drm_dp_dpcd_write_payload(mgr, payload->vcpi, payload->vc_start_slot, payload->time_slots); } static int drm_dp_create_payload_to_remote(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_atomic_payload *payload) { int ret; struct drm_dp_mst_port *port = drm_dp_mst_topology_get_port_validated(mgr, payload->port); if (!port) return -EIO; ret = drm_dp_payload_send_msg(mgr, port, payload->vcpi, payload->pbn); drm_dp_mst_topology_put_port(port); return ret; } static void drm_dp_destroy_payload_at_remote_and_dfp(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_topology_state *mst_state, struct drm_dp_mst_atomic_payload *payload) { drm_dbg_kms(mgr->dev, "\n"); /* it's okay for these to fail */ if (payload->payload_allocation_status == DRM_DP_MST_PAYLOAD_ALLOCATION_REMOTE) { drm_dp_payload_send_msg(mgr, payload->port, payload->vcpi, 0); payload->payload_allocation_status = DRM_DP_MST_PAYLOAD_ALLOCATION_DFP; } if (payload->payload_allocation_status == DRM_DP_MST_PAYLOAD_ALLOCATION_DFP) drm_dp_dpcd_write_payload(mgr, payload->vcpi, payload->vc_start_slot, 0); } /** * drm_dp_add_payload_part1() - Execute payload update part 1 * @mgr: Manager to use. * @mst_state: The MST atomic state * @payload: The payload to write * * Determines the starting time slot for the given payload, and programs the VCPI for this payload * into the DPCD of DPRX. After calling this, the driver should generate ACT and payload packets. * * Returns: 0 on success, error code on failure. */ int drm_dp_add_payload_part1(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_topology_state *mst_state, struct drm_dp_mst_atomic_payload *payload) { struct drm_dp_mst_port *port; int ret; /* Update mst mgr info */ if (mgr->payload_count == 0) mgr->next_start_slot = mst_state->start_slot; payload->vc_start_slot = mgr->next_start_slot; mgr->payload_count++; mgr->next_start_slot += payload->time_slots; payload->payload_allocation_status = DRM_DP_MST_PAYLOAD_ALLOCATION_LOCAL; /* Allocate payload to immediate downstream facing port */ port = drm_dp_mst_topology_get_port_validated(mgr, payload->port); if (!port) { drm_dbg_kms(mgr->dev, "VCPI %d for port %p not in topology, not creating a payload to remote\n", payload->vcpi, payload->port); return -EIO; } ret = drm_dp_create_payload_at_dfp(mgr, payload); if (ret < 0) { drm_dbg_kms(mgr->dev, "Failed to create MST payload for port %p: %d\n", payload->port, ret); goto put_port; } payload->payload_allocation_status = DRM_DP_MST_PAYLOAD_ALLOCATION_DFP; put_port: drm_dp_mst_topology_put_port(port); return ret; } EXPORT_SYMBOL(drm_dp_add_payload_part1); /** * drm_dp_remove_payload_part1() - Remove an MST payload along the virtual channel * @mgr: Manager to use. * @mst_state: The MST atomic state * @payload: The payload to remove * * Removes a payload along the virtual channel if it was successfully allocated. * After calling this, the driver should set HW to generate ACT and then switch to new * payload allocation state. */ void drm_dp_remove_payload_part1(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_topology_state *mst_state, struct drm_dp_mst_atomic_payload *payload) { /* Remove remote payload allocation */ bool send_remove = false; mutex_lock(&mgr->lock); send_remove = drm_dp_mst_port_downstream_of_branch(payload->port, mgr->mst_primary); mutex_unlock(&mgr->lock); if (send_remove) drm_dp_destroy_payload_at_remote_and_dfp(mgr, mst_state, payload); else drm_dbg_kms(mgr->dev, "Payload for VCPI %d not in topology, not sending remove\n", payload->vcpi); payload->payload_allocation_status = DRM_DP_MST_PAYLOAD_ALLOCATION_LOCAL; } EXPORT_SYMBOL(drm_dp_remove_payload_part1); /** * drm_dp_remove_payload_part2() - Remove an MST payload locally * @mgr: Manager to use. * @mst_state: The MST atomic state * @old_payload: The payload with its old state * @new_payload: The payload with its latest state * * Updates the starting time slots of all other payloads which would have been shifted towards * the start of the payload ID table as a result of removing a payload. Driver should call this * function whenever it removes a payload in its HW. It's independent to the result of payload * allocation/deallocation at branch devices along the virtual channel. */ void drm_dp_remove_payload_part2(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_topology_state *mst_state, const struct drm_dp_mst_atomic_payload *old_payload, struct drm_dp_mst_atomic_payload *new_payload) { struct drm_dp_mst_atomic_payload *pos; /* Remove local payload allocation */ list_for_each_entry(pos, &mst_state->payloads, next) { if (pos != new_payload && pos->vc_start_slot > new_payload->vc_start_slot) pos->vc_start_slot -= old_payload->time_slots; } new_payload->vc_start_slot = -1; mgr->payload_count--; mgr->next_start_slot -= old_payload->time_slots; if (new_payload->delete) drm_dp_mst_put_port_malloc(new_payload->port); new_payload->payload_allocation_status = DRM_DP_MST_PAYLOAD_ALLOCATION_NONE; } EXPORT_SYMBOL(drm_dp_remove_payload_part2); /** * drm_dp_add_payload_part2() - Execute payload update part 2 * @mgr: Manager to use. * @state: The global atomic state * @payload: The payload to update * * If @payload was successfully assigned a starting time slot by drm_dp_add_payload_part1(), this * function will send the sideband messages to finish allocating this payload. * * Returns: 0 on success, negative error code on failure. */ int drm_dp_add_payload_part2(struct drm_dp_mst_topology_mgr *mgr, struct drm_atomic_state *state, struct drm_dp_mst_atomic_payload *payload) { int ret = 0; /* Skip failed payloads */ if (payload->payload_allocation_status != DRM_DP_MST_PAYLOAD_ALLOCATION_DFP) { drm_dbg_kms(state->dev, "Part 1 of payload creation for %s failed, skipping part 2\n", payload->port->connector->name); return -EIO; } /* Allocate payload to remote end */ ret = drm_dp_create_payload_to_remote(mgr, payload); if (ret < 0) drm_err(mgr->dev, "Step 2 of creating MST payload for %p failed: %d\n", payload->port, ret); else payload->payload_allocation_status = DRM_DP_MST_PAYLOAD_ALLOCATION_REMOTE; return ret; } EXPORT_SYMBOL(drm_dp_add_payload_part2); static int drm_dp_send_dpcd_read(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port, int offset, int size, u8 *bytes) { int ret = 0; struct drm_dp_sideband_msg_tx *txmsg; struct drm_dp_mst_branch *mstb; mstb = drm_dp_mst_topology_get_mstb_validated(mgr, port->parent); if (!mstb) return -EINVAL; txmsg = kzalloc(sizeof(*txmsg), GFP_KERNEL); if (!txmsg) { ret = -ENOMEM; goto fail_put; } build_dpcd_read(txmsg, port->port_num, offset, size); txmsg->dst = port->parent; drm_dp_queue_down_tx(mgr, txmsg); ret = drm_dp_mst_wait_tx_reply(mstb, txmsg); if (ret < 0) goto fail_free; if (txmsg->reply.reply_type == 1) { drm_dbg_kms(mgr->dev, "mstb %p port %d: DPCD read on addr 0x%x for %d bytes NAKed\n", mstb, port->port_num, offset, size); ret = -EIO; goto fail_free; } if (txmsg->reply.u.remote_dpcd_read_ack.num_bytes != size) { ret = -EPROTO; goto fail_free; } ret = min_t(size_t, txmsg->reply.u.remote_dpcd_read_ack.num_bytes, size); memcpy(bytes, txmsg->reply.u.remote_dpcd_read_ack.bytes, ret); fail_free: kfree(txmsg); fail_put: drm_dp_mst_topology_put_mstb(mstb); return ret; } static int drm_dp_send_dpcd_write(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port, int offset, int size, u8 *bytes) { int ret; struct drm_dp_sideband_msg_tx *txmsg; struct drm_dp_mst_branch *mstb; mstb = drm_dp_mst_topology_get_mstb_validated(mgr, port->parent); if (!mstb) return -EINVAL; txmsg = kzalloc(sizeof(*txmsg), GFP_KERNEL); if (!txmsg) { ret = -ENOMEM; goto fail_put; } build_dpcd_write(txmsg, port->port_num, offset, size, bytes); txmsg->dst = mstb; drm_dp_queue_down_tx(mgr, txmsg); ret = drm_dp_mst_wait_tx_reply(mstb, txmsg); if (ret > 0) { if (txmsg->reply.reply_type == DP_SIDEBAND_REPLY_NAK) ret = -EIO; else ret = size; } kfree(txmsg); fail_put: drm_dp_mst_topology_put_mstb(mstb); return ret; } static int drm_dp_encode_up_ack_reply(struct drm_dp_sideband_msg_tx *msg, u8 req_type) { struct drm_dp_sideband_msg_reply_body reply; reply.reply_type = DP_SIDEBAND_REPLY_ACK; reply.req_type = req_type; drm_dp_encode_sideband_reply(&reply, msg); return 0; } static int drm_dp_send_up_ack_reply(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_branch *mstb, int req_type, bool broadcast) { struct drm_dp_sideband_msg_tx *txmsg; txmsg = kzalloc(sizeof(*txmsg), GFP_KERNEL); if (!txmsg) return -ENOMEM; txmsg->dst = mstb; drm_dp_encode_up_ack_reply(txmsg, req_type); mutex_lock(&mgr->qlock); /* construct a chunk from the first msg in the tx_msg queue */ process_single_tx_qlock(mgr, txmsg, true); mutex_unlock(&mgr->qlock); kfree(txmsg); return 0; } /** * drm_dp_get_vc_payload_bw - get the VC payload BW for an MST link * @mgr: The &drm_dp_mst_topology_mgr to use * @link_rate: link rate in 10kbits/s units * @link_lane_count: lane count * * Calculate the total bandwidth of a MultiStream Transport link. The returned * value is in units of PBNs/(timeslots/1 MTP). This value can be used to * convert the number of PBNs required for a given stream to the number of * timeslots this stream requires in each MTP. * * Returns the BW / timeslot value in 20.12 fixed point format. */ fixed20_12 drm_dp_get_vc_payload_bw(const struct drm_dp_mst_topology_mgr *mgr, int link_rate, int link_lane_count) { int ch_coding_efficiency = drm_dp_bw_channel_coding_efficiency(drm_dp_is_uhbr_rate(link_rate)); fixed20_12 ret; if (link_rate == 0 || link_lane_count == 0) drm_dbg_kms(mgr->dev, "invalid link rate/lane count: (%d / %d)\n", link_rate, link_lane_count); /* See DP v2.0 2.6.4.2, 2.7.6.3 VCPayload_Bandwidth_for_OneTimeSlotPer_MTP_Allocation */ ret.full = DIV_ROUND_DOWN_ULL(mul_u32_u32(link_rate * link_lane_count, ch_coding_efficiency), (1000000ULL * 8 * 5400) >> 12); return ret; } EXPORT_SYMBOL(drm_dp_get_vc_payload_bw); /** * drm_dp_read_mst_cap() - check whether or not a sink supports MST * @aux: The DP AUX channel to