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2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060 2061 2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084 2085 2086 2087 2088 2089 2090 2091 2092 2093 2094 2095 2096 2097 2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108 2109 2110 2111 2112 2113 2114 2115 2116 2117 2118 2119 2120 2121 2122 2123 2124 2125 2126 2127 2128 2129 2130 2131 2132 2133 2134 2135 2136 2137 2138 2139 2140 2141 2142 2143 2144 2145 2146 2147 2148 2149 2150 2151 2152 2153 2154 2155 2156 2157 2158 2159 2160 2161 2162 2163 2164 2165 2166 2167 2168 2169 2170 2171 2172 2173 2174 2175 2176 2177 2178 2179 2180 2181 2182 | // SPDX-License-Identifier: GPL-2.0 /* Copyright(c) 2013 - 2019 Intel Corporation. */ #include "fm10k_common.h" /** * fm10k_fifo_init - Initialize a message FIFO * @fifo: pointer to FIFO * @buffer: pointer to memory to be used to store FIFO * @size: maximum message size to store in FIFO, must be 2^n - 1 **/ static void fm10k_fifo_init(struct fm10k_mbx_fifo *fifo, u32 *buffer, u16 size) { fifo->buffer = buffer; fifo->size = size; fifo->head = 0; fifo->tail = 0; } /** * fm10k_fifo_used - Retrieve used space in FIFO * @fifo: pointer to FIFO * * This function returns the number of DWORDs used in the FIFO **/ static u16 fm10k_fifo_used(struct fm10k_mbx_fifo *fifo) { return fifo->tail - fifo->head; } /** * fm10k_fifo_unused - Retrieve unused space in FIFO * @fifo: pointer to FIFO * * This function returns the number of unused DWORDs in the FIFO **/ static u16 fm10k_fifo_unused(struct fm10k_mbx_fifo *fifo) { return fifo->size + fifo->head - fifo->tail; } /** * fm10k_fifo_empty - Test to verify if FIFO is empty * @fifo: pointer to FIFO * * This function returns true if the FIFO is empty, else false **/ static bool fm10k_fifo_empty(struct fm10k_mbx_fifo *fifo) { return fifo->head == fifo->tail; } /** * fm10k_fifo_head_offset - returns indices of head with given offset * @fifo: pointer to FIFO * @offset: offset to add to head * * This function returns the indices into the FIFO based on head + offset **/ static u16 fm10k_fifo_head_offset(struct fm10k_mbx_fifo *fifo, u16 offset) { return (fifo->head + offset) & (fifo->size - 1); } /** * fm10k_fifo_tail_offset - returns indices of tail with given offset * @fifo: pointer to FIFO * @offset: offset to add to tail * * This function returns the indices into the FIFO based on tail + offset **/ static u16 fm10k_fifo_tail_offset(struct fm10k_mbx_fifo *fifo, u16 offset) { return (fifo->tail + offset) & (fifo->size - 1); } /** * fm10k_fifo_head_len - Retrieve length of first message in FIFO * @fifo: pointer to FIFO * * This function returns the size of the first message in the FIFO **/ static u16 fm10k_fifo_head_len(struct fm10k_mbx_fifo *fifo) { u32 *head = fifo->buffer + fm10k_fifo_head_offset(fifo, 0); /* verify there is at least 1 DWORD in the fifo so *head is valid */ if (fm10k_fifo_empty(fifo)) return 0; /* retieve the message length */ return FM10K_TLV_DWORD_LEN(*head); } /** * fm10k_fifo_head_drop - Drop the first message in FIFO * @fifo: pointer to FIFO * * This function returns the size of the message dropped from the FIFO **/ static u16 fm10k_fifo_head_drop(struct fm10k_mbx_fifo *fifo) { u16 len = fm10k_fifo_head_len(fifo); /* update head so it is at the start of next frame */ fifo->head += len; return len; } /** * fm10k_fifo_drop_all - Drop all messages in FIFO * @fifo: pointer to FIFO * * This function resets the head pointer to drop all messages in the FIFO and * ensure the FIFO is empty. **/ static void fm10k_fifo_drop_all(struct fm10k_mbx_fifo *fifo) { fifo->head = fifo->tail; } /** * fm10k_mbx_index_len - Convert a head/tail index into a length value * @mbx: pointer to mailbox * @head: head index * @tail: head index * * This function takes the head and tail index and determines the length * of the data indicated by this pair. **/ static u16 fm10k_mbx_index_len(struct fm10k_mbx_info *mbx, u16 head, u16 tail) { u16 len = tail - head; /* we wrapped so subtract 2, one for index 0, one for all 1s index */ if (len > tail) len -= 2; return len & ((mbx->mbmem_len << 1) - 1); } /** * fm10k_mbx_tail_add - Determine new tail value with added offset * @mbx: pointer to mailbox * @offset: length to add to tail offset * * This function takes the local tail index and recomputes it for * a given length added as an offset. **/ static u16 fm10k_mbx_tail_add(struct fm10k_mbx_info *mbx, u16 offset) { u16 tail = (mbx->tail + offset + 1) & ((mbx->mbmem_len << 1) - 1); /* add/sub 1 because we cannot have offset 0 or all 1s */ return (tail > mbx->tail) ? --tail : ++tail; } /** * fm10k_mbx_tail_sub - Determine new tail value with subtracted offset * @mbx: pointer to mailbox * @offset: length to add to tail offset * * This function takes the local tail index and recomputes it for * a given length added as an offset. **/ static u16 fm10k_mbx_tail_sub(struct fm10k_mbx_info *mbx, u16 offset) { u16 tail = (mbx->tail - offset - 1) & ((mbx->mbmem_len << 1) - 1); /* sub/add 1 because we cannot have offset 0 or all 1s */ return (tail < mbx->tail) ? ++tail : --tail; } /** * fm10k_mbx_head_add - Determine new head value with added offset * @mbx: pointer to mailbox * @offset: length to add to head offset * * This function takes the local head index and recomputes it for * a given length added as an offset. **/ static u16 fm10k_mbx_head_add(struct fm10k_mbx_info *mbx, u16 offset) { u16 head = (mbx->head + offset + 1) & ((mbx->mbmem_len << 1) - 1); /* add/sub 1 because we cannot have offset 0 or all 1s */ return (head > mbx->head) ? --head : ++head; } /** * fm10k_mbx_head_sub - Determine new head value with subtracted offset * @mbx: pointer to mailbox * @offset: length to add to head offset * * This function takes the local head index and recomputes it for * a given length added as an offset. **/ static u16 fm10k_mbx_head_sub(struct fm10k_mbx_info *mbx, u16 offset) { u16 head = (mbx->head - offset - 1) & ((mbx->mbmem_len << 1) - 1); /* sub/add 1 because we cannot have offset 0 or all 1s */ return (head < mbx->head) ? ++head : --head; } /** * fm10k_mbx_pushed_tail_len - Retrieve the length of message being pushed * @mbx: pointer to mailbox * * This function will return the length of the message currently being * pushed onto the tail of the Rx queue. **/ static u16 fm10k_mbx_pushed_tail_len(struct fm10k_mbx_info *mbx) { u32 *tail = mbx->rx.buffer + fm10k_fifo_tail_offset(&mbx->rx, 0); /* pushed tail is only valid if pushed is set */ if (!mbx->pushed) return 0; return FM10K_TLV_DWORD_LEN(*tail); } /** * fm10k_fifo_write_copy - pulls data off of msg and places it in FIFO * @fifo: pointer to FIFO * @msg: message array to populate * @tail_offset: additional offset to add to tail pointer * @len: length of FIFO to copy into message header * * This function will take a message and copy it into a section of the * FIFO. In order to get something into a location other than just * the tail you can use tail_offset to adjust the pointer. **/ static void fm10k_fifo_write_copy(struct fm10k_mbx_fifo *fifo, const u32 *msg, u16 tail_offset, u16 len) { u16 end = fm10k_fifo_tail_offset(fifo, tail_offset); u32 *tail = fifo->buffer + end; /* track when we should cross the end of the FIFO */ end = fifo->size - end; /* copy end of message before start of message */ if (end < len) memcpy(fifo->buffer, msg + end, (len - end) << 2); else end = len; /* Copy remaining message into Tx FIFO */ memcpy(tail, msg, end << 2); } /** * fm10k_fifo_enqueue - Enqueues the message to the tail of the FIFO * @fifo: pointer to FIFO * @msg: message array to read * * This function enqueues a message up to the size specified by the length * contained in the first DWORD of the message and will place at the tail * of the FIFO. It will return 0 on success, or a negative value on error. **/ static s32 fm10k_fifo_enqueue(struct fm10k_mbx_fifo *fifo, const u32 *msg) { u16 len = FM10K_TLV_DWORD_LEN(*msg); /* verify parameters */ if (len > fifo->size) return FM10K_MBX_ERR_SIZE; /* verify there is room for the message */ if (len > fm10k_fifo_unused(fifo)) return FM10K_MBX_ERR_NO_SPACE; /* Copy message into FIFO */ fm10k_fifo_write_copy(fifo, msg, 0, len); /* memory barrier to guarantee FIFO is written before tail update */ wmb(); /* Update Tx FIFO tail */ fifo->tail += len; return 0; } /** * fm10k_mbx_validate_msg_size - Validate incoming message based on size * @mbx: pointer to mailbox * @len: length of data pushed onto buffer * * This function analyzes the frame and will return a non-zero value when * the start of a message larger than the mailbox is detected. **/ static u16 fm10k_mbx_validate_msg_size(struct fm10k_mbx_info *mbx, u16 len) { struct fm10k_mbx_fifo *fifo = &mbx->rx; u16 total_len = 0, msg_len; /* length should include previous amounts pushed */ len += mbx->pushed; /* offset in message is based off of current message size */ do { u32 *msg; msg = fifo->buffer + fm10k_fifo_tail_offset(fifo, total_len); msg_len = FM10K_TLV_DWORD_LEN(*msg); total_len += msg_len; } while (total_len < len); /* message extends out of pushed section, but fits in FIFO */ if ((len < total_len) && (msg_len <= mbx->max_size)) return 0; /* return length of invalid section */ return (len < total_len) ? len : (len - total_len); } /** * fm10k_mbx_write_copy - pulls data off of Tx FIFO and places it in mbmem * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function will take a section of the Tx FIFO and copy it into the * mailbox memory. The offset in mbmem is based on the lower bits of the * tail and len determines the length to copy. **/ static void fm10k_mbx_write_copy(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { struct fm10k_mbx_fifo *fifo = &mbx->tx; u32 mbmem = mbx->mbmem_reg; u32 *head = fifo->buffer; u16 end, len, tail, mask; if (!mbx->tail_len) return; /* determine data length and mbmem tail index */ mask = mbx->mbmem_len - 1; len = mbx->tail_len; tail = fm10k_mbx_tail_sub(mbx, len); if (tail > mask) tail++; /* determine offset in the ring */ end = fm10k_fifo_head_offset(fifo, mbx->pulled); head += end; /* memory barrier to guarantee data is ready to be read */ rmb(); /* Copy message from Tx FIFO */ for (end = fifo->size - end; len; head = fifo->buffer) { do { /* adjust tail to match offset for FIFO */ tail &= mask; if (!tail) tail++; mbx->tx_mbmem_pulled++; /* write message to hardware FIFO */ fm10k_write_reg(hw, mbmem + tail++, *(head++)); } while (--len && --end); } } /** * fm10k_mbx_pull_head - Pulls data off of head of Tx FIFO * @hw: pointer to hardware structure * @mbx: pointer to mailbox * @head: acknowledgement number last received * * This function will push the tail index forward based on the remote * head index. It will then pull up to mbmem_len DWORDs off of the * head of the FIFO and will place it in the MBMEM registers * associated with the mailbox. **/ static void fm10k_mbx_pull_head(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx, u16 head) { u16 mbmem_len, len, ack = fm10k_mbx_index_len(mbx, head, mbx->tail); struct fm10k_mbx_fifo *fifo = &mbx->tx; /* update number of bytes pulled and update bytes in transit */ mbx->pulled += mbx->tail_len - ack; /* determine length of data to pull, reserve space for mbmem header */ mbmem_len = mbx->mbmem_len - 1; len = fm10k_fifo_used(fifo) - mbx->pulled; if (len > mbmem_len) len = mbmem_len; /* update tail and record number of bytes in transit */ mbx->tail = fm10k_mbx_tail_add(mbx, len - ack); mbx->tail_len = len; /* drop pulled messages from the FIFO */ for (len = fm10k_fifo_head_len(fifo); len && (mbx->pulled >= len); len = fm10k_fifo_head_len(fifo)) { mbx->pulled -= fm10k_fifo_head_drop(fifo); mbx->tx_messages++; mbx->tx_dwords += len; } /* Copy message out from the Tx FIFO */ fm10k_mbx_write_copy(hw, mbx); } /** * fm10k_mbx_read_copy - pulls data off of mbmem and places it in Rx FIFO * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function will take a section of the mailbox memory and copy it * into the Rx FIFO. The offset is based on the lower bits of the * head and len determines the length to copy. **/ static void fm10k_mbx_read_copy(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { struct fm10k_mbx_fifo *fifo = &mbx->rx; u32 mbmem = mbx->mbmem_reg ^ mbx->mbmem_len; u32 *tail = fifo->buffer; u16 end, len, head; /* determine data length and mbmem head index */ len = mbx->head_len; head = fm10k_mbx_head_sub(mbx, len); if (head >= mbx->mbmem_len) head++; /* determine offset in the ring */ end = fm10k_fifo_tail_offset(fifo, mbx->pushed); tail += end; /* Copy message into Rx FIFO */ for (end = fifo->size - end; len; tail = fifo->buffer) { do { /* adjust head to match offset for FIFO */ head &= mbx->mbmem_len - 1; if (!head) head++; mbx->rx_mbmem_pushed++; /* read message from hardware FIFO */ *(tail++) = fm10k_read_reg(hw, mbmem + head++); } while (--len && --end); } /* memory barrier to guarantee FIFO is written before tail update */ wmb(); } /** * fm10k_mbx_push_tail - Pushes up to 15 DWORDs on to tail of FIFO * @hw: pointer to hardware structure * @mbx: pointer to mailbox * @tail: tail index of message * * This function will first validate the tail index and size for the * incoming message. It then updates the acknowledgment number and * copies the data into the FIFO. It will return the number of messages * dequeued on success and a negative value on error. **/ static s32 fm10k_mbx_push_tail(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx, u16 tail) { struct fm10k_mbx_fifo *fifo = &mbx->rx; u16 len, seq = fm10k_mbx_index_len(mbx, mbx->head, tail); /* determine length of data to push */ len = fm10k_fifo_unused(fifo) - mbx->pushed; if (len > seq) len = seq; /* update head and record bytes received */ mbx->head = fm10k_mbx_head_add(mbx, len); mbx->head_len = len; /* nothing to do if there is no data */ if (!len) return 0; /* Copy msg into Rx FIFO */ fm10k_mbx_read_copy(hw, mbx); /* determine if there are any invalid lengths in message */ if (fm10k_mbx_validate_msg_size(mbx, len)) return FM10K_MBX_ERR_SIZE; /* Update pushed */ mbx->pushed += len; /* flush any completed messages */ for (len = fm10k_mbx_pushed_tail_len(mbx); len && (mbx->pushed >= len); len = fm10k_mbx_pushed_tail_len(mbx)) { fifo->tail += len; mbx->pushed -= len; mbx->rx_messages++; mbx->rx_dwords += len; } return 0; } /* pre-generated data for generating the CRC based on the poly 0xAC9A. */ static const u16 fm10k_crc_16b_table[256] = { 0x0000, 0x7956, 0xF2AC, 0x8BFA, 0xBC6D, 0xC53B, 0x4EC1, 0x3797, 0x21EF, 0x58B9, 0xD343, 0xAA15, 0x9D82, 0xE4D4, 0x6F2E, 0x1678, 0x43DE, 0x3A88, 0xB172, 0xC824, 0xFFB3, 0x86E5, 0x0D1F, 0x7449, 0x6231, 0x1B67, 0x909D, 0xE9CB, 0xDE5C, 0xA70A, 0x2CF0, 0x55A6, 0x87BC, 0xFEEA, 0x7510, 0x0C46, 0x3BD1, 0x4287, 0xC97D, 0xB02B, 0xA653, 0xDF05, 0x54FF, 0x2DA9, 0x1A3E, 0x6368, 0xE892, 0x91C4, 0xC462, 0xBD34, 0x36CE, 0x4F98, 0x780F, 0x0159, 0x8AA3, 0xF3F5, 0xE58D, 0x9CDB, 0x1721, 0x6E77, 0x59E0, 0x20B6, 0xAB4C, 0xD21A, 0x564D, 0x2F1B, 0xA4E1, 0xDDB7, 0xEA20, 0x9376, 0x188C, 0x61DA, 0x77A2, 0x0EF4, 0x850E, 0xFC58, 0xCBCF, 0xB299, 0x3963, 0x4035, 0x1593, 0x6CC5, 0xE73F, 0x9E69, 0xA9FE, 0xD0A8, 0x5B52, 0x2204, 0x347C, 0x4D2A, 0xC6D0, 0xBF86, 0x8811, 0xF147, 0x7ABD, 