use * @dpcd: A cached copy of the DPCD capabilities for this sink * * Returns: %True if the sink supports MST, %false otherwise */ bool drm_dp_read_mst_cap(struct drm_dp_aux *aux, const u8 dpcd[DP_RECEIVER_CAP_SIZE]) { u8 mstm_cap; if (dpcd[DP_DPCD_REV] < DP_DPCD_REV_12) return false; if (drm_dp_dpcd_readb(aux, DP_MSTM_CAP, &mstm_cap) != 1) return false; return mstm_cap & DP_MST_CAP; } EXPORT_SYMBOL(drm_dp_read_mst_cap); /** * drm_dp_mst_topology_mgr_set_mst() - Set the MST state for a topology manager * @mgr: manager to set state for * @mst_state: true to enable MST on this connector - false to disable. * * This is called by the driver when it detects an MST capable device plugged * into a DP MST capable port, or when a DP MST capable device is unplugged. */ int drm_dp_mst_topology_mgr_set_mst(struct drm_dp_mst_topology_mgr *mgr, bool mst_state) { int ret = 0; struct drm_dp_mst_branch *mstb = NULL; mutex_lock(&mgr->lock); if (mst_state == mgr->mst_state) goto out_unlock; mgr->mst_state = mst_state; /* set the device into MST mode */ if (mst_state) { WARN_ON(mgr->mst_primary); /* get dpcd info */ ret = drm_dp_read_dpcd_caps(mgr->aux, mgr->dpcd); if (ret < 0) { drm_dbg_kms(mgr->dev, "%s: failed to read DPCD, ret %d\n", mgr->aux->name, ret); goto out_unlock; } /* add initial branch device at LCT 1 */ mstb = drm_dp_add_mst_branch_device(1, NULL); if (mstb == NULL) { ret = -ENOMEM; goto out_unlock; } mstb->mgr = mgr; /* give this the main reference */ mgr->mst_primary = mstb; drm_dp_mst_topology_get_mstb(mgr->mst_primary); ret = drm_dp_dpcd_writeb(mgr->aux, DP_MSTM_CTRL, DP_MST_EN | DP_UP_REQ_EN | DP_UPSTREAM_IS_SRC); if (ret < 0) goto out_unlock; /* Write reset payload */ drm_dp_dpcd_write_payload(mgr, 0, 0, 0x3f); queue_work(system_long_wq, &mgr->work); ret = 0; } else { /* disable MST on the device */ mstb = mgr->mst_primary; mgr->mst_primary = NULL; /* this can fail if the device is gone */ drm_dp_dpcd_writeb(mgr->aux, DP_MSTM_CTRL, 0); ret = 0; mgr->payload_id_table_cleared = false; memset(&mgr->down_rep_recv, 0, sizeof(mgr->down_rep_recv)); memset(&mgr->up_req_recv, 0, sizeof(mgr->up_req_recv)); } out_unlock: mutex_unlock(&mgr->lock); if (mstb) drm_dp_mst_topology_put_mstb(mstb); return ret; } EXPORT_SYMBOL(drm_dp_mst_topology_mgr_set_mst); static void drm_dp_mst_topology_mgr_invalidate_mstb(struct drm_dp_mst_branch *mstb) { struct drm_dp_mst_port *port; /* The link address will need to be re-sent on resume */ mstb->link_address_sent = false; list_for_each_entry(port, &mstb->ports, next) if (port->mstb) drm_dp_mst_topology_mgr_invalidate_mstb(port->mstb); } /** * drm_dp_mst_topology_mgr_suspend() - suspend the MST manager * @mgr: manager to suspend * * This function tells the MST device that we can't handle UP messages * anymore. This should stop it from sending any since we are suspended. */ void drm_dp_mst_topology_mgr_suspend(struct drm_dp_mst_topology_mgr *mgr) { mutex_lock(&mgr->lock); drm_dp_dpcd_writeb(mgr->aux, DP_MSTM_CTRL, DP_MST_EN | DP_UPSTREAM_IS_SRC); mutex_unlock(&mgr->lock); flush_work(&mgr->up_req_work); flush_work(&mgr->work); flush_work(&mgr->delayed_destroy_work); mutex_lock(&mgr->lock); if (mgr->mst_state && mgr->mst_primary) drm_dp_mst_topology_mgr_invalidate_mstb(mgr->mst_primary); mutex_unlock(&mgr->lock); } EXPORT_SYMBOL(drm_dp_mst_topology_mgr_suspend); /** * drm_dp_mst_topology_mgr_resume() - resume the MST manager * @mgr: manager to resume * @sync: whether or not to perform topology reprobing synchronously * * This will fetch DPCD and see if the device is still there, * if it is, it will rewrite the MSTM control bits, and return. * * If the device fails this returns -1, and the driver should do * a full MST reprobe, in case we were undocked. * * During system resume (where it is assumed that the driver will be calling * drm_atomic_helper_resume()) this function should be called beforehand with * @sync set to true. In contexts like runtime resume where the driver is not * expected to be calling drm_atomic_helper_resume(), this function should be * called with @sync set to false in order to avoid deadlocking. * * Returns: -1 if the MST topology was removed while we were suspended, 0 * otherwise. */ int drm_dp_mst_topology_mgr_resume(struct drm_dp_mst_topology_mgr *mgr, bool sync) { int ret; u8 guid[16]; mutex_lock(&mgr->lock); if (!mgr->mst_primary) goto out_fail; if (drm_dp_read_dpcd_caps(mgr->aux, mgr->dpcd) < 0) { drm_dbg_kms(mgr->dev, "dpcd read failed - undocked during suspend?\n"); goto out_fail; } ret = drm_dp_dpcd_writeb(mgr->aux, DP_MSTM_CTRL, DP_MST_EN | DP_UP_REQ_EN | DP_UPSTREAM_IS_SRC); if (ret < 0) { drm_dbg_kms(mgr->dev, "mst write failed - undocked during suspend?\n"); goto out_fail; } /* Some hubs forget their guids after they resume */ ret = drm_dp_dpcd_read(mgr->aux, DP_GUID, guid, 16); if (ret != 16) { drm_dbg_kms(mgr->dev, "dpcd read failed - undocked during suspend?\n"); goto out_fail; } ret = drm_dp_check_mstb_guid(mgr->mst_primary, guid); if (ret) { drm_dbg_kms(mgr->dev, "check mstb failed - undocked during suspend?\n"); goto out_fail; } /* * For the final step of resuming the topology, we need to bring the * state of our in-memory topology back into sync with reality. So, * restart the probing process as if we're probing a new hub */ queue_work(system_long_wq, &mgr->work); mutex_unlock(&mgr->lock); if (sync) { drm_dbg_kms(mgr->dev, "Waiting for link probe work to finish re-syncing topology...\n"); flush_work(&mgr->work); } return 0; out_fail: mutex_unlock(&mgr->lock); return -1; } EXPORT_SYMBOL(drm_dp_mst_topology_mgr_resume); static bool drm_dp_get_one_sb_msg(struct drm_dp_mst_topology_mgr *mgr, bool up, struct drm_dp_mst_branch **mstb) { int len; u8 replyblock[32]; int replylen, curreply; int ret; u8 hdrlen; struct drm_dp_sideband_msg_hdr hdr; struct drm_dp_sideband_msg_rx *msg = up ? &mgr->up_req_recv : &mgr->down_rep_recv; int basereg = up ? DP_SIDEBAND_MSG_UP_REQ_BASE : DP_SIDEBAND_MSG_DOWN_REP_BASE; if (!up) *mstb = NULL; len = min(mgr->max_dpcd_transaction_bytes, 16); ret = drm_dp_dpcd_read(mgr->aux, basereg, replyblock, len); if (ret != len) { drm_dbg_kms(mgr->dev, "failed to read DPCD down rep %d %d\n", len, ret); return false; } ret = drm_dp_decode_sideband_msg_hdr(mgr, &hdr, replyblock, len, &hdrlen); if (ret == false) { print_hex_dump(KERN_DEBUG, "failed hdr", DUMP_PREFIX_NONE, 16, 1, replyblock, len, false); drm_dbg_kms(mgr->dev, "ERROR: failed header\n"); return false; } if (!up) { /* Caller is responsible for giving back this reference */ *mstb = drm_dp_get_mst_branch_device(mgr, hdr.lct, hdr.rad); if (!*mstb) { drm_dbg_kms(mgr->dev, "Got MST reply from unknown device %d\n", hdr.lct); return false; } } if (!drm_dp_sideband_msg_set_header(msg, &hdr, hdrlen)) { drm_dbg_kms(mgr->dev, "sideband msg set header failed %d\n", replyblock[0]); return false; } replylen = min(msg->curchunk_len, (u8)(len - hdrlen)); ret = drm_dp_sideband_append_payload(msg, replyblock + hdrlen, replylen); if (!ret) { drm_dbg_kms(mgr->dev, "sideband msg build failed %d\n", replyblock[0]); return false; } replylen = msg->curchunk_len + msg->curchunk_hdrlen - len; curreply = len; while (replylen > 0) { len = min3(replylen, mgr->max_dpcd_transaction_bytes, 16); ret = drm_dp_dpcd_read(mgr->aux, basereg + curreply, replyblock, len); if (ret != len) { drm_dbg_kms(mgr->dev, "failed to read a chunk (len %d, ret %d)\n", len, ret); return false; } ret = drm_dp_sideband_append_payload(msg, replyblock, len); if (!ret) { drm_dbg_kms(mgr->dev, "failed to build sideband msg\n"); return false; } curreply += len; replylen -= len; } return true; } static int drm_dp_mst_handle_down_rep(struct drm_dp_mst_topology_mgr *mgr) { struct drm_dp_sideband_msg_tx *txmsg; struct drm_dp_mst_branch *mstb = NULL; struct drm_dp_sideband_msg_rx *msg = &mgr->down_rep_recv; if (!drm_dp_get_one_sb_msg(mgr, false, &mstb)) goto out_clear_reply; /* Multi-packet message transmission, don't clear the reply */ if (!msg->have_eomt) goto out; /* find the message */ mutex_lock(&mgr->qlock); txmsg = list_first_entry_or_null(&mgr->tx_msg_downq, struct drm_dp_sideband_msg_tx, next); mutex_unlock(&mgr->qlock); /* Were we actually expecting a response, and from this mstb? */ if (!txmsg || txmsg->dst != mstb) { struct drm_dp_sideband_msg_hdr *hdr; hdr = &msg->initial_hdr; drm_dbg_kms(mgr->dev, "Got MST reply with no msg %p %d %d %02x %02x\n", mstb, hdr->seqno, hdr->lct, hdr->rad[0], msg->msg[0]); goto out_clear_reply; } drm_dp_sideband_parse_reply(mgr, msg, &txmsg->reply); if (txmsg->reply.reply_type == DP_SIDEBAND_REPLY_NAK) { drm_dbg_kms(mgr->dev, "Got NAK reply: req 0x%02x (%s), reason 0x%02x (%s), nak data 0x%02x\n", txmsg->reply.req_type, drm_dp_mst_req_type_str(txmsg->reply.req_type), txmsg->reply.u.nak.reason, drm_dp_mst_nak_reason_str(txmsg->reply.u.nak.reason), txmsg->reply.u.nak.nak_data); } memset(msg, 0, sizeof(struct drm_dp_sideband_msg_rx)); drm_dp_mst_topology_put_mstb(mstb); mutex_lock(&mgr->qlock); txmsg->state = DRM_DP_SIDEBAND_TX_RX; list_del(&txmsg->next); mutex_unlock(&mgr->qlock); wake_up_all(&mgr->tx_waitq); return 0; out_clear_reply: memset(msg, 0, sizeof(struct drm_dp_sideband_msg_rx)); out: if (mstb) drm_dp_mst_topology_put_mstb(mstb); return 0; } static inline bool drm_dp_mst_process_up_req(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_pending_up_req *up_req) { struct drm_dp_mst_branch *mstb = NULL; struct drm_dp_sideband_msg_req_body *msg = &up_req->msg; struct drm_dp_sideband_msg_hdr *hdr = &up_req->hdr; bool hotplug = false, dowork = false; if (hdr->broadcast) { const u8 *guid = NULL; if (msg->req_type == DP_CONNECTION_STATUS_NOTIFY) guid = msg->u.conn_stat.guid; else if (msg->req_type == DP_RESOURCE_STATUS_NOTIFY) guid = msg->u.resource_stat.guid; if (guid) mstb = drm_dp_get_mst_branch_device_by_guid(mgr, guid); } else { mstb = drm_dp_get_mst_branch_device(mgr, hdr->lct, hdr->rad); } if (!mstb) { drm_dbg_kms(mgr->dev, "Got MST reply from unknown