0x03EB, 0xD1F1, 0xA8A7, 0x235D, 0x5A0B, 0x6D9C, 0x14CA, 0x9F30, 0xE666, 0xF01E, 0x8948, 0x02B2, 0x7BE4, 0x4C73, 0x3525, 0xBEDF, 0xC789, 0x922F, 0xEB79, 0x6083, 0x19D5, 0x2E42, 0x5714, 0xDCEE, 0xA5B8, 0xB3C0, 0xCA96, 0x416C, 0x383A, 0x0FAD, 0x76FB, 0xFD01, 0x8457, 0xAC9A, 0xD5CC, 0x5E36, 0x2760, 0x10F7, 0x69A1, 0xE25B, 0x9B0D, 0x8D75, 0xF423, 0x7FD9, 0x068F, 0x3118, 0x484E, 0xC3B4, 0xBAE2, 0xEF44, 0x9612, 0x1DE8, 0x64BE, 0x5329, 0x2A7F, 0xA185, 0xD8D3, 0xCEAB, 0xB7FD, 0x3C07, 0x4551, 0x72C6, 0x0B90, 0x806A, 0xF93C, 0x2B26, 0x5270, 0xD98A, 0xA0DC, 0x974B, 0xEE1D, 0x65E7, 0x1CB1, 0x0AC9, 0x739F, 0xF865, 0x8133, 0xB6A4, 0xCFF2, 0x4408, 0x3D5E, 0x68F8, 0x11AE, 0x9A54, 0xE302, 0xD495, 0xADC3, 0x2639, 0x5F6F, 0x4917, 0x3041, 0xBBBB, 0xC2ED, 0xF57A, 0x8C2C, 0x07D6, 0x7E80, 0xFAD7, 0x8381, 0x087B, 0x712D, 0x46BA, 0x3FEC, 0xB416, 0xCD40, 0xDB38, 0xA26E, 0x2994, 0x50C2, 0x6755, 0x1E03, 0x95F9, 0xECAF, 0xB909, 0xC05F, 0x4BA5, 0x32F3, 0x0564, 0x7C32, 0xF7C8, 0x8E9E, 0x98E6, 0xE1B0, 0x6A4A, 0x131C, 0x248B, 0x5DDD, 0xD627, 0xAF71, 0x7D6B, 0x043D, 0x8FC7, 0xF691, 0xC106, 0xB850, 0x33AA, 0x4AFC, 0x5C84, 0x25D2, 0xAE28, 0xD77E, 0xE0E9, 0x99BF, 0x1245, 0x6B13, 0x3EB5, 0x47E3, 0xCC19, 0xB54F, 0x82D8, 0xFB8E, 0x7074, 0x0922, 0x1F5A, 0x660C, 0xEDF6, 0x94A0, 0xA337, 0xDA61, 0x519B, 0x28CD }; /** * fm10k_crc_16b - Generate a 16 bit CRC for a region of 16 bit data * @data: pointer to data to process * @seed: seed value for CRC * @len: length measured in 16 bits words * * This function will generate a CRC based on the polynomial 0xAC9A and * whatever value is stored in the seed variable. Note that this * value inverts the local seed and the result in order to capture all * leading and trailing zeros. */ static u16 fm10k_crc_16b(const u32 *data, u16 seed, u16 len) { u32 result = seed; while (len--) { result ^= *(data++); result = (result >> 8) ^ fm10k_crc_16b_table[result & 0xFF]; result = (result >> 8) ^ fm10k_crc_16b_table[result & 0xFF]; if (!(len--)) break; result = (result >> 8) ^ fm10k_crc_16b_table[result & 0xFF]; result = (result >> 8) ^ fm10k_crc_16b_table[result & 0xFF]; } return (u16)result; } /** * fm10k_fifo_crc - generate a CRC based off of FIFO data * @fifo: pointer to FIFO * @offset: offset point for start of FIFO * @len: number of DWORDS words to process * @seed: seed value for CRC * * This function generates a CRC for some region of the FIFO **/ static u16 fm10k_fifo_crc(struct fm10k_mbx_fifo *fifo, u16 offset, u16 len, u16 seed) { u32 *data = fifo->buffer + offset; /* track when we should cross the end of the FIFO */ offset = fifo->size - offset; /* if we are in 2 blocks process the end of the FIFO first */ if (offset < len) { seed = fm10k_crc_16b(data, seed, offset * 2); data = fifo->buffer; len -= offset; } /* process any remaining bits */ return fm10k_crc_16b(data, seed, len * 2); } /** * fm10k_mbx_update_local_crc - Update the local CRC for outgoing data * @mbx: pointer to mailbox * @head: head index provided by remote mailbox * * This function will generate the CRC for all data from the end of the * last head update to the current one. It uses the result of the * previous CRC as the seed for this update. The result is stored in * mbx->local. **/ static void fm10k_mbx_update_local_crc(struct fm10k_mbx_info *mbx, u16 head) { u16 len = mbx->tail_len - fm10k_mbx_index_len(mbx, head, mbx->tail); /* determine the offset for the start of the region to be pulled */ head = fm10k_fifo_head_offset(&mbx->tx, mbx->pulled); /* update local CRC to include all of the pulled data */ mbx->local = fm10k_fifo_crc(&mbx->tx, head, len, mbx->local); } /** * fm10k_mbx_verify_remote_crc - Verify the CRC is correct for current data * @mbx: pointer to mailbox * * This function will take all data that has been provided from the remote * end and generate a CRC for it. This is stored in mbx->remote. The * CRC for the header is then computed and if the result is non-zero this * is an error and we signal an error dropping all data and resetting the * connection. */ static s32 fm10k_mbx_verify_remote_crc(struct fm10k_mbx_info *mbx) { struct fm10k_mbx_fifo *fifo = &mbx->rx; u16 len = mbx->head_len; u16 offset = fm10k_fifo_tail_offset(fifo, mbx->pushed) - len; u16 crc; /* update the remote CRC if new data has been received */ if (len) mbx->remote = fm10k_fifo_crc(fifo, offset, len, mbx->remote); /* process the full header as we have to validate the CRC */ crc = fm10k_crc_16b(&mbx->mbx_hdr, mbx->remote, 1); /* notify other end if we have a problem */ return crc ? FM10K_MBX_ERR_CRC : 0; } /** * fm10k_mbx_rx_ready - Indicates that a message is ready in the Rx FIFO * @mbx: pointer to mailbox * * This function returns true if there is a message in the Rx FIFO to dequeue. **/ static bool fm10k_mbx_rx_ready(struct fm10k_mbx_info *mbx) { u16 msg_size = fm10k_fifo_head_len(&mbx->rx); return msg_size && (fm10k_fifo_used(&mbx->rx) >= msg_size); } /** * fm10k_mbx_tx_ready - Indicates that the mailbox is in state ready for Tx * @mbx: pointer to mailbox * @len: verify free space is >= this value * * This function returns true if the mailbox is in a state ready to transmit. **/ static bool fm10k_mbx_tx_ready(struct fm10k_mbx_info *mbx, u16 len) { u16 fifo_unused = fm10k_fifo_unused(&mbx->tx); return (mbx->state == FM10K_STATE_OPEN) && (fifo_unused >= len); } /** * fm10k_mbx_tx_complete - Indicates that the Tx FIFO has been emptied * @mbx: pointer to mailbox * * This function returns true if the Tx FIFO is empty. **/ static bool fm10k_mbx_tx_complete(struct fm10k_mbx_info *mbx) { return fm10k_fifo_empty(&mbx->tx); } /** * fm10k_mbx_dequeue_rx - Dequeues the message from the head in the Rx FIFO * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function dequeues messages and hands them off to the TLV parser. * It will return the number of messages processed when called. **/ static u16 fm10k_mbx_dequeue_rx(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { struct fm10k_mbx_fifo *fifo = &mbx->rx; s32 err; u16 cnt; /* parse Rx messages out of the Rx FIFO to empty it */ for (cnt = 0; !fm10k_fifo_empty(fifo); cnt++) { err = fm10k_tlv_msg_parse(hw, fifo->buffer + fifo->head, mbx, mbx->msg_data); if (err < 0) mbx->rx_parse_err++; fm10k_fifo_head_drop(fifo); } /* shift remaining bytes back to start of FIFO */ memmove(fifo->buffer, fifo->buffer + fifo->tail, mbx->pushed << 2); /* shift head and tail based on the memory we moved */ fifo->tail -= fifo->head; fifo->head = 0; return cnt; } /** * fm10k_mbx_enqueue_tx - Enqueues the message to the tail of the Tx FIFO * @hw: pointer to hardware structure * @mbx: pointer to mailbox * @msg: message array to read * * This function enqueues a message up to the size specified by the length * contained in the first DWORD of the message and will place at the tail * of the FIFO. It will return 0 on success, or a negative value on error. **/ static s32 fm10k_mbx_enqueue_tx(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx, const u32 *msg) { u32 countdown = mbx->timeout; s32 err; switch (mbx->state) { case FM10K_STATE_CLOSED: case FM10K_STATE_DISCONNECT: return FM10K_MBX_ERR_NO_MBX; default: break; } /* enqueue the message on the Tx FIFO */ err = fm10k_fifo_enqueue(&mbx->tx, msg); /* if it failed give the FIFO a chance to drain */ while (err && countdown) { countdown--; udelay(mbx->udelay); mbx->ops.process(hw, mbx); err = fm10k_fifo_enqueue(&mbx->tx, msg); } /* if we failed treat the error */ if (err) { mbx->timeout = 0; mbx->tx_busy++; } /* begin processing message, ignore errors as this is just meant * to start the mailbox flow so we are not concerned if there * is a bad error, or