device %d\n", hdr->lct); return false; } /* TODO: Add missing handler for DP_RESOURCE_STATUS_NOTIFY events */ if (msg->req_type == DP_CONNECTION_STATUS_NOTIFY) { dowork = drm_dp_mst_handle_conn_stat(mstb, &msg->u.conn_stat); hotplug = true; } drm_dp_mst_topology_put_mstb(mstb); if (dowork) queue_work(system_long_wq, &mgr->work); return hotplug; } static void drm_dp_mst_up_req_work(struct work_struct *work) { struct drm_dp_mst_topology_mgr *mgr = container_of(work, struct drm_dp_mst_topology_mgr, up_req_work); struct drm_dp_pending_up_req *up_req; bool send_hotplug = false; mutex_lock(&mgr->probe_lock); while (true) { mutex_lock(&mgr->up_req_lock); up_req = list_first_entry_or_null(&mgr->up_req_list, struct drm_dp_pending_up_req, next); if (up_req) list_del(&up_req->next); mutex_unlock(&mgr->up_req_lock); if (!up_req) break; send_hotplug |= drm_dp_mst_process_up_req(mgr, up_req); kfree(up_req); } mutex_unlock(&mgr->probe_lock); if (send_hotplug) drm_kms_helper_hotplug_event(mgr->dev); } static int drm_dp_mst_handle_up_req(struct drm_dp_mst_topology_mgr *mgr) { struct drm_dp_pending_up_req *up_req; if (!drm_dp_get_one_sb_msg(mgr, true, NULL)) goto out; if (!mgr->up_req_recv.have_eomt) return 0; up_req = kzalloc(sizeof(*up_req), GFP_KERNEL); if (!up_req) return -ENOMEM; INIT_LIST_HEAD(&up_req->next); drm_dp_sideband_parse_req(mgr, &mgr->up_req_recv, &up_req->msg); if (up_req->msg.req_type != DP_CONNECTION_STATUS_NOTIFY && up_req->msg.req_type != DP_RESOURCE_STATUS_NOTIFY) { drm_dbg_kms(mgr->dev, "Received unknown up req type, ignoring: %x\n", up_req->msg.req_type); kfree(up_req); goto out; } drm_dp_send_up_ack_reply(mgr, mgr->mst_primary, up_req->msg.req_type, false); if (up_req->msg.req_type == DP_CONNECTION_STATUS_NOTIFY) { const struct drm_dp_connection_status_notify *conn_stat = &up_req->msg.u.conn_stat; drm_dbg_kms(mgr->dev, "Got CSN: pn: %d ldps:%d ddps: %d mcs: %d ip: %d pdt: %d\n", conn_stat->port_number, conn_stat->legacy_device_plug_status, conn_stat->displayport_device_plug_status, conn_stat->message_capability_status, conn_stat->input_port, conn_stat->peer_device_type); } else if (up_req->msg.req_type == DP_RESOURCE_STATUS_NOTIFY) { const struct drm_dp_resource_status_notify *res_stat = &up_req->msg.u.resource_stat; drm_dbg_kms(mgr->dev, "Got RSN: pn: %d avail_pbn %d\n", res_stat->port_number, res_stat->available_pbn); } up_req->hdr = mgr->up_req_recv.initial_hdr; mutex_lock(&mgr->up_req_lock); list_add_tail(&up_req->next, &mgr->up_req_list); mutex_unlock(&mgr->up_req_lock); queue_work(system_long_wq, &mgr->up_req_work); out: memset(&mgr->up_req_recv, 0, sizeof(struct drm_dp_sideband_msg_rx)); return 0; } /** * drm_dp_mst_hpd_irq_handle_event() - MST hotplug IRQ handle MST event * @mgr: manager to notify irq for. * @esi: 4 bytes from SINK_COUNT_ESI * @ack: 4 bytes used to ack events starting from SINK_COUNT_ESI * @handled: whether the hpd interrupt was consumed or not * * This should be called from the driver when it detects a HPD IRQ, * along with the value of the DEVICE_SERVICE_IRQ_VECTOR_ESI0. The * topology manager will process the sideband messages received * as indicated in the DEVICE_SERVICE_IRQ_VECTOR_ESI0 and set the * corresponding flags that Driver has to ack the DP receiver later. * * Note that driver shall also call * drm_dp_mst_hpd_irq_send_new_request() if the 'handled' is set * after calling this function, to try to kick off a new request in * the queue if the previous message transaction is completed. * * See also: * drm_dp_mst_hpd_irq_send_new_request() */ int drm_dp_mst_hpd_irq_handle_event(struct drm_dp_mst_topology_mgr *mgr, const u8 *esi, u8 *ack, bool *handled) { int ret = 0; int sc; *handled = false; sc = DP_GET_SINK_COUNT(esi[0]); if (sc != mgr->sink_count) { mgr->sink_count = sc; *handled = true; } if (esi[1] & DP_DOWN_REP_MSG_RDY) { ret = drm_dp_mst_handle_down_rep(mgr); *handled = true; ack[1] |= DP_DOWN_REP_MSG_RDY; } if (esi[1] & DP_UP_REQ_MSG_RDY) { ret |= drm_dp_mst_handle_up_req(mgr); *handled = true; ack[1] |= DP_UP_REQ_MSG_RDY; } return ret; } EXPORT_SYMBOL(drm_dp_mst_hpd_irq_handle_event); /** * drm_dp_mst_hpd_irq_send_new_request() - MST hotplug IRQ kick off new request * @mgr: manager to notify irq for. * * This should be called from the driver when mst irq event is handled * and acked. Note that new down request should only be sent when * previous message transaction is completed. Source is not supposed to generate * interleaved message transactions. */ void drm_dp_mst_hpd_irq_send_new_request(struct drm_dp_mst_topology_mgr *mgr) { struct drm_dp_sideband_msg_tx *txmsg; bool kick = true; mutex_lock(&mgr->qlock); txmsg = list_first_entry_or_null(&mgr->tx_msg_downq, struct drm_dp_sideband_msg_tx, next); /* If last transaction is not completed yet*/ if (!txmsg || txmsg->state == DRM_DP_SIDEBAND_TX_START_SEND || txmsg->state == DRM_DP_SIDEBAND_TX_SENT) kick = false; mutex_unlock(&mgr->qlock); if (kick) drm_dp_mst_kick_tx(mgr); } EXPORT_SYMBOL(drm_dp_mst_hpd_irq_send_new_request); /** * drm_dp_mst_detect_port() - get connection status for an MST port * @connector: DRM connector for this port * @ctx: The acquisition context to use for grabbing locks * @mgr: manager for this port * @port: pointer to a port * * This returns the current connection state for a port. */ int drm_dp_mst_detect_port(struct drm_connector *connector, struct drm_modeset_acquire_ctx *ctx, struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port) { int ret; /* we need to search for the port in the mgr in case it's gone */ port = drm_dp_mst_topology_get_port_validated(mgr, port); if (!port) return connector_status_disconnected; ret = drm_modeset_lock(&mgr->base.lock, ctx); if (ret) goto out; ret = connector_status_disconnected; if (!port->ddps) goto out; switch (port->pdt) { case DP_PEER_DEVICE_NONE: break; case DP_PEER_DEVICE_MST_BRANCHING: if (!port->mcs) ret = connector_status_connected; break; case DP_PEER_DEVICE_SST_SINK: ret = connector_status_connected; /* for logical ports - cache the EDID */ if (port->port_num >= DP_MST_LOGICAL_PORT_0 && !port->cached_edid) port->cached_edid = drm_edid_read_ddc(connector, &port->aux.ddc); break; case DP_PEER_DEVICE_DP_LEGACY_CONV: if (port->ldps) ret = connector_status_connected; break; } out: drm_dp_mst_topology_put_port(port); return ret; } EXPORT_SYMBOL(drm_dp_mst_detect_port); /** * drm_dp_mst_edid_read() - get EDID for an MST port * @connector: toplevel connector to get EDID for * @mgr: manager for this port * @port: unverified pointer to a port. * * This returns an EDID for the port connected to a connector, * It validates the pointer still exists so the caller doesn't require a * reference. */ const struct drm_edid *drm_dp_mst_edid_read(struct drm_connector *connector, struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port) { const struct drm_edid *drm_edid; /* we need to search for the port in the mgr in case it's gone */ port = drm_dp_mst_topology_get_port_validated(mgr, port); if (!port) return NULL; if (port->cached_edid) drm_edid = drm_edid_dup(port->cached_edid); else drm_edid = drm_edid_read_ddc(connector, &port->aux.ddc); drm_dp_mst_topology_put_port(port); return drm_edid; } EXPORT_SYMBOL(drm_dp_mst_edid_read); /** * drm_dp_mst_get_edid() - get EDID for an MST port * @connector: toplevel connector to get EDID for * @mgr: manager for this port * @port: unverified pointer to a port. * * This function is deprecated; please use drm_dp_mst_edid_read() instead. * * This returns an EDID for the port connected to a connector, * It validates the pointer still exists so the caller doesn't require a * reference. */ struct edid *drm_dp_mst_get_edid(struct drm_connector *connector, struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port) { const struct drm_edid *drm_edid; struct edid *edid; drm_edid = drm_dp_mst_edid_read(connector, mgr, port); edid = drm_edid_duplicate(drm_edid_raw(drm_edid)); drm_edid_free(drm_edid); return edid; } EXPORT_SYMBOL(drm_dp_mst_get_edid); /** * drm_dp_atomic_find_time_slots() - Find and add time slots to the state * @state: global atomic state * @mgr: MST topology manager for the port * @port: port to find time slots for * @pbn: bandwidth required for the mode in PBN * * Allocates time slots to @port, replacing any previous time slot allocations it may * have had. Any atomic drivers which support MST must call this function in * their &drm_encoder_helper_funcs.atomic_check() callback unconditionally to * change the current time slot allocation for the new state, and ensure the MST * atomic state is added whenever the state of payloads in the topology changes. * * Allocations set by this function are not checked against the bandwidth * restraints of @mgr until the driver calls drm_dp_mst_atomic_check(). * * Additionally, it is OK to call this function multiple times on the same * @port as needed. It is not OK however, to call this function and * drm_dp_atomic_release_time_slots() in the same atomic check phase. * * See also: * drm_dp_atomic_release_time_slots() * drm_dp_mst_atomic_check() * * Returns: * Total slots in the atomic state assigned for this port, or a negative error * code if the port no longer exists */ int drm_dp_atomic_find_time_slots(struct drm_atomic_state *state, struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port, int pbn) { struct drm_dp_mst_topology_state *topology_state; struct drm_dp_mst_atomic_payload *payload = NULL; struct drm_connector_state *conn_state; int prev_slots = 0, prev_bw = 0, req_slots; topology_state = drm_atomic_get_mst_topology_state(state, mgr); if (IS_ERR(topology_state)) return PTR_ERR(topology_state); conn_state = drm_atomic_get_new_connector_state(state, port->connector); topology_state->pending_crtc_mask |= drm_crtc_mask(conn_state->crtc); /* Find the current allocation for this port, if any */ payload = drm_atomic_get_mst_payload_state(topology_state, port); if (payload) { prev_slots = payload->time_slots; prev_bw = payload->pbn; /* * This should never happen, unless the driver tries * releasing and allocating the same timeslot allocation, * which is an error */ if (drm_WARN_ON(mgr->dev, payload->delete)) { drm_err(mgr->dev, "cannot allocate and release time slots on [MST PORT:%p] in the same state\n", port); return -EINVAL; } } req_slots = DIV_ROUND_UP(dfixed_const(pbn), topology_state->pbn_div.full); drm_dbg_atomic(mgr->dev, "[CONNECTOR:%d:%s] [MST PORT:%p] TU %d -> %d\n", port->connector->base.id, port->connector->name, port, prev_slots, req_slots); drm_dbg_atomic(mgr->dev, "[CONNECTOR:%d:%s] [MST PORT:%p] PBN %d -> %d\n", port->connector->base.id, port->connector->name, port, prev_bw, pbn); /* Add the new allocation to the state, note the VCPI isn't assigned until the end */ if (!payload) { payload = kzalloc(sizeof(*payload), GFP_KERNEL); if (!payload) return -ENOMEM; drm_dp_mst_get_port_malloc(port); payload->port = port; payload->vc_start_slot = -1; payload->payload_allocation_status = DRM_DP_MST_PAYLOAD_ALLOCATION_NONE; list_add(&payload->next, &topology_state->payloads); } payload->time_slots = req_slots; payload->pbn = pbn; return req_slots; } EXPORT_SYMBOL(drm_dp_atomic_find_time_slots); /** * drm_dp_atomic_release_time_slots() - Release allocated time slots * @state: global atomic state * @mgr: MST topology manager for the port * @port: The port to release the time slots from * * Releases any time slots that have been allocated to a port in the atomic * state. Any atomic drivers which support MST must call this function * unconditionally in their &drm_connector_helper_funcs.atomic_check() callback. * This helper will check whether time slots would be released by the new state and * respond accordingly, along with ensuring the MST state is always added to the * atomic state whenever a new state would modify the state of payloads on the * topology. * * It is OK to call this even if @port has been removed from the system. * Additionally, it is OK to call this function multiple times on the same * @port as needed. It is not OK however, to call this function and * drm_dp_atomic_find_time_slots() on the same @port in a single atomic check * phase. * * See also: * drm_dp_atomic_find_time_slots() * drm_dp_mst_atomic_check() * * Returns: * 0 on success, negative error code otherwise */ int drm_dp_atomic_release_time_slots(struct drm_atomic_state *state, struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port) { struct drm_dp_mst_topology_state *topology_state; struct drm_dp_mst_atomic_payload *payload; struct drm_connector_state *old_conn_state, *new_conn_state; bool update_payload = true; old_conn_state = drm_atomic_get_old_connector_state(state, port->connector); if (!old_conn_state->crtc) return 0; /* If the CRTC isn't disabled by this state, don't release it's payload */ new_conn_state = drm_atomic_get_new_connector_state(state, port->connector); if (new_conn_state->crtc) { struct drm_crtc_state *crtc_state = drm_atomic_get_new_crtc_state(state, new_conn_state->crtc); /* No modeset means no payload changes, so it's safe to not pull in the MST state */ if (!crtc_state || !drm_atomic_crtc_needs_modeset(crtc_state)) return 0; if (!crtc_state->mode_changed && !crtc_state->connectors_changed) update_payload = false; } topology_state = drm_atomic_get_mst_topology_state(state, mgr); if (IS_ERR(topology_state)) return PTR_ERR(topology_state); topology_state->pending_crtc_mask |= drm_crtc_mask(old_conn_state->crtc); if (!update_payload) return 0; payload = drm_atomic_get_mst_payload_state(topology_state, port); if (WARN_ON(!payload)) { drm_err(mgr->dev, "No payload for [MST PORT:%p] found in mst state %p\n", port, &topology_state->base); return -EINVAL; } if (new_conn_state->crtc) return 0; drm_dbg_atomic(mgr->dev, "[MST PORT:%p] TU %d -> 0\n", port, payload->time_slots); if (!payload->delete) { payload->pbn = 0; payload->delete = true; topology_state->payload_mask &= ~BIT(payload->vcpi - 1); } return 0; } EXPORT_SYMBOL(drm_dp_atomic_release_time_slots); /** * drm_dp_mst_atomic_setup_commit() - setup_commit hook for MST helpers * @state: global atomic state * * This function saves all of the &drm_crtc_commit structs in an atomic state that touch any CRTCs * currently assigned to an MST topology. Drivers must call this hook from their * &drm_mode_config_helper_funcs.atomic_commit_setup hook. * * Returns: * 0 if all CRTC commits were retrieved successfully, negative error code otherwise */ int drm_dp_mst_atomic_setup_commit(struct drm_atomic_state *state) { struct drm_dp_mst_topology_mgr *mgr; struct drm_dp_mst_topology_state *mst_state; struct drm_crtc *crtc; struct drm_crtc_state *crtc_state; int i, j, commit_idx, num_commit_deps; for_each_new_mst_mgr_in_state(state, mgr, mst_state, i) { if (!mst_state->pending_crtc_mask) continue; num_commit_deps = hweight32(mst_state->pending_crtc_mask); mst_state->commit_deps = kmalloc_array(num_commit_deps, sizeof(*mst_state->commit_deps), GFP_KERNEL); if (!mst_state->commit_deps) return -ENOMEM; mst_state->num_commit_deps = num_commit_deps; commit_idx = 0; for_each_new_crtc_in_state(state, crtc, crtc_state, j) { if (mst_state->pending_crtc_mask & drm_crtc_mask(crtc)) { mst_state->commit_deps[commit_idx++] = drm_crtc_commit_get(crtc_state->commit); } } } return 0; } EXPORT_SYMBOL(drm_dp_mst_atomic_setup_commit); /** * drm_dp_mst_atomic_wait_for_dependencies() - Wait for all pending commits on MST topologies, * prepare new MST state for commit * @state: global atomic state * * Goes through any MST topologies in this atomic state, and waits for any pending commits which * touched CRTCs that were/are on an MST topology to be programmed to hardware and flipped to before * returning. This is to prevent multiple non-blocking commits affecting an MST topology from racing * with eachother by forcing them to be executed sequentially in situations where the only resources * the modeset objects in these commits share are an MST topology. * * This function also prepares the new MST state for commit by performing some state preparation * which can't be done until this point, such as reading back the final VC start slots (which are * determined at commit-time) from the previous state. * * All MST drivers must call this function after calling drm_atomic_helper_wait_for_dependencies(), * or whatever their equivalent of that is. */ void drm_dp_mst_atomic_wait_for_dependencies(struct drm_atomic_state *state) { struct drm_dp_mst_topology_state *old_mst_state, *new_mst_state; struct drm_dp_mst_topology_mgr *mgr; struct drm_dp_mst_atomic_payload *old_payload, *new_payload; int i, j, ret; for_each_oldnew_mst_mgr_in_state(state, mgr, old_mst_state, new_mst_state, i) { for (j = 0; j < old_mst_state->num_commit_deps; j++) { ret = drm_crtc_commit_wait(old_mst_state->commit_deps[j]); if (ret < 0) drm_err(state->dev, "Failed to wait for %s: %d\n", old_mst_state->commit_deps[j]->crtc->name, ret); } /* Now that previous state is committed, it's safe to copy over the start slot * and allocation status assignments */ list_for_each_entry(old_payload, &old_mst_state->payloads, next) { if (old_payload->delete) continue; new_payload = drm_atomic_get_mst_payload_state(new_mst_state, old_payload->port); new_payload->vc_start_slot = old_payload->vc_start_slot; new_payload->payload_allocation_status = old_payload->payload_allocation_status; } } } EXPORT_SYMBOL(drm_dp_mst_atomic_wait_for_dependencies); /** * drm_dp_mst_root_conn_atomic_check() - Serialize CRTC commits on MST-capable connectors operating * in SST mode * @new_conn_state: The new connector state of the &drm_connector * @mgr: The MST topology manager for the &drm_connector * * Since MST uses fake &drm_encoder structs, the generic atomic modesetting code isn't able to * serialize non-blocking commits happening on the real DP connector of an MST topology switching * into/away from MST mode - as the CRTC on the real DP connector and the CRTCs on the connector's * MST topology will never share the same &drm_encoder. * * This function takes care of this serialization issue, by checking a root MST connector's atomic * state to determine if it is about to have a modeset - and then pulling in the MST topology state * if so, along with adding any relevant CRTCs to &drm_dp_mst_topology_state.pending_crtc_mask. * * Drivers implementing MST must call this function from the * &drm_connector_helper_funcs.atomic_check hook of any physical DP &drm_connector capable of * driving MST sinks. * * Returns: * 0 on success, negative error code otherwise */ int drm_dp_mst_root_conn_atomic_check(struct drm_connector_state *new_conn_state, struct drm_dp_mst_topology_mgr *mgr) { struct drm_atomic_state *state = new_conn_state->state; struct drm_connector_state *old_conn_state = drm_atomic_get_old_connector_state(state, new_conn_state->connector); struct drm_crtc_state *crtc_state; struct drm_dp_mst_topology_state *mst_state = NULL; if (new_conn_state->crtc) { crtc_state = drm_atomic_get_new_crtc_state(state, new_conn_state->crtc); if (crtc_state && drm_atomic_crtc_needs_modeset(crtc_state)) { mst_state = drm_atomic_get_mst_topology_state(state, mgr); if (IS_ERR(mst_state)) return PTR_ERR(mst_state); mst_state->pending_crtc_mask |= drm_crtc_mask(new_conn_state->crtc); } } if (old_conn_state->crtc) { crtc_state = drm_atomic_get_new_crtc_state(state, old_conn_state->crtc); if (crtc_state && drm_atomic_crtc_needs_modeset(crtc_state)) { if (!mst_state) { mst_state = drm_atomic_get_mst_topology_state(state, mgr); if (IS_ERR(mst_state)) return PTR_ERR(mst_state); } mst_state->pending_crtc_mask |= drm_crtc_mask(old_conn_state->crtc); } } return 0; } EXPORT_SYMBOL(drm_dp_mst_root_conn_atomic_check); /** * drm_dp_mst_update_slots() - updates the slot info depending on the DP ecoding format * @mst_state: mst_state to update * @link_encoding_cap: the ecoding format on the link */ void drm_dp_mst_update_slots(struct drm_dp_mst_topology_state *mst_state, uint8_t link_encoding_cap) { if (link_encoding_cap == DP_CAP_ANSI_128B132B) { mst_state->total_avail_slots = 64; mst_state->start_slot = 0; } else { mst_state->total_avail_slots = 63; mst_state->start_slot = 1; } DRM_DEBUG_KMS("%s encoding format on mst_state 0x%p\n", (link_encoding_cap == DP_CAP_ANSI_128B132B) ? "128b/132b":"8b/10b", mst_state); } EXPORT_SYMBOL(drm_dp_mst_update_slots); static int drm_dp_dpcd_write_payload(struct drm_dp_mst_topology_mgr *mgr, int id, u8 start_slot, u8 num_slots) { u8 payload_alloc[3], status; int ret; int retries = 0; drm_dp_dpcd_writeb(mgr->aux, DP_PAYLOAD_TABLE_UPDATE_STATUS, DP_PAYLOAD_TABLE_UPDATED); payload_alloc[0] = id; payload_alloc[1] = start_slot; payload_alloc[2] = num_slots; ret = drm_dp_dpcd_write(mgr->aux, DP_PAYLOAD_ALLOCATE_SET, payload_alloc, 3); if (ret != 3) { drm_dbg_kms(mgr->dev, "failed to write payload allocation %d\n", ret); goto fail; } retry: ret = drm_dp_dpcd_readb(mgr->aux, DP_PAYLOAD_TABLE_UPDATE_STATUS, &status); if (ret < 0) { drm_dbg_kms(mgr->dev, "failed to read payload table status %d\n", ret); goto fail; } if (!(status & DP_PAYLOAD_TABLE_UPDATED)) { retries++; if (retries < 20) { usleep_range(10000, 20000); goto retry; } drm_dbg_kms(mgr->dev, "status not set after read payload table status %d\n", status); ret = -EINVAL; goto fail; } ret = 0; fail: return ret; } static int do_get_act_status(struct drm_dp_aux *aux) { int ret; u8 status; ret = drm_dp_dpcd_readb(aux, DP_PAYLOAD_TABLE_UPDATE_STATUS, &status); if (ret < 0) return ret; return status; } /** * drm_dp_check_act_status() - Polls for ACT handled status. * @mgr: manager to use * * Tries waiting for the MST hub to finish updating it's payload table by * polling for the ACT handled bit for up to 3 seconds (yes-some hubs really * take that long). * * Returns: * 0 if the ACT was handled in time, negative error code on failure. */ int drm_dp_check_act_status(struct drm_dp_mst_topology_mgr *mgr) { /* * There doesn't seem to be any recommended retry count or timeout in * the MST specification. Since some hubs have been observed to take * over 1 second to update their payload allocations under certain * conditions, we use a rather large timeout value. */ const int timeout_ms = 3000; int ret, status; ret = readx_poll_timeout(do_get_act_status, mgr->aux, status, status & DP_PAYLOAD_ACT_HANDLED || status < 0, 200, timeout_ms * USEC_PER_MSEC); if (ret < 0 && status >= 0) { drm_err(mgr->dev, "Failed to get ACT after %dms, last status: %02x\n", timeout_ms, status); return -EINVAL; } else if (status < 0) { /* * Failure here isn't unexpected - the hub may have * just been unplugged */ drm_dbg_kms(mgr->dev, "Failed to read payload table status: %d\n", status); return status; } return 0; } EXPORT_SYMBOL(drm_dp_check_act_status); /** * drm_dp_calc_pbn_mode() - Calculate the PBN for a mode. * @clock: dot clock * @bpp: bpp as .4 binary fixed point * * This uses the formula in the spec to calculate the PBN value for a mode. */ int drm_dp_calc_pbn_mode(int clock, int bpp) { /* * The unit of 54/64Mbytes/sec is an arbitrary unit chosen based on * common multiplier to render an integer PBN for all link rate/lane * counts combinations * calculate * peak_kbps = clock * bpp / 16 * peak_kbps *= SSC overhead / 1000000 * peak_kbps /= 8 convert to Kbytes * peak_kBps *= (64/54) / 1000 convert to PBN */ /* * TODO: Use the actual link and mode parameters to calculate * the overhead. For now it's assumed that these are * 4 link lanes, 4096 hactive pixels, which don't add any * significant data padding overhead and that there is no DSC * or FEC overhead. */ int overhead = drm_dp_bw_overhead(4, 4096, 0, bpp, DRM_DP_BW_OVERHEAD_MST | DRM_DP_BW_OVERHEAD_SSC_REF_CLK); return DIV64_U64_ROUND_UP(mul_u32_u32(clock * bpp, 64 * overhead >> 4), 1000000ULL * 8 * 54 * 1000); } EXPORT_SYMBOL(drm_dp_calc_pbn_mode); /* we want to kick the TX after we've ack the up/down IRQs. */ static void drm_dp_mst_kick_tx(struct drm_dp_mst_topology_mgr *mgr) { queue_work(system_long_wq, &mgr->tx_work); } /* * Helper function for parsing DP device types into convenient strings * for use with dp_mst_topology */ static const char *pdt_to_string(u8 pdt) { switch (pdt) { case DP_PEER_DEVICE_NONE: return "NONE"; case DP_PEER_DEVICE_SOURCE_OR_SST: return "SOURCE OR SST"; case DP_PEER_DEVICE_MST_BRANCHING: return "MST BRANCHING"; case DP_PEER_DEVICE_SST_SINK: return "SST SINK"; case DP_PEER_DEVICE_DP_LEGACY_CONV: return "DP LEGACY CONV"; default: return "ERR"; } } static void drm_dp_mst_dump_mstb(struct seq_file *m, struct drm_dp_mst_branch *mstb) { struct drm_dp_mst_port *port; int tabs = mstb->lct; char prefix[10]; int i; for (i = 0; i < tabs; i++) prefix[i] = '\t'; prefix[i] = '\0'; seq_printf(m, "%smstb - [%p]: num_ports: %d\n", prefix, mstb, mstb->num_ports); list_for_each_entry(port, &mstb->ports, next) { seq_printf(m, "%sport %d - [%p] (%s - %s): ddps: %d, ldps: %d, sdp: %d/%d, fec: %s, conn: %p\n", prefix, port->port_num, port, port->input ? "input" : "output", pdt_to_string(port->pdt), port->ddps, port->ldps, port->num_sdp_streams, port->num_sdp_stream_sinks, port->fec_capable ? "true" : "false", port->connector); if (port->mstb) drm_dp_mst_dump_mstb(m, port->mstb); } } #define DP_PAYLOAD_TABLE_SIZE 64 static bool dump_dp_payload_table(struct drm_dp_mst_topology_mgr *mgr, char *buf) { int i; for (i = 0; i < DP_PAYLOAD_TABLE_SIZE; i += 16) { if (drm_dp_dpcd_read(mgr->aux, DP_PAYLOAD_TABLE_UPDATE_STATUS + i, &buf[i], 16) != 16) return false; } return true; } static void fetch_monitor_name(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port, char *name, int namelen) { struct edid *mst_edid; mst_edid = drm_dp_mst_get_edid(port->connector, mgr, port); drm_edid_get_monitor_name(mst_edid, name, namelen); kfree(mst_edid); } /** * drm_dp_mst_dump_topology(): dump topology to seq file. * @m: seq_file to dump output to * @mgr: manager to dump current topology for. * * helper to dump MST topology to a seq file for debugfs. */ void drm_dp_mst_dump_topology(struct seq_file *m, struct drm_dp_mst_topology_mgr *mgr) { struct drm_dp_mst_topology_state *state; struct drm_dp_mst_atomic_payload *payload; int i, ret; static const char *const status[] = { "None", "Local", "DFP", "Remote", }; mutex_lock(&mgr->lock); if (mgr->mst_primary) drm_dp_mst_dump_mstb(m, mgr->mst_primary); /* dump VCPIs */ mutex_unlock(&mgr->lock); ret = drm_modeset_lock_single_interruptible(&mgr->base.lock); if (ret < 0) return; state = to_drm_dp_mst_topology_state(mgr->base.state); seq_printf(m, "\n*** Atomic state info ***\n"); seq_printf(m, "payload_mask: %x, max_payloads: %d, start_slot: %u, pbn_div: %d\n", state->payload_mask, mgr->max_payloads, state->start_slot, dfixed_trunc(state->pbn_div)); seq_printf(m, "\n| idx | port | vcpi | slots | pbn | dsc | status | sink name |\n"); for (i = 0; i < mgr->max_payloads; i++) { list_for_each_entry(payload, &state->payloads, next) { char name[14]; if (payload->vcpi != i || payload->delete) continue; fetch_monitor_name(mgr, payload->port, name, sizeof(name)); seq_printf(m, " %5d %6d %6d %02d - %02d %5d %5s %8s %19s\n", i, payload->port->port_num, payload->vcpi, payload->vc_start_slot, payload->vc_start_slot + payload->time_slots - 1, payload->pbn, payload->dsc_enabled ? "Y" : "N", status[payload->payload_allocation_status], (*name != 0) ? name : "Unknown"); } } seq_printf(m, "\n*** DPCD Info ***\n"); mutex_lock(&mgr->lock); if (mgr->mst_primary) { u8 buf[DP_PAYLOAD_TABLE_SIZE]; int ret; if (drm_dp_read_dpcd_caps(mgr->aux, buf) < 0) { seq_printf(m, "dpcd read failed\n"); goto out; } seq_printf(m, "dpcd: %*ph\n", DP_RECEIVER_CAP_SIZE, buf); ret = drm_dp_dpcd_read(mgr->aux, DP_FAUX_CAP, buf, 2); if (ret != 2) { seq_printf(m, "faux/mst read failed\n"); goto out; } seq_printf(m, "faux/mst: %*ph\n", 2, buf); ret = drm_dp_dpcd_read(mgr->aux, DP_MSTM_CTRL, buf, 1); if (ret != 1) { seq_printf(m, "mst ctrl read failed\n"); goto out; } seq_printf(m, "mst ctrl: %*ph\n", 1, buf); /* dump the standard OUI branch header */ ret = drm_dp_dpcd_read(mgr->aux, DP_BRANCH_OUI, buf, DP_BRANCH_OUI_HEADER_SIZE); if (ret != DP_BRANCH_OUI_HEADER_SIZE) { seq_printf(m, "branch oui read failed\n"); goto out; } seq_printf(m, "branch oui: %*phN devid: ", 3, buf); for (i = 0x3; i < 0x8 && buf[i]; i++) seq_printf(m, "%c", buf[i]); seq_printf(m, " revision: hw: %x.%x sw: %x.%x\n", buf[0x9] >> 4, buf[0x9] & 0xf, buf[0xa], buf[0xb]); if (dump_dp_payload_table(mgr, buf)) seq_printf(m, "payload table: %*ph\n", DP_PAYLOAD_TABLE_SIZE, buf); } out: mutex_unlock(&mgr->lock); drm_modeset_unlock(&mgr->base.lock); } EXPORT_SYMBOL(drm_dp_mst_dump_topology); static void drm_dp_tx_work(struct work_struct *work) { struct drm_dp_mst_topology_mgr *mgr = container_of(work, struct drm_dp_mst_topology_mgr, tx_work); mutex_lock(&mgr->qlock); if (!list_empty(&mgr->tx_msg_downq)) process_single_down_tx_qlock(mgr); mutex_unlock(&mgr->qlock); } static inline void drm_dp_delayed_destroy_port(struct drm_dp_mst_port *port) { drm_dp_port_set_pdt(port, DP_PEER_DEVICE_NONE, port->mcs); if (port->connector) { drm_connector_unregister(port->connector); drm_connector_put(port->connector); } drm_dp_mst_put_port_malloc(port); } static inline void drm_dp_delayed_destroy_mstb(struct drm_dp_mst_branch *mstb) { struct drm_dp_mst_topology_mgr *mgr = mstb->mgr; struct drm_dp_mst_port *port, *port_tmp; struct drm_dp_sideband_msg_tx *txmsg, *txmsg_tmp; bool wake_tx = false; mutex_lock(&mgr->lock); list_for_each_entry_safe(port, port_tmp, &mstb->ports, next) { list_del(&port->next); drm_dp_mst_topology_put_port(port); } mutex_unlock(&mgr->lock); /* drop any tx slot msg */ mutex_lock(&mstb->mgr->qlock); list_for_each_entry_safe(txmsg, txmsg_tmp, &mgr->tx_msg_downq, next) { if (txmsg->dst != mstb) continue; txmsg->state = DRM_DP_SIDEBAND_TX_TIMEOUT; list_del(&txmsg->next); wake_tx = true; } mutex_unlock(&mstb->mgr->qlock); if (wake_tx) wake_up_all(&mstb->mgr->tx_waitq); drm_dp_mst_put_mstb_malloc(mstb); } static