the mailbox is already busy with a request */ if (!mbx->tail_len) mbx->ops.process(hw, mbx); return 0; } /** * fm10k_mbx_read - Copies the mbmem to local message buffer * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function copies the message from the mbmem to the message array **/ static s32 fm10k_mbx_read(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { /* only allow one reader in here at a time */ if (mbx->mbx_hdr) return FM10K_MBX_ERR_BUSY; /* read to capture initial interrupt bits */ if (fm10k_read_reg(hw, mbx->mbx_reg) & FM10K_MBX_REQ_INTERRUPT) mbx->mbx_lock = FM10K_MBX_ACK; /* write back interrupt bits to clear */ fm10k_write_reg(hw, mbx->mbx_reg, FM10K_MBX_REQ_INTERRUPT | FM10K_MBX_ACK_INTERRUPT); /* read remote header */ mbx->mbx_hdr = fm10k_read_reg(hw, mbx->mbmem_reg ^ mbx->mbmem_len); return 0; } /** * fm10k_mbx_write - Copies the local message buffer to mbmem * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function copies the message from the message array to mbmem **/ static void fm10k_mbx_write(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { u32 mbmem = mbx->mbmem_reg; /* write new msg header to notify recipient of change */ fm10k_write_reg(hw, mbmem, mbx->mbx_hdr); /* write mailbox to send interrupt */ if (mbx->mbx_lock) fm10k_write_reg(hw, mbx->mbx_reg, mbx->mbx_lock); /* we no longer are using the header so free it */ mbx->mbx_hdr = 0; mbx->mbx_lock = 0; } /** * fm10k_mbx_create_connect_hdr - Generate a connect mailbox header * @mbx: pointer to mailbox * * This function returns a connection mailbox header **/ static void fm10k_mbx_create_connect_hdr(struct fm10k_mbx_info *mbx) { mbx->mbx_lock |= FM10K_MBX_REQ; mbx->mbx_hdr = FM10K_MSG_HDR_FIELD_SET(FM10K_MSG_CONNECT, TYPE) | FM10K_MSG_HDR_FIELD_SET(mbx->head, HEAD) | FM10K_MSG_HDR_FIELD_SET(mbx->rx.size - 1, CONNECT_SIZE); } /** * fm10k_mbx_create_data_hdr - Generate a data mailbox header * @mbx: pointer to mailbox * * This function returns a data mailbox header **/ static void fm10k_mbx_create_data_hdr(struct fm10k_mbx_info *mbx) { u32 hdr = FM10K_MSG_HDR_FIELD_SET(FM10K_MSG_DATA, TYPE) | FM10K_MSG_HDR_FIELD_SET(mbx->tail, TAIL) | FM10K_MSG_HDR_FIELD_SET(mbx->head, HEAD); struct fm10k_mbx_fifo *fifo = &mbx->tx; u16 crc; if (mbx->tail_len) mbx->mbx_lock |= FM10K_MBX_REQ; /* generate CRC for data in flight and header */ crc = fm10k_fifo_crc(fifo, fm10k_fifo_head_offset(fifo, mbx->pulled), mbx->tail_len, mbx->local); crc = fm10k_crc_16b(&hdr, crc, 1); /* load header to memory to be written */ mbx->mbx_hdr = hdr | FM10K_MSG_HDR_FIELD_SET(crc, CRC); } /** * fm10k_mbx_create_disconnect_hdr - Generate a disconnect mailbox header * @mbx: pointer to mailbox * * This function returns a disconnect mailbox header **/ static void fm10k_mbx_create_disconnect_hdr(struct fm10k_mbx_info *mbx) { u32 hdr = FM10K_MSG_HDR_FIELD_SET(FM10K_MSG_DISCONNECT, TYPE) | FM10K_MSG_HDR_FIELD_SET(mbx->tail, TAIL) | FM10K_MSG_HDR_FIELD_SET(mbx->head, HEAD); u16 crc = fm10k_crc_16b(&hdr, mbx->local, 1); mbx->mbx_lock |= FM10K_MBX_ACK; /* load header to memory to be written */ mbx->mbx_hdr = hdr | FM10K_MSG_HDR_FIELD_SET(crc, CRC); } /** * fm10k_mbx_create_fake_disconnect_hdr - Generate a false disconnect mbox hdr * @mbx: pointer to mailbox * * This function creates a fake disconnect header for loading into remote * mailbox header. The primary purpose is to prevent errors on immediate * start up after mbx->connect. **/ static void fm10k_mbx_create_fake_disconnect_hdr(struct fm10k_mbx_info *mbx) { u32 hdr = FM10K_MSG_HDR_FIELD_SET(FM10K_MSG_DISCONNECT, TYPE) | FM10K_MSG_HDR_FIELD_SET(mbx->head, TAIL) | FM10K_MSG_HDR_FIELD_SET(mbx->tail, HEAD); u16 crc = fm10k_crc_16b(&hdr, mbx->local, 1); mbx->mbx_lock |= FM10K_MBX_ACK; /* load header to memory to be written */ mbx->mbx_hdr = hdr | FM10K_MSG_HDR_FIELD_SET(crc, CRC); } /** * fm10k_mbx_create_error_msg - Generate an error message * @mbx: pointer to mailbox * @err: local error encountered * * This function will interpret the error provided by err, and based on * that it may shift the message by 1 DWORD and then place an error header * at the start of the message. **/ static void fm10k_mbx_create_error_msg(struct fm10k_mbx_info *mbx, s32 err) { /* only generate an error message for these types */ switch (err) { case FM10K_MBX_ERR_TAIL: case FM10K_MBX_ERR_HEAD: case FM10K_MBX_ERR_TYPE: case FM10K_MBX_ERR_SIZE: case FM10K_MBX_ERR_RSVD0: case FM10K_MBX_ERR_CRC: break; default: return; } mbx->mbx_lock |= FM10K_MBX_REQ; mbx->mbx_hdr = FM10K_MSG_HDR_FIELD_SET(FM10K_MSG_ERROR, TYPE) | FM10K_MSG_HDR_FIELD_SET(err, ERR_NO) | FM10K_MSG_HDR_FIELD_SET(mbx->head, HEAD); } /** * fm10k_mbx_validate_msg_hdr - Validate common fields in the message header * @mbx: pointer to mailbox * * This function will parse up the fields in the mailbox header and return * an error if the header contains any of a number of invalid configurations * including unrecognized type, invalid route, or a malformed message. **/ static s32 fm10k_mbx_validate_msg_hdr(struct fm10k_mbx_info *mbx) { u16 type, rsvd0, head, tail, size; const u32 *hdr = &mbx->mbx_hdr; type = FM10K_MSG_HDR_FIELD_GET(*hdr, TYPE); rsvd0 = FM10K_MSG_HDR_FIELD_GET(*hdr, RSVD0); tail = FM10K_MSG_HDR_FIELD_GET(*hdr, TAIL); head = FM10K_MSG_HDR_FIELD_GET(*hdr, HEAD); size = FM10K_MSG_HDR_FIELD_GET(*hdr, CONNECT_SIZE); if (rsvd0) return FM10K_MBX_ERR_RSVD0; switch (type) { case FM10K_MSG_DISCONNECT: /* validate that all data has been received */ if (tail != mbx->head) return FM10K_MBX_ERR_TAIL; fallthrough; case FM10K_MSG_DATA: /* validate that head is moving correctly */ if (!head || (head == FM10K_MSG_HDR_MASK(HEAD))) return FM10K_MBX_ERR_HEAD; if (fm10k_mbx_index_len(mbx, head, mbx->tail) > mbx->tail_len) return FM10K_MBX_ERR_HEAD; /* validate that tail is moving correctly */ if (!tail || (tail == FM10K_MSG_HDR_MASK(TAIL))) return FM10K_MBX_ERR_TAIL; if (fm10k_mbx_index_len(mbx, mbx->head, tail) < mbx->mbmem_len) break; return FM10K_MBX_ERR_TAIL; case FM10K_MSG_CONNECT: /* validate size is in range and is power of 2 mask */ if ((size < FM10K_VFMBX_MSG_MTU) || (size & (size + 1))) return FM10K_MBX_ERR_SIZE; fallthrough; case FM10K_MSG_ERROR: if (!head || (head == FM10K_MSG_HDR_MASK(HEAD))) return FM10K_MBX_ERR_HEAD; /* neither create nor error include a tail offset */ if (tail) return FM10K_MBX_ERR_TAIL; break; default: return FM10K_MBX_ERR_TYPE; } return 0; } /** * fm10k_mbx_create_reply - Generate reply based on state and remote head * @hw: pointer to hardware structure * @mbx: pointer to mailbox * @head: acknowledgement number * * This function will generate an outgoing message based on the current * mailbox state and the remote FIFO head. It will return the length * of the outgoing message excluding header on success, and a negative value * on error. **/ static s32 fm10k_mbx_create_reply(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx, u16 head) { switch (mbx->state) { case FM10K_STATE_OPEN: case FM10K_STATE_DISCONNECT: /* update our checksum for the outgoing data */ fm10k_mbx_update_local_crc(mbx, head); /* as long as other end recognizes us keep sending data */ fm10k_mbx_pull_head(hw, mbx, head); /* generate new header based on data */ if (mbx->tail_len || (mbx->state == FM10K_STATE_OPEN)) fm10k_mbx_create_data_hdr(mbx); else fm10k_mbx_create_disconnect_hdr(mbx); break; case FM10K_STATE_CONNECT: /* send disconnect even if we aren't connected */ fm10k_mbx_create_connect_hdr(mbx); break; case FM10K_STATE_CLOSED: /* generate new header based on data */ fm10k_mbx_create_disconnect_hdr(mbx); break; default: break; } return 