void drm_dp_delayed_destroy_work(struct work_struct *work) { struct drm_dp_mst_topology_mgr *mgr = container_of(work, struct drm_dp_mst_topology_mgr, delayed_destroy_work); bool send_hotplug = false, go_again; /* * Not a regular list traverse as we have to drop the destroy * connector lock before destroying the mstb/port, to avoid AB->BA * ordering between this lock and the config mutex. */ do { go_again = false; for (;;) { struct drm_dp_mst_branch *mstb; mutex_lock(&mgr->delayed_destroy_lock); mstb = list_first_entry_or_null(&mgr->destroy_branch_device_list, struct drm_dp_mst_branch, destroy_next); if (mstb) list_del(&mstb->destroy_next); mutex_unlock(&mgr->delayed_destroy_lock); if (!mstb) break; drm_dp_delayed_destroy_mstb(mstb); go_again = true; } for (;;) { struct drm_dp_mst_port *port; mutex_lock(&mgr->delayed_destroy_lock); port = list_first_entry_or_null(&mgr->destroy_port_list, struct drm_dp_mst_port, next); if (port) list_del(&port->next); mutex_unlock(&mgr->delayed_destroy_lock); if (!port) break; drm_dp_delayed_destroy_port(port); send_hotplug = true; go_again = true; } } while (go_again); if (send_hotplug) drm_kms_helper_hotplug_event(mgr->dev); } static struct drm_private_state * drm_dp_mst_duplicate_state(struct drm_private_obj *obj) { struct drm_dp_mst_topology_state *state, *old_state = to_dp_mst_topology_state(obj->state); struct drm_dp_mst_atomic_payload *pos, *payload; state = kmemdup(old_state, sizeof(*state), GFP_KERNEL); if (!state) return NULL; __drm_atomic_helper_private_obj_duplicate_state(obj, &state->base); INIT_LIST_HEAD(&state->payloads); state->commit_deps = NULL; state->num_commit_deps = 0; state->pending_crtc_mask = 0; list_for_each_entry(pos, &old_state->payloads, next) { /* Prune leftover freed timeslot allocations */ if (pos->delete) continue; payload = kmemdup(pos, sizeof(*payload), GFP_KERNEL); if (!payload) goto fail; drm_dp_mst_get_port_malloc(payload->port); list_add(&payload->next, &state->payloads); } return &state->base; fail: list_for_each_entry_safe(pos, payload, &state->payloads, next) { drm_dp_mst_put_port_malloc(pos->port); kfree(pos); } kfree(state); return NULL; } static void drm_dp_mst_destroy_state(struct drm_private_obj *obj, struct drm_private_state *state) { struct drm_dp_mst_topology_state *mst_state = to_dp_mst_topology_state(state); struct drm_dp_mst_atomic_payload *pos, *tmp; int i; list_for_each_entry_safe(pos, tmp, &mst_state->payloads, next) { /* We only keep references to ports with active payloads */ if (!pos->delete) drm_dp_mst_put_port_malloc(pos->port); kfree(pos); } for (i = 0; i < mst_state->num_commit_deps; i++) drm_crtc_commit_put(mst_state->commit_deps[i]); kfree(mst_state->commit_deps); kfree(mst_state); } static bool drm_dp_mst_port_downstream_of_branch(struct drm_dp_mst_port *port, struct drm_dp_mst_branch *branch) { while (port->parent) { if (port->parent == branch) return true; if (port->parent->port_parent) port = port->parent->port_parent; else break; } return false; } static bool drm_dp_mst_port_downstream_of_parent_locked(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port, struct drm_dp_mst_port *parent) { if (!mgr->mst_primary) return false; port = drm_dp_mst_topology_get_port_validated_locked(mgr->mst_primary, port); if (!port) return false; if (!parent) return true; parent = drm_dp_mst_topology_get_port_validated_locked(mgr->mst_primary, parent); if (!parent) return false; if (!parent->mstb) return false; return drm_dp_mst_port_downstream_of_branch(port, parent->mstb); } /** * drm_dp_mst_port_downstream_of_parent - check if a port is downstream of a parent port * @mgr: MST topology manager * @port: the port being looked up * @parent: the parent port * * The function returns %true if @port is downstream of @parent. If @parent is * %NULL - denoting the root port - the function returns %true if @port is in * @mgr's topology. */ bool drm_dp_mst_port_downstream_of_parent(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_port *port, struct drm_dp_mst_port *parent) { bool ret; mutex_lock(&mgr->lock); ret = drm_dp_mst_port_downstream_of_parent_locked(mgr, port, parent); mutex_unlock(&mgr->lock); return ret; } EXPORT_SYMBOL(drm_dp_mst_port_downstream_of_parent); static int drm_dp_mst_atomic_check_port_bw_limit(struct drm_dp_mst_port *port, struct drm_dp_mst_topology_state *state, struct drm_dp_mst_port **failing_port); static int drm_dp_mst_atomic_check_mstb_bw_limit(struct drm_dp_mst_branch *mstb, struct drm_dp_mst_topology_state *state, struct drm_dp_mst_port **failing_port) { struct drm_dp_mst_atomic_payload *payload; struct drm_dp_mst_port *port; int pbn_used = 0, ret; bool found = false; /* Check that we have at least one port in our state that's downstream * of this branch, otherwise we can skip this branch */ list_for_each_entry(payload, &state->payloads, next) { if (!payload->pbn || !drm_dp_mst_port_downstream_of_branch(payload->port, mstb)) continue; found = true; break; } if (!found) return 0; if (mstb->port_parent) drm_dbg_atomic(mstb->mgr->dev, "[MSTB:%p] [MST PORT:%p] Checking bandwidth limits on [MSTB:%p]\n", mstb->port_parent->parent, mstb->port_parent, mstb); else drm_dbg_atomic(mstb->mgr->dev, "[MSTB:%p] Checking bandwidth limits\n", mstb); list_for_each_entry(port, &mstb->ports, next) { ret = drm_dp_mst_atomic_check_port_bw_limit(port, state, failing_port); if (ret < 0) return ret; pbn_used += ret; } return pbn_used; } static int drm_dp_mst_atomic_check_port_bw_limit(struct drm_dp_mst_port *port, struct drm_dp_mst_topology_state *state, struct drm_dp_mst_port **failing_port) { struct drm_dp_mst_atomic_payload *payload; int pbn_used = 0; if (port->pdt == DP_PEER_DEVICE_NONE) return 0; if (drm_dp_mst_is_end_device(port->pdt, port->mcs)) { payload = drm_atomic_get_mst_payload_state(state, port); if (!payload) return 0; /* * This could happen if the sink deasserted its HPD line, but * the branch device still reports it as attached (PDT != NONE). */ if (!port->full_pbn) { drm_dbg_atomic(port->mgr->dev, "[MSTB:%p] [MST PORT:%p] no BW available for the port\n", port->parent, port); *failing_port = port; return -EINVAL; } pbn_used = payload->pbn; } else { pbn_used = drm_dp_mst_atomic_check_mstb_bw_limit(port->mstb, state, failing_port); if (pbn_used <= 0) return pbn_used; } if (pbn_used > port->full_pbn) { drm_dbg_atomic(port->mgr->dev, "[MSTB:%p] [MST PORT:%p] required PBN of %d exceeds port limit of %d\n", port->parent, port, pbn_used, port->full_pbn); *failing_port = port; return -ENOSPC; } drm_dbg_atomic(port->mgr->dev, "[MSTB:%p] [MST PORT:%p] uses %d out of %d PBN\n", port->parent, port, pbn_used, port->full_pbn); return pbn_used; } static inline int drm_dp_mst_atomic_check_payload_alloc_limits(struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_topology_state *mst_state) { struct drm_dp_mst_atomic_payload *payload; int avail_slots = mst_state->total_avail_slots, payload_count = 0; list_for_each_entry(payload, &mst_state->payloads, next) { /* Releasing payloads is always OK-even if the port is gone */ if (payload->delete) { drm_dbg_atomic(mgr->dev, "[MST PORT:%p] releases all time slots\n", payload->port); continue; } drm_dbg_atomic(mgr->dev, "[MST PORT:%p] requires %d time slots\n", payload->port, payload->time_slots); avail_slots -= payload->time_slots; if (avail_slots < 0) { drm_dbg_atomic(mgr->dev, "[MST PORT:%p] not enough time slots in mst state %p (avail=%d)\n", payload->port, mst_state, avail_slots + payload->time_slots); return -ENOSPC; } if (++payload_count > mgr->max_payloads) { drm_dbg_atomic(mgr->dev, "[MST MGR:%p] state %p has too many payloads (max=%d)\n", mgr, mst_state, mgr->max_payloads); return -EINVAL; } /* Assign a VCPI */ if (!payload->vcpi) { payload->vcpi = ffz(mst_state->payload_mask) + 1; drm_dbg_atomic(mgr->dev, "[MST PORT:%p] assigned VCPI #%d\n", payload->port, payload->vcpi); mst_state->payload_mask |= BIT(payload->vcpi - 1); } } if (!payload_count) mst_state->pbn_div.full = dfixed_const(0); drm_dbg_atomic(mgr->dev, "[MST MGR:%p] mst state %p TU pbn_div=%d avail=%d used=%d\n", mgr, mst_state, dfixed_trunc(mst_state->pbn_div), avail_slots, mst_state->total_avail_slots - avail_slots); return 0; } /** * drm_dp_mst_add_affected_dsc_crtcs * @state: Pointer to the new struct drm_dp_mst_topology_state * @mgr: MST topology manager * * Whenever there is a change in mst topology * DSC configuration would have to be recalculated * therefore we need to trigger modeset on all affected * CRTCs in that topology * * See also: * drm_dp_mst_atomic_enable_dsc() */ int drm_dp_mst_add_affected_dsc_crtcs(struct drm_atomic_state *state, struct drm_dp_mst_topology_mgr *mgr) { struct drm_dp_mst_topology_state *mst_state; struct drm_dp_mst_atomic_payload *pos; struct drm_connector *connector; struct drm_connector_state *conn_state; struct drm_crtc *crtc; struct drm_crtc_state *crtc_state; mst_state = drm_atomic_get_mst_topology_state(state, mgr); if (IS_ERR(mst_state)) return PTR_ERR(mst_state); list_for_each_entry(pos, &mst_state->payloads, next) { connector = pos->port->connector; if (!connector) return -EINVAL; conn_state = drm_atomic_get_connector_state(state, connector); if (IS_ERR(conn_state)) return PTR_ERR(conn_state); crtc = conn_state->crtc; if (!crtc) continue; if (!drm_dp_mst_dsc_aux_for_port(pos->port)) continue; crtc_state = drm_atomic_get_crtc_state(mst_state->base.state, crtc); if (IS_ERR(crtc_state)) return PTR_ERR(crtc_state); drm_dbg_atomic(mgr->dev, "[MST MGR:%p] Setting mode_changed flag on CRTC %p\n", mgr, crtc); crtc_state->mode_changed = true; } return 0; } EXPORT_SYMBOL(drm_dp_mst_add_affected_dsc_crtcs); /** * drm_dp_mst_atomic_enable_dsc - Set DSC Enable Flag to On/Off * @state: Pointer to the new drm_atomic_state * @port: Pointer to the affected MST Port * @pbn: Newly recalculated bw required for link with DSC enabled * @enable: Boolean flag to enable or disable DSC on the port * * This function enables DSC on the given Port * by recalculating its vcpi from pbn provided * and sets dsc_enable flag to keep track of which * ports have DSC enabled * */ int drm_dp_mst_atomic_enable_dsc(struct drm_atomic_state *state, struct drm_dp_mst_port *port, int pbn, bool enable) { struct drm_dp_mst_topology_state *mst_state; struct drm_dp_mst_atomic_payload *payload; int time_slots = 0; mst_state = drm_atomic_get_mst_topology_state(state, port->mgr); if (IS_ERR(mst_state)) return PTR_ERR(mst_state); payload = drm_atomic_get_mst_payload_state(mst_state, port); if (!payload) { drm_dbg_atomic(state->dev, "[MST PORT:%p] Couldn't find payload in mst state %p\n", port, mst_state); return -EINVAL; } if (payload->dsc_enabled == enable) { drm_dbg_atomic(state->dev, "[MST PORT:%p] DSC flag is already set to %d, returning %d time slots\n", port, enable, payload->time_slots); time_slots = payload->time_slots; } if (enable) { time_slots = drm_dp_atomic_find_time_slots(state, port->mgr, port, pbn); drm_dbg_atomic(state->dev, "[MST PORT:%p] Enabling DSC flag, reallocating %d time slots on the port\n", port, time_slots); if (time_slots < 0) return -EINVAL; } payload->dsc_enabled = enable; return time_slots; } EXPORT_SYMBOL(drm_dp_mst_atomic_enable_dsc); /** * drm_dp_mst_atomic_check_mgr - Check the atomic state of an MST topology manager * @state: The global atomic state * @mgr: Manager to check * @mst_state: The MST atomic state for @mgr * @failing_port: Returns the port with a BW limitation * * Checks the given MST manager's topology state for an atomic update to ensure * that it's valid. This includes checking whether there's enough bandwidth to * support the new timeslot allocations in the atomic update. * * Any atomic drivers supporting DP MST must make sure to call this or * the drm_dp_mst_atomic_check() function after checking the rest of their state * in their &drm_mode_config_funcs.atomic_check() callback. * * See also: * drm_dp_mst_atomic_check() * drm_dp_atomic_find_time_slots() * drm_dp_atomic_release_time_slots() * * Returns: * - 0 if the new state is valid * - %-ENOSPC, if the new state is invalid, because of BW limitation * @failing_port is set to: * * - The non-root port where a BW limit check failed * with all the ports downstream of @failing_port passing * the BW limit check. * The returned port pointer is valid until at least * one payload downstream of it exists. * - %NULL if the BW limit check failed at the root port * with all the ports downstream of the root port passing * the BW limit check. * * - %-EINVAL, if the new state is invalid, because the root port has * too many payloads. */ int drm_dp_mst_atomic_check_mgr(struct drm_atomic_state *state, struct drm_dp_mst_topology_mgr *mgr, struct drm_dp_mst_topology_state *mst_state, struct drm_dp_mst_port **failing_port) { int ret; *failing_port = NULL; if (!mgr->mst_state) return 0; mutex_lock(&mgr->lock); ret = drm_dp_mst_atomic_check_mstb_bw_limit(mgr->mst_primary, mst_state, failing_port); mutex_unlock(&mgr->lock); if (ret < 0) return ret; return drm_dp_mst_atomic_check_payload_alloc_limits(mgr, mst_state); } EXPORT_SYMBOL(drm_dp_mst_atomic_check_mgr); /** * drm_dp_mst_atomic_check - Check that the new state of an MST topology in an * atomic update is valid * @state: Pointer to the new &struct drm_dp_mst_topology_state * * Checks the given topology state for an atomic update to ensure that it's * valid, calling drm_dp_mst_atomic_check_mgr() for all MST manager in the * atomic state. This includes checking whether there's enough bandwidth to * support the new timeslot allocations in the atomic update. * * Any atomic drivers supporting DP MST must make sure to call this after * checking the rest of their state in their * &drm_mode_config_funcs.atomic_check() callback. * * See also: * drm_dp_mst_atomic_check_mgr() * drm_dp_atomic_find_time_slots() * drm_dp_atomic_release_time_slots() * * Returns: * * 0 if the new state is valid, negative error code otherwise. */ int drm_dp_mst_atomic_check(struct drm_atomic_state *state) { struct drm_dp_mst_topology_mgr *mgr; struct drm_dp_mst_topology_state *mst_state; int i, ret = 0; for_each_new_mst_mgr_in_state(state, mgr, mst_state, i) { struct drm_dp_mst_port *tmp_port; ret = drm_dp_mst_atomic_check_mgr(state, mgr, mst_state, &tmp_port); if (ret) break; } return ret; } EXPORT_SYMBOL(drm_dp_mst_atomic_check); const struct drm_private_state_funcs drm_dp_mst_topology_state_funcs = { .atomic_duplicate_state = drm_dp_mst_duplicate_state, .atomic_destroy_state = drm_dp_mst_destroy_state, }; EXPORT_SYMBOL(drm_dp_mst_topology_state_funcs); /** * drm_atomic_get_mst_topology_state: get MST topology state * @state: global atomic state * @mgr: MST topology manager, also the private object in this case * * This function wraps drm_atomic_get_priv_obj_state() passing in the MST atomic * state vtable so that the private object state returned is that of a MST * topology object. * * RETURNS: * * The MST topology state or error pointer. */ struct drm_dp_mst_topology_state *drm_atomic_get_mst_topology_state(struct drm_atomic_state *state, struct drm_dp_mst_topology_mgr *mgr) { return to_dp_mst_topology_state(drm_atomic_get_private_obj_state(state, &mgr->base)); } EXPORT_SYMBOL(drm_atomic_get_mst_topology_state); /** * drm_atomic_get_old_mst_topology_state: get old MST topology state in atomic state, if any * @state: global atomic state * @mgr: MST topology manager, also the private object in this case * * This function wraps drm_atomic_get_old_private_obj_state() passing in the MST atomic * state vtable so that the private object state returned is that of a MST * topology object. * * Returns: * * The old MST topology state, or NULL if there's no topology state for this MST mgr * in the global atomic state */ struct drm_dp_mst_topology_state * drm_atomic_get_old_mst_topology_state(struct drm_atomic_state *state, struct drm_dp_mst_topology_mgr *mgr) { struct drm_private_state *old_priv_state = drm_atomic_get_old_private_obj_state(state, &mgr->base); return old_priv_state ? to_dp_mst_topology_state(old_priv_state) : NULL; } EXPORT_SYMBOL(drm_atomic_get_old_mst_topology_state); /** * drm_atomic_get_new_mst_topology_state: get new MST topology state in atomic state, if any * @state: global atomic state * @mgr: MST topology manager, also the private object in this case * * This function wraps drm_atomic_get_new_private_obj_state() passing in the MST atomic * state vtable so that the private object state returned is that of a MST * topology object. * * Returns: * * The new MST topology state, or NULL if there's no topology state for this MST mgr * in the global atomic state */ struct drm_dp_mst_topology_state * drm_atomic_get_new_mst_topology_state(struct drm_atomic_state *state, struct drm_dp_mst_topology_mgr *mgr) { struct drm_private_state *new_priv_state = drm_atomic_get_new_private_obj_state(state, &mgr->base); return new_priv_state ? to_dp_mst_topology_state(new_priv_state) : NULL; } EXPORT_SYMBOL(drm_atomic_get_new_mst_topology_state); /** * drm_dp_mst_topology_mgr_init - initialise a topology manager * @mgr: manager struct to initialise * @dev: device providing this structure - for i2c addition. * @aux: DP helper aux channel to talk to this device * @max_dpcd_transaction_bytes: hw specific DPCD transaction limit * @max_payloads: maximum number of payloads this GPU can source * @conn_base_id: the connector object ID the MST device is connected to. * * Return 0 for success, or negative error code on failure */ int drm_dp_mst_topology_mgr_init(struct drm_dp_mst_topology_mgr *mgr, struct drm_device *dev, struct drm_dp_aux *aux, int max_dpcd_transaction_bytes, int max_payloads, int conn_base_id) { struct drm_dp_mst_topology_state *mst_state; mutex_init(&mgr->lock); mutex_init(&mgr->qlock); mutex_init(&mgr->delayed_destroy_lock); mutex_init(&mgr->up_req_lock); mutex_init(&mgr->probe_lock); #if IS_ENABLED(CONFIG_DRM_DEBUG_DP_MST_TOPOLOGY_REFS) mutex_init(&mgr->topology_ref_history_lock); stack_depot_init(); #endif INIT_LIST_HEAD(&mgr->tx_msg_downq); INIT_LIST_HEAD(&mgr->destroy_port_list); INIT_LIST_HEAD(&mgr->destroy_branch_device_list); INIT_LIST_HEAD(&mgr->up_req_list); /* * delayed_destroy_work will be queued on a dedicated WQ, so that any * requeuing will be also flushed when deiniting the topology manager. */ mgr->delayed_destroy_wq = alloc_ordered_workqueue("drm_dp_mst_wq", 0); if (mgr->delayed_destroy_wq == NULL) return -ENOMEM; INIT_WORK(&mgr->work, drm_dp_mst_link_probe_work); INIT_WORK(&mgr->tx_work, drm_dp_tx_work); INIT_WORK(&mgr->delayed_destroy_work, drm_dp_delayed_destroy_work); INIT_WORK(&mgr->up_req_work, drm_dp_mst_up_req_work); init_waitqueue_head(&mgr->tx_waitq); mgr->dev = dev; mgr->aux = aux; mgr->max_dpcd_transaction_bytes = max_dpcd_transaction_bytes; mgr->max_payloads = max_payloads; mgr->conn_base_id = conn_base_id; mst_state = kzalloc(sizeof(*mst_state), GFP_KERNEL); if (mst_state == NULL) return -ENOMEM; mst_state->total_avail_slots = 63; mst_state->start_slot = 1; mst_state->mgr = mgr; INIT_LIST_HEAD(&mst_state->payloads); drm_atomic_private_obj_init(dev, &mgr->base, &mst_state->base, &drm_dp_mst_topology_state_funcs); return 0; } EXPORT_SYMBOL(drm_dp_mst_topology_mgr_init); /** * drm_dp_mst_topology_mgr_destroy() - destroy topology manager. * @mgr: manager to destroy */ void drm_dp_mst_topology_mgr_destroy(struct drm_dp_mst_topology_mgr *mgr) { drm_dp_mst_topology_mgr_set_mst(mgr, false); flush_work(&mgr->work); /* The following will also drain any requeued work on the WQ. */ if (mgr->delayed_destroy_wq) { destroy_workqueue(mgr->delayed_destroy_wq); mgr->delayed_destroy_wq = NULL; } mgr->dev = NULL; mgr->aux = NULL; drm_atomic_private_obj_fini(&mgr->base); mgr->funcs = NULL; mutex_destroy(&mgr->delayed_destroy_lock); mutex_destroy(&mgr->qlock); mutex_destroy(&mgr->lock); mutex_destroy(&mgr->up_req_lock); mutex_destroy(&mgr->probe_lock); #if IS_ENABLED(CONFIG_DRM_DEBUG_DP_MST_TOPOLOGY_REFS) mutex_destroy(&mgr->topology_ref_history_lock); #endif } EXPORT_SYMBOL(drm_dp_mst_topology_mgr_destroy); static bool remote_i2c_read_ok(const struct i2c_msg msgs[], int num) { int i; if (num - 1 > DP_REMOTE_I2C_READ_MAX_TRANSACTIONS) return false; for (i = 0; i < num - 1; i++) { if (msgs[i].flags & I2C_M_RD || msgs[i].len > 0xff) return false; } return msgs[num - 1].flags & I2C_M_RD && msgs[num - 1].len <= 0xff; } static bool remote_i2c_write_ok(const struct i2c_msg msgs[], int num) { int i; for (i = 0; i < num - 1; i++) { if (msgs[i].flags & I2C_M_RD || !