0; } /** * fm10k_mbx_reset_work- Reset internal pointers for any pending work * @mbx: pointer to mailbox * * This function will reset all internal pointers so any work in progress * is dropped. This call should occur every time we transition from the * open state to the connect state. **/ static void fm10k_mbx_reset_work(struct fm10k_mbx_info *mbx) { u16 len, head, ack; /* reset our outgoing max size back to Rx limits */ mbx->max_size = mbx->rx.size - 1; /* update mbx->pulled to account for tail_len and ack */ head = FM10K_MSG_HDR_FIELD_GET(mbx->mbx_hdr, HEAD); ack = fm10k_mbx_index_len(mbx, head, mbx->tail); mbx->pulled += mbx->tail_len - ack; /* now drop any messages which have started or finished transmitting */ while (fm10k_fifo_head_len(&mbx->tx) && mbx->pulled) { len = fm10k_fifo_head_drop(&mbx->tx); mbx->tx_dropped++; if (mbx->pulled >= len) mbx->pulled -= len; else mbx->pulled = 0; } /* just do a quick resysnc to start of message */ mbx->pushed = 0; mbx->pulled = 0; mbx->tail_len = 0; mbx->head_len = 0; mbx->rx.tail = 0; mbx->rx.head = 0; } /** * fm10k_mbx_update_max_size - Update the max_size and drop any large messages * @mbx: pointer to mailbox * @size: new value for max_size * * This function updates the max_size value and drops any outgoing messages * at the head of the Tx FIFO if they are larger than max_size. It does not * drop all messages, as this is too difficult to parse and remove them from * the FIFO. Instead, rely on the checking to ensure that messages larger * than max_size aren't pushed into the memory buffer. **/ static void fm10k_mbx_update_max_size(struct fm10k_mbx_info *mbx, u16 size) { u16 len; mbx->max_size = size; /* flush any oversized messages from the queue */ for (len = fm10k_fifo_head_len(&mbx->tx); len > size; len = fm10k_fifo_head_len(&mbx->tx)) { fm10k_fifo_head_drop(&mbx->tx); mbx->tx_dropped++; } } /** * fm10k_mbx_connect_reset - Reset following request for reset * @mbx: pointer to mailbox * * This function resets the mailbox to either a disconnected state * or a connect state depending on the current mailbox state **/ static void fm10k_mbx_connect_reset(struct fm10k_mbx_info *mbx) { /* just do a quick resysnc to start of frame */ fm10k_mbx_reset_work(mbx); /* reset CRC seeds */ mbx->local = FM10K_MBX_CRC_SEED; mbx->remote = FM10K_MBX_CRC_SEED; /* we cannot exit connect until the size is good */ if (mbx->state == FM10K_STATE_OPEN) mbx->state = FM10K_STATE_CONNECT; else mbx->state = FM10K_STATE_CLOSED; } /** * fm10k_mbx_process_connect - Process connect header * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function will read an incoming connect header and reply with the * appropriate message. It will return a value indicating the number of * data DWORDs on success, or will return a negative value on failure. **/ static s32 fm10k_mbx_process_connect(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { const enum fm10k_mbx_state state = mbx->state; const u32 *hdr = &mbx->mbx_hdr; u16 size, head; /* we will need to pull all of the fields for verification */ size = FM10K_MSG_HDR_FIELD_GET(*hdr, CONNECT_SIZE); head = FM10K_MSG_HDR_FIELD_GET(*hdr, HEAD); switch (state) { case FM10K_STATE_DISCONNECT: case FM10K_STATE_OPEN: /* reset any in-progress work */ fm10k_mbx_connect_reset(mbx); break; case FM10K_STATE_CONNECT: /* we cannot exit connect until the size is good */ if (size > mbx->rx.size) { mbx->max_size = mbx->rx.size - 1; } else { /* record the remote system requesting connection */ mbx->state = FM10K_STATE_OPEN; fm10k_mbx_update_max_size(mbx, size); } break; default: break; } /* align our tail index to remote head index */ mbx->tail = head; return fm10k_mbx_create_reply(hw, mbx, head); } /** * fm10k_mbx_process_data - Process data header * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function will read an incoming data header and reply with the * appropriate message. It will return a value indicating the number of * data DWORDs on success, or will return a negative value on failure. **/ static s32 fm10k_mbx_process_data(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { const u32 *hdr = &mbx->mbx_hdr; u16 head, tail; s32 err; /* we will need to pull all of the fields for verification */ head = FM10K_MSG_HDR_FIELD_GET(*hdr, HEAD); tail = FM10K_MSG_HDR_FIELD_GET(*hdr, TAIL); /* if we are in connect just update our data and go */ if (mbx->state == FM10K_STATE_CONNECT) { mbx->tail = head; mbx->state = FM10K_STATE_OPEN; } /* abort on message size errors */ err = fm10k_mbx_push_tail(hw, mbx, tail); if (err < 0) return err; /* verify the checksum on the incoming data */ err = fm10k_mbx_verify_remote_crc(mbx); if (err) return err; /* process messages if we have received any */ fm10k_mbx_dequeue_rx(hw, mbx); return fm10k_mbx_create_reply(hw, mbx, head); } /** * fm10k_mbx_process_disconnect - Process disconnect header * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function will read an incoming disconnect header and reply with the * appropriate message. It will return a value indicating the number of * data DWORDs on success, or will return a negative value on failure. **/ static s32 fm10k_mbx_process_disconnect(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { const enum fm10k_mbx_state state = mbx->state; const u32 *hdr = &mbx->mbx_hdr; u16 head; s32 err; /* we will need to pull the header field for verification */ head = FM10K_MSG_HDR_FIELD_GET(*hdr, HEAD); /* We should not be receiving disconnect if Rx is incomplete */ if (mbx->pushed) return FM10K_MBX_ERR_TAIL; /* we have already verified mbx->head == tail so we know this is 0 */ mbx->head_len = 0; /* verify the checksum on the incoming header is correct */ err = fm10k_mbx_verify_remote_crc(mbx); if (err) return err; switch (state) { case FM10K_STATE_DISCONNECT: case FM10K_STATE_OPEN: /* state doesn't change if we still have work to do */ if (!fm10k_mbx_tx_complete(mbx)) break; /* verify the head indicates we completed all transmits */ if (head != mbx->tail) return FM10K_MBX_ERR_HEAD; /* reset any in-progress work */ fm10k_mbx_connect_reset(mbx); break; default: break; } return fm10k_mbx_create_reply(hw, mbx, head); } /** * fm10k_mbx_process_error - Process error header * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function will read an incoming error header and reply with the * appropriate message. It will return a value indicating the number of * data DWORDs on success, or will return a negative value on failure. **/ static s32 fm10k_mbx_process_error(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { const u32 *hdr = &mbx->mbx_hdr; u16 head; /* we will need to pull all of the fields for verification */ head = FM10K_MSG_HDR_FIELD_GET(*hdr, HEAD); switch (mbx->state) { case FM10K_STATE_OPEN: case FM10K_STATE_DISCONNECT: /* flush any uncompleted work */ fm10k_mbx_reset_work(mbx); /* reset CRC seeds */ mbx->local = FM10K_MBX_CRC_SEED; mbx->remote = FM10K_MBX_CRC_SEED; /* reset tail index and size to prepare for reconnect */ mbx->tail = head; /* if open then reset max_size and go back to connect */ if (mbx->state == FM10K_STATE_OPEN) { mbx->state = FM10K_STATE_CONNECT; break; } /* send a connect message to get data flowing again */ fm10k_mbx_create_connect_hdr(mbx); return 0; default: break; } return fm10k_mbx_create_reply(hw, mbx, mbx->tail); } /** * fm10k_mbx_process - Process mailbox interrupt * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function will process incoming mailbox events and generate mailbox * replies. It will return a value indicating the number of DWORDs * transmitted excluding header on success or a negative value on