(msgs[i].flags & I2C_M_STOP) || msgs[i].len > 0xff) return false; } return !(msgs[num - 1].flags & I2C_M_RD) && msgs[num - 1].len <= 0xff; } static int drm_dp_mst_i2c_read(struct drm_dp_mst_branch *mstb, struct drm_dp_mst_port *port, struct i2c_msg *msgs, int num) { struct drm_dp_mst_topology_mgr *mgr = port->mgr; unsigned int i; struct drm_dp_sideband_msg_req_body msg; struct drm_dp_sideband_msg_tx *txmsg = NULL; int ret; memset(&msg, 0, sizeof(msg)); msg.req_type = DP_REMOTE_I2C_READ; msg.u.i2c_read.num_transactions = num - 1; msg.u.i2c_read.port_number = port->port_num; for (i = 0; i < num - 1; i++) { msg.u.i2c_read.transactions[i].i2c_dev_id = msgs[i].addr; msg.u.i2c_read.transactions[i].num_bytes = msgs[i].len; msg.u.i2c_read.transactions[i].bytes = msgs[i].buf; msg.u.i2c_read.transactions[i].no_stop_bit = !(msgs[i].flags & I2C_M_STOP); } msg.u.i2c_read.read_i2c_device_id = msgs[num - 1].addr; msg.u.i2c_read.num_bytes_read = msgs[num - 1].len; txmsg = kzalloc(sizeof(*txmsg), GFP_KERNEL); if (!txmsg) { ret = -ENOMEM; goto out; } txmsg->dst = mstb; drm_dp_encode_sideband_req(&msg, txmsg); drm_dp_queue_down_tx(mgr, txmsg); ret = drm_dp_mst_wait_tx_reply(mstb, txmsg); if (ret > 0) { if (txmsg->reply.reply_type == DP_SIDEBAND_REPLY_NAK) { ret = -EREMOTEIO; goto out; } if (txmsg->reply.u.remote_i2c_read_ack.num_bytes != msgs[num - 1].len) { ret = -EIO; goto out; } memcpy(msgs[num - 1].buf, txmsg->reply.u.remote_i2c_read_ack.bytes, msgs[num - 1].len); ret = num; } out: kfree(txmsg); return ret; } static int drm_dp_mst_i2c_write(struct drm_dp_mst_branch *mstb, struct drm_dp_mst_port *port, struct i2c_msg *msgs, int num) { struct drm_dp_mst_topology_mgr *mgr = port->mgr; unsigned int i; struct drm_dp_sideband_msg_req_body msg; struct drm_dp_sideband_msg_tx *txmsg = NULL; int ret; txmsg = kzalloc(sizeof(*txmsg), GFP_KERNEL); if (!txmsg) { ret = -ENOMEM; goto out; } for (i = 0; i < num; i++) { memset(&msg, 0, sizeof(msg)); msg.req_type = DP_REMOTE_I2C_WRITE; msg.u.i2c_write.port_number = port->port_num; msg.u.i2c_write.write_i2c_device_id = msgs[i].addr; msg.u.i2c_write.num_bytes = msgs[i].len; msg.u.i2c_write.bytes = msgs[i].buf; memset(txmsg, 0, sizeof(*txmsg)); txmsg->dst = mstb; drm_dp_encode_sideband_req(&msg, txmsg); drm_dp_queue_down_tx(mgr, txmsg); ret = drm_dp_mst_wait_tx_reply(mstb, txmsg); if (ret > 0) { if (txmsg->reply.reply_type == DP_SIDEBAND_REPLY_NAK) { ret = -EREMOTEIO; goto out; } } else { goto out; } } ret = num; out: kfree(txmsg); return ret; } /* I2C device */ static int drm_dp_mst_i2c_xfer(struct i2c_adapter *adapter, struct i2c_msg *msgs, int num) { struct drm_dp_aux *aux = adapter->algo_data; struct drm_dp_mst_port *port = container_of(aux, struct drm_dp_mst_port, aux); struct drm_dp_mst_branch *mstb; struct drm_dp_mst_topology_mgr *mgr = port->mgr; int ret; mstb = drm_dp_mst_topology_get_mstb_validated(mgr, port->parent); if (!mstb) return -EREMOTEIO; if (remote_i2c_read_ok(msgs, num)) { ret = drm_dp_mst_i2c_read(mstb, port, msgs, num); } else if (remote_i2c_write_ok(msgs, num)) { ret = drm_dp_mst_i2c_write(mstb, port, msgs, num); } else { drm_dbg_kms(mgr->dev, "Unsupported I2C transaction for MST device\n"); ret = -EIO; } drm_dp_mst_topology_put_mstb(mstb); return ret; } static u32 drm_dp_mst_i2c_functionality(struct i2c_adapter *adapter) { return I2C_FUNC_I2C | I2C_FUNC_SMBUS_EMUL | I2C_FUNC_SMBUS_READ_BLOCK_DATA | I2C_FUNC_SMBUS_BLOCK_PROC_CALL | I2C_FUNC_10BIT_ADDR; } static const struct i2c_algorithm drm_dp_mst_i2c_algo = { .functionality = drm_dp_mst_i2c_functionality, .master_xfer = drm_dp_mst_i2c_xfer, }; /** * drm_dp_mst_register_i2c_bus() - register an I2C adapter for I2C-over-AUX * @port: The port to add the I2C bus on * * Returns 0 on success or a negative error code on failure. */ static int drm_dp_mst_register_i2c_bus(struct drm_dp_mst_port *port) { struct drm_dp_aux *aux = &port->aux; struct device *parent_dev = port->mgr->dev->dev; aux->ddc.algo = &drm_dp_mst_i2c_algo; aux->ddc.algo_data = aux; aux->ddc.retries = 3; aux->ddc.owner = THIS_MODULE; /* FIXME: set the kdev of the port's connector as parent */ aux->ddc.dev.parent = parent_dev; aux->ddc.dev.of_node = parent_dev->of_node; strscpy(aux->ddc.name, aux->name ? aux->name : dev_name(parent_dev), sizeof(aux->ddc.name)); return i2c_add_adapter(&aux->ddc); } /** * drm_dp_mst_unregister_i2c_bus() - unregister an I2C-over-AUX adapter * @port: The port to remove the I2C bus from */ static void drm_dp_mst_unregister_i2c_bus(struct drm_dp_mst_port *port) { i2c_del_adapter(&port->aux.ddc); } /** * drm_dp_mst_is_virtual_dpcd() - Is the given port a virtual DP Peer Device * @port: The port to check * * A single physical MST hub object can be represented in the topology * by multiple branches, with virtual ports between those branches. * * As of DP1.4, An MST hub with internal (virtual) ports must expose * certain DPCD registers over those ports. See sections 2.6.1.1.1 * and 2.6.1.1.2 of Display Port specification v1.4 for details. * * May acquire mgr->lock * * Returns: * true if the port is a virtual DP peer device, false otherwise */ static bool drm_dp_mst_is_virtual_dpcd(struct drm_dp_mst_port *port) { struct drm_dp_mst_port *downstream_port; if (!port || port->dpcd_rev < DP_DPCD_REV_14) return false; /* Virtual DP Sink (Internal Display Panel) */ if (port->port_num >= 8) return true; /* DP-to-HDMI Protocol Converter */ if (port->pdt == DP_PEER_DEVICE_DP_LEGACY_CONV && !port->mcs && port->ldps) return true; /* DP-to-DP */ mutex_lock(&port->mgr->lock); if (port->pdt == DP_PEER_DEVICE_MST_BRANCHING && port->mstb && port->mstb->num_ports == 2) { list_for_each_entry(downstream_port, &port->mstb->ports, next) { if (downstream_port->pdt == DP_PEER_DEVICE_SST_SINK && !downstream_port->input) { mutex_unlock(&port->mgr->lock); return true; } } } mutex_unlock(&port->mgr->lock); return false; } /** * drm_dp_mst_dsc_aux_for_port() - Find the correct aux for DSC * @port: The port to check. A leaf of the MST tree with an attached display. * * Depending on the situation, DSC may be enabled via the endpoint aux, * the immediately upstream aux, or the connector's physical aux. * * This is both the correct aux to read DSC_CAPABILITY and the * correct aux to write DSC_ENABLED. * * This operation can be expensive (up to four aux reads), so * the caller should cache the return. * * Returns: * NULL if DSC cannot be enabled on this port, otherwise the aux device */ struct drm_dp_aux *drm_dp_mst_dsc_aux_for_port(struct drm_dp_mst_port *port) { struct drm_dp_mst_port *immediate_upstream_port; struct drm_dp_aux *immediate_upstream_aux; struct drm_dp_mst_port *fec_port; struct drm_dp_desc desc = {}; u8 endpoint_fec; u8 endpoint_dsc; if (!port) return NULL; if (port->parent->port_parent) immediate_upstream_port = port->parent->port_parent; else immediate_upstream_port = NULL; fec_port = immediate_upstream_port; while (fec_port) { /* * Each physical link (i.e. not a virtual port) between the * output and the primary device must support FEC */ if (!drm_dp_mst_is_virtual_dpcd(fec_port) && !fec_port->fec_capable) return NULL; fec_port = fec_port->parent->port_parent; } /* DP-to-DP peer device */ if (drm_dp_mst_is_virtual_dpcd(immediate_upstream_port)) { u8 upstream_dsc; if (drm_dp_dpcd_read(&port->aux, DP_DSC_SUPPORT, &endpoint_dsc, 1) != 1) return NULL; if (drm_dp_dpcd_read(&port->aux, DP_FEC_CAPABILITY, &endpoint_fec, 1) != 1) return NULL; if (drm_dp_dpcd_read(&immediate_upstream_port->aux, DP_DSC_SUPPORT, &upstream_dsc, 1) != 1) return NULL; /* Enpoint decompression with DP-to-DP peer device */ if ((endpoint_dsc & DP_DSC_DECOMPRESSION_IS_SUPPORTED) && (endpoint_fec & DP_FEC_CAPABLE) && (upstream_dsc & DP_DSC_PASSTHROUGH_IS_SUPPORTED)) { port->passthrough_aux = &immediate_upstream_port->aux; return &port->aux; } /* Virtual DPCD decompression with DP-to-DP peer device */ return &immediate_upstream_port->aux; } /* Virtual DPCD decompression with DP-to-HDMI or Virtual DP Sink */ if (drm_dp_mst_is_virtual_dpcd(port)) return &port->aux; /* * Synaptics quirk * Applies to ports for which: * - Physical aux has Synaptics OUI * - DPv1.4 or higher * - Port is on primary branch device * - Not a VGA adapter (DP_DWN_STRM_PORT_TYPE_ANALOG) */ if (immediate_upstream_port) immediate_upstream_aux = &immediate_upstream_port->aux; else immediate_upstream_aux = port->mgr->aux; if (drm_dp_read_desc(immediate_upstream_aux, &desc, true)) return NULL; if (drm_dp_has_quirk(&desc, DP_DPCD_QUIRK_DSC_WITHOUT_VIRTUAL_DPCD)) { u8 dpcd_ext[DP_RECEIVER_CAP_SIZE]; if (drm_dp_read_dpcd_caps(immediate_upstream_aux, dpcd_ext) < 0) return NULL; if (dpcd_ext[DP_DPCD_REV] >= DP_DPCD_REV_14 && ((dpcd_ext[DP_DOWNSTREAMPORT_PRESENT] & DP_DWN_STRM_PORT_PRESENT) && ((dpcd_ext[DP_DOWNSTREAMPORT_PRESENT] & DP_DWN_STRM_PORT_TYPE_MASK) != DP_DWN_STRM_PORT_TYPE_ANALOG))) return immediate_upstream_aux; } /* * The check below verifies if the MST sink * connected to the GPU is capable of DSC - * therefore the endpoint needs to be * both DSC and FEC capable. */ if (drm_dp_dpcd_read(&port->aux, DP_DSC_SUPPORT, &endpoint_dsc, 1) != 1) return NULL; if (drm_dp_dpcd_read(&port->aux, DP_FEC_CAPABILITY, &endpoint_fec, 1) != 1) return NULL; if ((endpoint_dsc & DP_DSC_DECOMPRESSION_IS_SUPPORTED) && (endpoint_fec & DP_FEC_CAPABLE)) return &port->aux; return NULL; } EXPORT_SYMBOL(drm_dp_mst_dsc_aux_for_port); |