error. **/ static s32 fm10k_mbx_process(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { s32 err; /* we do not read mailbox if closed */ if (mbx->state == FM10K_STATE_CLOSED) return 0; /* copy data from mailbox */ err = fm10k_mbx_read(hw, mbx); if (err) return err; /* validate type, source, and destination */ err = fm10k_mbx_validate_msg_hdr(mbx); if (err < 0) goto msg_err; switch (FM10K_MSG_HDR_FIELD_GET(mbx->mbx_hdr, TYPE)) { case FM10K_MSG_CONNECT: err = fm10k_mbx_process_connect(hw, mbx); break; case FM10K_MSG_DATA: err = fm10k_mbx_process_data(hw, mbx); break; case FM10K_MSG_DISCONNECT: err = fm10k_mbx_process_disconnect(hw, mbx); break; case FM10K_MSG_ERROR: err = fm10k_mbx_process_error(hw, mbx); break; default: err = FM10K_MBX_ERR_TYPE; break; } msg_err: /* notify partner of errors on our end */ if (err < 0) fm10k_mbx_create_error_msg(mbx, err); /* copy data from mailbox */ fm10k_mbx_write(hw, mbx); return err; } /** * fm10k_mbx_disconnect - Shutdown mailbox connection * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function will shut down the mailbox. It places the mailbox first * in the disconnect state, it then allows up to a predefined timeout for * the mailbox to transition to close on its own. If this does not occur * then the mailbox will be forced into the closed state. * * Any mailbox transactions not completed before calling this function * are not guaranteed to complete and may be dropped. **/ static void fm10k_mbx_disconnect(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { int timeout = mbx->timeout ? FM10K_MBX_DISCONNECT_TIMEOUT : 0; /* Place mbx in ready to disconnect state */ mbx->state = FM10K_STATE_DISCONNECT; /* trigger interrupt to start shutdown process */ fm10k_write_reg(hw, mbx->mbx_reg, FM10K_MBX_REQ | FM10K_MBX_INTERRUPT_DISABLE); do { udelay(FM10K_MBX_POLL_DELAY); mbx->ops.process(hw, mbx); timeout -= FM10K_MBX_POLL_DELAY; } while ((timeout > 0) && (mbx->state != FM10K_STATE_CLOSED)); /* in case we didn't close, just force the mailbox into shutdown and * drop all left over messages in the FIFO. */ fm10k_mbx_connect_reset(mbx); fm10k_fifo_drop_all(&mbx->tx); fm10k_write_reg(hw, mbx->mbmem_reg, 0); } /** * fm10k_mbx_connect - Start mailbox connection * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function will initiate a mailbox connection. It will populate the * mailbox with a broadcast connect message and then initialize the lock. * This is safe since the connect message is a single DWORD so the mailbox * transaction is guaranteed to be atomic. * * This function will return an error if the mailbox has not been initiated * or is currently in use. **/ static s32 fm10k_mbx_connect(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { /* we cannot connect an uninitialized mailbox */ if (!mbx->rx.buffer) return FM10K_MBX_ERR_NO_SPACE; /* we cannot connect an already connected mailbox */ if (mbx->state != FM10K_STATE_CLOSED) return FM10K_MBX_ERR_BUSY; /* mailbox timeout can now become active */ mbx->timeout = FM10K_MBX_INIT_TIMEOUT; /* Place mbx in ready to connect state */ mbx->state = FM10K_STATE_CONNECT; fm10k_mbx_reset_work(mbx); /* initialize header of remote mailbox */ fm10k_mbx_create_fake_disconnect_hdr(mbx); fm10k_write_reg(hw, mbx->mbmem_reg ^ mbx->mbmem_len, mbx->mbx_hdr); /* enable interrupt and notify other party of new message */ mbx->mbx_lock = FM10K_MBX_REQ_INTERRUPT | FM10K_MBX_ACK_INTERRUPT | FM10K_MBX_INTERRUPT_ENABLE; /* generate and load connect header into mailbox */ fm10k_mbx_create_connect_hdr(mbx); fm10k_mbx_write(hw, mbx); return 0; } /** * fm10k_mbx_validate_handlers - Validate layout of message parsing data * @msg_data: handlers for mailbox events * * This function validates the layout of the message parsing data. This * should be mostly static, but it is important to catch any errors that * are made when constructing the parsers. **/ static s32 fm10k_mbx_validate_handlers(const struct fm10k_msg_data *msg_data) { const struct fm10k_tlv_attr *attr; unsigned int id; /* Allow NULL mailboxes that transmit but don't receive */ if (!msg_data) return 0; while (msg_data->id != FM10K_TLV_ERROR) { /* all messages should have a function handler */ if (!msg_data->func) return FM10K_ERR_PARAM; /* parser is optional */ attr = msg_data->attr; if (attr) { while (attr->id != FM10K_TLV_ERROR) { id = attr->id; attr++; /* ID should always be increasing */ if (id >= attr->id) return FM10K_ERR_PARAM; /* ID should fit in results array */ if (id >= FM10K_TLV_RESULTS_MAX) return FM10K_ERR_PARAM; } /* verify terminator is in the list */ if (attr->id != FM10K_TLV_ERROR) return FM10K_ERR_PARAM; } id = msg_data->id; msg_data++; /* ID should always be increasing */ if (id >= msg_data->id) return FM10K_ERR_PARAM; } /* verify terminator is in the list */ if ((msg_data->id != FM10K_TLV_ERROR) || !msg_data->func) return FM10K_ERR_PARAM; return 0; } /** * fm10k_mbx_register_handlers - Register a set of handler ops for mailbox * @mbx: pointer to mailbox * @msg_data: handlers for mailbox events * * This function associates a set of message handling ops with a mailbox. **/ static s32 fm10k_mbx_register_handlers(struct fm10k_mbx_info *mbx, const struct fm10k_msg_data *msg_data) { /* validate layout of handlers before assigning them */ if (fm10k_mbx_validate_handlers(msg_data)) return FM10K_ERR_PARAM; /* initialize the message handlers */ mbx->msg_data = msg_data; return 0; } /** * fm10k_pfvf_mbx_init - Initialize mailbox memory for PF/VF mailbox * @hw: pointer to hardware structure * @mbx: pointer to mailbox * @msg_data: handlers for mailbox events * @id: ID reference for PF as it supports up to 64 PF/VF mailboxes * * This function initializes the mailbox for use. It will split the * buffer provided and use that to populate both the Tx and Rx FIFO by * evenly splitting it. In order to allow for easy masking of head/tail * the value reported in size must be a power of 2 and is reported in * DWORDs, not bytes. Any invalid values will cause the mailbox to return * error. **/ s32 fm10k_pfvf_mbx_init(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx, const struct fm10k_msg_data *msg_data, u8 id) { /* initialize registers */ switch (hw->mac.type) { case fm10k_mac_vf: mbx->mbx_reg = FM10K_VFMBX; mbx->mbmem_reg = FM10K_VFMBMEM(FM10K_VFMBMEM_VF_XOR); break; case fm10k_mac_pf: /* there are only 64 VF <-> PF mailboxes */ if (id < 64) { mbx->mbx_reg = FM10K_MBX(id); mbx->mbmem_reg = FM10K_MBMEM_VF(id, 0); break; } fallthrough; default: return FM10K_MBX_ERR_NO_MBX; } /* start out in closed state */ mbx->state = FM10K_STATE_CLOSED; /* validate layout of handlers before assigning them */ if (fm10k_mbx_validate_handlers(msg_data)) return FM10K_ERR_PARAM; /* initialize the message handlers */ mbx->msg_data = msg_data; /* start mailbox as timed out and let the reset_hw call * set the timeout value to begin communications */ mbx->timeout = 0; mbx->udelay = FM10K_MBX_INIT_DELAY; /* initialize tail and head */ mbx->tail = 1; mbx->head = 1; /* initialize CRC seeds */ mbx->local = FM10K_MBX_CRC_SEED; mbx->remote = FM10K_MBX_CRC_SEED; /* Split buffer for use by Tx/Rx FIFOs */ mbx->max_size = FM10K_MBX_MSG_MAX_SIZE; mbx->mbmem_len = FM10K_VFMBMEM_VF_XOR; /* initialize the FIFOs, sizes are in 4 byte increments */ fm10k_fifo_init(&mbx->tx, mbx->buffer, FM10K_MBX_TX_BUFFER_SIZE); fm10k_fifo_init(&mbx->rx, &mbx->buffer[FM10K_MBX_TX_BUFFER_SIZE], FM10K_MBX_RX_BUFFER_SIZE); /* initialize function pointers */ mbx->ops.connect = fm10k_mbx_connect; mbx->ops.disconnect = fm10k_mbx_disconnect; mbx->ops.rx_ready = fm10k_mbx_rx_ready; mbx->ops.tx_ready = fm10k_mbx_tx_ready; mbx->ops.tx_complete = fm10k_mbx_tx_complete; mbx->ops.enqueue_tx = fm10k_mbx_enqueue_tx; mbx->ops.process = fm10k_mbx_process; mbx->ops.register_handlers = fm10k_mbx_register_handlers; return 0; } /** * fm10k_sm_mbx_create_data_hdr - Generate a mailbox header for local FIFO * @mbx: pointer to mailbox * * This function returns a data mailbox header **/ static void fm10k_sm_mbx_create_data_hdr(struct fm10k_mbx_info *mbx) { if (mbx->tail_len) mbx->mbx_lock |= FM10K_MBX_REQ; mbx->mbx_hdr = FM10K_MSG_HDR_FIELD_SET(mbx->tail, SM_TAIL) | FM10K_MSG_HDR_FIELD_SET(mbx->remote, SM_VER) | FM10K_MSG_HDR_FIELD_SET(mbx->head, SM_HEAD); } /** * fm10k_sm_mbx_create_connect_hdr - Generate a mailbox header for local FIFO * @mbx: pointer to mailbox * @err: error flags to report if any * * This function returns a connection mailbox header **/ static void fm10k_sm_mbx_create_connect_hdr(struct fm10k_mbx_info *mbx, u8 err) { if (mbx->local) mbx->mbx_lock |= FM10K_MBX_REQ; mbx->mbx_hdr = FM10K_MSG_HDR_FIELD_SET(mbx->tail, SM_TAIL) | FM10K_MSG_HDR_FIELD_SET(mbx->remote, SM_VER) | FM10K_MSG_HDR_FIELD_SET(mbx->head, SM_HEAD) | FM10K_MSG_HDR_FIELD_SET(err, SM_ERR); } /** * fm10k_sm_mbx_connect_reset - Reset following request for reset * @mbx: pointer to mailbox * * This function resets the mailbox to a just connected state **/ static void fm10k_sm_mbx_connect_reset(struct fm10k_mbx_info *mbx) { /* flush any uncompleted work */ fm10k_mbx_reset_work(mbx); /* set local version to max and remote version to 0 */ mbx->local = FM10K_SM_MBX_VERSION; mbx->remote = 0; /* initialize tail and head */ mbx->tail = 1; mbx->head = 1; /* reset state back to connect */ mbx->state = FM10K_STATE_CONNECT; } /** * fm10k_sm_mbx_connect - Start switch manager mailbox connection * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function will initiate a mailbox connection with the switch * manager. To do this it will first disconnect the mailbox, and then * reconnect it in order to complete a reset of the mailbox. * * This function will return an error if the mailbox has not been initiated * or is currently in use. **/ static s32 fm10k_sm_mbx_connect(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { /* we cannot connect an uninitialized mailbox */ if (!mbx->rx.buffer) return FM10K_MBX_ERR_NO_SPACE; /* we cannot connect an already connected mailbox */ if (mbx->state != FM10K_STATE_CLOSED) return FM10K_MBX_ERR_BUSY; /* mailbox timeout can now become active */ mbx->timeout = FM10K_MBX_INIT_TIMEOUT; /* Place mbx in ready to connect state */ mbx->state = FM10K_STATE_CONNECT; mbx->max_size = FM10K_MBX_MSG_MAX_SIZE; /* reset interface back to connect */ fm10k_sm_mbx_connect_reset(mbx); /* enable interrupt and notify other party of new message */ mbx->mbx_lock = FM10K_MBX_REQ_INTERRUPT | FM10K_MBX_ACK_INTERRUPT | FM10K_MBX_INTERRUPT_ENABLE; /* generate and load connect header into mailbox */ fm10k_sm_mbx_create_connect_hdr(mbx, 0); fm10k_mbx_write(hw, mbx); return 0; } /** * fm10k_sm_mbx_disconnect - Shutdown mailbox connection * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function will shut down the mailbox. It places the mailbox first * in the disconnect state, it then allows up to a predefined timeout for * the mailbox to transition to close on its own. If this does not occur * then the mailbox will be forced into the closed state. * * Any mailbox transactions not completed before calling this function * are not guaranteed to complete and may be dropped. **/ static void fm10k_sm_mbx_disconnect(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { int timeout = mbx->timeout ? FM10K_MBX_DISCONNECT_TIMEOUT : 0; /* Place mbx in ready to disconnect state */ mbx->state = FM10K_STATE_DISCONNECT; /* trigger interrupt to start shutdown process */ fm10k_write_reg(hw, mbx->mbx_reg, FM10K_MBX_REQ | FM10K_MBX_INTERRUPT_DISABLE); do { udelay(FM10K_MBX_POLL_DELAY); mbx->ops.process(hw, mbx); timeout -= FM10K_MBX_POLL_DELAY; } while ((timeout > 0) && (mbx->state != FM10K_STATE_CLOSED)); /* in case we didn't close just force the mailbox into shutdown */ mbx->state = FM10K_STATE_CLOSED; mbx->remote = 0; fm10k_mbx_reset_work(mbx); fm10k_fifo_drop_all(&mbx->tx); fm10k_write_reg(hw, mbx->mbmem_reg, 0); } /** * fm10k_sm_mbx_validate_fifo_hdr - Validate fields in the remote FIFO header * @mbx: pointer to mailbox * * This function will parse up the fields in the mailbox header and return * an error if the header contains any of a number of invalid configurations * including unrecognized offsets or version numbers. **/ static s32 fm10k_sm_mbx_validate_fifo_hdr(struct fm10k_mbx_info *mbx) { const u32 *hdr = &mbx->mbx_hdr; u16 tail, head, ver; tail = FM10K_MSG_HDR_FIELD_GET(*hdr, SM_TAIL); ver = FM10K_MSG_HDR_FIELD_GET(*hdr, SM_VER); head = FM10K_MSG_HDR_FIELD_GET(*hdr, SM_HEAD); switch (ver) { case 0: break; case FM10K_SM_MBX_VERSION: if (!head || head > FM10K_SM_MBX_FIFO_LEN) return FM10K_MBX_ERR_HEAD; if (!tail || tail > FM10K_SM_MBX_FIFO_LEN) return FM10K_MBX_ERR_TAIL; if (mbx->tail < head) head += mbx->mbmem_len - 1; if (tail < mbx->head) tail += mbx->mbmem_len - 1; if (fm10k_mbx_index_len(mbx, head, mbx->tail) > mbx->tail_len) return FM10K_MBX_ERR_HEAD; if (fm10k_mbx_index_len(mbx, mbx->head, tail) < mbx->mbmem_len) break; return FM10K_MBX_ERR_TAIL; default: return FM10K_MBX_ERR_SRC; } return 0; } /** * fm10k_sm_mbx_process_error - Process header with error flag set * @mbx: pointer to mailbox * * This function is meant to respond to a request where the error flag * is set. As a result we will terminate a connection if one is present * and fall back into the reset state with a connection header of version * 0 (RESET). **/ static void fm10k_sm_mbx_process_error(struct fm10k_mbx_info *mbx) { const enum fm10k_mbx_state state = mbx->state; switch (state) { case FM10K_STATE_DISCONNECT: /* if there is an error just disconnect */ mbx->remote = 0; break; case FM10K_STATE_OPEN: /* flush any uncompleted work */ fm10k_sm_mbx_connect_reset(mbx); break; case FM10K_STATE_CONNECT: /* try connecting at lower version */ if (mbx->remote) { while (mbx->local > 1) mbx->local--; mbx->remote = 0; } break; default: break; } fm10k_sm_mbx_create_connect_hdr(mbx, 0); } /** * fm10k_sm_mbx_create_error_msg - Process an error in FIFO header * @mbx: pointer to mailbox * @err: local error encountered * * This function will interpret the error provided by err, and based on * that it may set the error bit in the local message header **/ static void fm10k_sm_mbx_create_error_msg(struct fm10k_mbx_info *mbx, s32 err) { /* only generate an error message for these types */ switch (err) { case FM10K_MBX_ERR_TAIL: case FM10K_MBX_ERR_HEAD: case FM10K_MBX_ERR_SRC: case FM10K_MBX_ERR_SIZE: case FM10K_MBX_ERR_RSVD0: break; default: return; } /* process it as though we received an error, and send error reply */ fm10k_sm_mbx_process_error(mbx); fm10k_sm_mbx_create_connect_hdr(mbx, 1); } /** * fm10k_sm_mbx_receive - Take message from Rx mailbox FIFO and put it in Rx * @hw: pointer to hardware structure * @mbx: pointer to mailbox * @tail: tail index of message * * This function will dequeue one message from the Rx switch manager mailbox * FIFO and place it in the Rx mailbox FIFO for processing by software. **/ static s32 fm10k_sm_mbx_receive(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx, u16 tail) { /* reduce length by 1 to convert to a mask */ u16 mbmem_len = mbx->mbmem_len - 1; s32 err; /* push tail in front of head */ if (tail < mbx->head) tail += mbmem_len; /* copy data to the Rx FIFO */ err = fm10k_mbx_push_tail(hw, mbx, tail); if (err < 0) return err; /* process messages if we have received any */ fm10k_mbx_dequeue_rx(hw, mbx); /* guarantee head aligns with the end of the last message */ mbx->head = fm10k_mbx_head_sub(mbx, mbx->pushed); mbx->pushed = 0; /* clear any extra bits left over since index adds 1 extra bit */ if (mbx->head > mbmem_len) mbx->head -= mbmem_len; return err; } /** * fm10k_sm_mbx_transmit - Take message from Tx and put it in Tx mailbox FIFO * @hw: pointer to hardware structure * @mbx: pointer to mailbox * @head: head index of message * * This function will dequeue one message from the Tx mailbox FIFO and place * it in the Tx switch manager mailbox FIFO for processing by hardware. **/ static void fm10k_sm_mbx_transmit(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx, u16 head) { struct fm10k_mbx_fifo *fifo = &mbx->tx; /* reduce length by 1 to convert to a mask */ u16 mbmem_len = mbx->mbmem_len - 1; u16 tail_len, len = 0; /* push head behind tail */ if (mbx->tail < head) head += mbmem_len; fm10k_mbx_pull_head(hw, mbx, head); /* determine msg aligned offset for end of buffer */ do { u32 *msg; msg = fifo->buffer + fm10k_fifo_head_offset(fifo, len); tail_len = len; len += FM10K_TLV_DWORD_LEN(*msg); } while ((len <= mbx->tail_len) && (len < mbmem_len)); /* guarantee we stop on a message boundary */ if (mbx->tail_len > tail_len) { mbx->tail = fm10k_mbx_tail_sub(mbx, mbx->tail_len - tail_len); mbx->tail_len = tail_len; } /* clear any extra bits left over since index adds 1 extra bit */ if (mbx->tail > mbmem_len) mbx->tail -= mbmem_len; } /** * fm10k_sm_mbx_create_reply - Generate reply based on state and remote head * @hw: pointer to hardware structure * @mbx: pointer to mailbox * @head: acknowledgement number * * This function will generate an outgoing message based on the current * mailbox state and the remote FIFO head. It will return the length * of the outgoing message excluding header on success, and a negative value * on error. **/ static void fm10k_sm_mbx_create_reply(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx, u16 head) { switch (mbx->state) { case FM10K_STATE_OPEN: case FM10K_STATE_DISCONNECT: /* flush out Tx data */ fm10k_sm_mbx_transmit(hw, mbx, head); /* generate new header based on data */ if (mbx->tail_len || (mbx->state == FM10K_STATE_OPEN)) { fm10k_sm_mbx_create_data_hdr(mbx); } else { mbx->remote = 0; fm10k_sm_mbx_create_connect_hdr(mbx, 0); } break; case FM10K_STATE_CONNECT: case FM10K_STATE_CLOSED: fm10k_sm_mbx_create_connect_hdr(mbx, 0); break; default: break; } } /** * fm10k_sm_mbx_process_reset - Process header with version == 0 (RESET) * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function is meant to respond to a request where the version data * is set to 0. As such we will either terminate the connection or go * into the connect state in order to re-establish the connection. This * function can also be used to respond to an error as the connection * resetting would also be a means of dealing with errors. **/ static s32 fm10k_sm_mbx_process_reset(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { s32 err = 0; const enum fm10k_mbx_state state = mbx->state; switch (state) { case FM10K_STATE_DISCONNECT: /* drop remote connections and disconnect */ mbx->state = FM10K_STATE_CLOSED; mbx->remote = 0; mbx->local = 0; break; case FM10K_STATE_OPEN: /* flush any incomplete work */ fm10k_sm_mbx_connect_reset(mbx); err = FM10K_ERR_RESET_REQUESTED; break; case FM10K_STATE_CONNECT: /* Update remote value to match local value */ mbx->remote = mbx->local; break; default: break; } fm10k_sm_mbx_create_reply(hw, mbx, mbx->tail); return err; } /** * fm10k_sm_mbx_process_version_1 - Process header with version == 1 * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function is meant to process messages received when the remote * mailbox is active. **/ static s32 fm10k_sm_mbx_process_version_1(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { const u32 *hdr = &mbx->mbx_hdr; u16 head, tail; s32 len; /* pull all fields needed for verification */ tail = FM10K_MSG_HDR_FIELD_GET(*hdr, SM_TAIL); head = FM10K_MSG_HDR_FIELD_GET(*hdr, SM_HEAD); /* if we are in connect and wanting version 1 then start up and go */ if (mbx->state == FM10K_STATE_CONNECT) { if (!mbx->remote) goto send_reply; if (mbx->remote != 1) return FM10K_MBX_ERR_SRC; mbx->state = FM10K_STATE_OPEN; } do { /* abort on message size errors */ len = fm10k_sm_mbx_receive(hw, mbx, tail); if (len < 0) return len; /* continue until we have flushed the Rx FIFO */ } while (len); send_reply: fm10k_sm_mbx_create_reply(hw, mbx, head); return 0; } /** * fm10k_sm_mbx_process - Process switch manager mailbox interrupt * @hw: pointer to hardware structure * @mbx: pointer to mailbox * * This function will process incoming mailbox events and generate mailbox * replies. It will return a value indicating the number of DWORDs * transmitted excluding header on success or a negative value on error. **/ static s32 fm10k_sm_mbx_process(struct fm10k_hw *hw, struct fm10k_mbx_info *mbx) { s32 err; /* we do not read mailbox if closed */ if (mbx->state == FM10K_STATE_CLOSED) return 0; /* retrieve data from switch manager */ err = fm10k_mbx_read(hw, mbx); if (err) return err; err = fm10k_sm_mbx_validate_fifo_hdr(mbx); if (err < 0) goto fifo_err; if (FM10K_MSG_HDR_FIELD_GET(mbx->mbx_hdr, SM_ERR)) { fm10k_sm_mbx_process_error(mbx); goto fifo_err; } switch (FM10K_MSG_HDR_FIELD_GET(mbx->mbx_hdr, SM_VER)) { case 0: err = fm10k_sm_mbx_process_reset(hw, mbx); break; case FM10K_SM_MBX_VERSION: err = fm10k_sm_mbx_process_version_1(hw, mbx); break; } fifo_err: if (err < 0) fm10k_sm_mbx_create_error_msg(mbx, err); /* report data to switch manager */ fm10k_mbx_write(hw, mbx); return err; } /** * fm10k_sm_mbx_init - Initialize mailbox memory for PF/SM mailbox * @hw: pointer to hardware structure * @mbx: pointer to mailbox * @msg_data: handlers for mailbox events * * This function initializes the PF/SM mailbox for use. It will split the * buffer provided and use that to populate both the Tx and Rx FIFO by * evenly splitting it. In order to allow for easy masking of head/tail * the value reported in size must be a power of 2 and is reported in * DWORDs, not bytes. Any invalid values will cause the mailbox to return * error. **/ s32 fm10k_sm_mbx_init(struct fm10k_hw __always_unused *hw, struct fm10k_mbx_info *mbx, const struct fm10k_msg_data *msg_data) { mbx->mbx_reg = FM10K_GMBX; mbx->mbmem_reg = FM10K_MBMEM_PF(0); /* start out in closed state */ mbx->state = FM10K_STATE_CLOSED; /* validate layout of handlers before assigning them */ if (fm10k_mbx_validate_handlers(msg_data)) return FM10K_ERR_PARAM; /* initialize the message handlers */ mbx->msg_data = msg_data; /* start mailbox as timed out and let the reset_hw call * set the timeout value to begin communications */ mbx->timeout = 0; mbx->udelay = FM10K_MBX_INIT_DELAY; /* Split buffer for use by Tx/Rx FIFOs */ mbx->max_size = FM10K_MBX_MSG_MAX_SIZE; mbx->mbmem_len = FM10K_MBMEM_PF_XOR; /* initialize the FIFOs, sizes are in 4 byte increments */ fm10k_fifo_init(&mbx->tx, mbx->buffer, FM10K_MBX_TX_BUFFER_SIZE); fm10k_fifo_init(&mbx->rx, &mbx->buffer[FM10K_MBX_TX_BUFFER_SIZE], FM10K_MBX_RX_BUFFER_SIZE); /* initialize function pointers */ mbx->ops.connect = fm10k_sm_mbx_connect; mbx->ops.disconnect = fm10k_sm_mbx_disconnect; mbx->ops.rx_ready = fm10k_mbx_rx_ready; mbx->ops.tx_ready = fm10k_mbx_tx_ready; mbx->ops.tx_complete = fm10k_mbx_tx_complete; mbx->ops.enqueue_tx = fm10k_mbx_enqueue_tx; mbx->ops.process = fm10k_sm_mbx_process; mbx->ops.register_handlers = fm10k_mbx_register_handlers; return 0; } |