Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Iñaky Pérez-González | 821 | 99.39% | 1 | 33.33% |
Gustavo A. R. Silva | 3 | 0.36% | 1 | 33.33% |
Thomas Gleixner | 2 | 0.24% | 1 | 33.33% |
Total | 826 | 3 |
// SPDX-License-Identifier: GPL-2.0-only /* * Intel Wireless UWB Link 1480 * PHY parameters upload * * Copyright (C) 2005-2006 Intel Corporation * Inaky Perez-Gonzalez <inaky.perez-gonzalez@intel.com> * * Code for uploading the PHY parameters to the PHY through the UWB * Radio Control interface. * * We just send the data through the MPI interface using HWA-like * commands and then reset the PHY to make sure it is ok. */ #include <linux/delay.h> #include <linux/device.h> #include <linux/firmware.h> #include <linux/usb/wusb.h> #include "i1480-dfu.h" /** * Write a value array to an address of the MPI interface * * @i1480: Device descriptor * @data: Data array to write * @size: Size of the data array * @returns: 0 if ok, < 0 errno code on error. * * The data array is organized into pairs: * * ADDRESS VALUE * * ADDRESS is BE 16 bit unsigned, VALUE 8 bit unsigned. Size thus has * to be a multiple of three. */ static int i1480_mpi_write(struct i1480 *i1480, const void *data, size_t size) { int result; struct i1480_cmd_mpi_write *cmd = i1480->cmd_buf; struct i1480_evt_confirm *reply = i1480->evt_buf; BUG_ON(size > 480); result = -ENOMEM; cmd->rccb.bCommandType = i1480_CET_VS1; cmd->rccb.wCommand = cpu_to_le16(i1480_CMD_MPI_WRITE); cmd->size = cpu_to_le16(size); memcpy(cmd->data, data, size); reply->rceb.bEventType = i1480_CET_VS1; reply->rceb.wEvent = i1480_CMD_MPI_WRITE; result = i1480_cmd(i1480, "MPI-WRITE", sizeof(*cmd) + size, sizeof(*reply)); if (result < 0) goto out; if (reply->bResultCode != UWB_RC_RES_SUCCESS) { dev_err(i1480->dev, "MPI-WRITE: command execution failed: %d\n", reply->bResultCode); result = -EIO; } out: return result; } /** * Read a value array to from an address of the MPI interface * * @i1480: Device descriptor * @data: where to place the read array * @srcaddr: Where to read from * @size: Size of the data read array * @returns: 0 if ok, < 0 errno code on error. * * The command data array is organized into pairs ADDR0 ADDR1..., and * the returned data in ADDR0 VALUE0 ADDR1 VALUE1... * * We generate the command array to be a sequential read and then * rearrange the result. * * We use the i1480->cmd_buf for the command, i1480->evt_buf for the reply. * * As the reply has to fit in 512 bytes (i1480->evt_buffer), the max amount * of values we can read is (512 - sizeof(*reply)) / 3 */ static int i1480_mpi_read(struct i1480 *i1480, u8 *data, u16 srcaddr, size_t size) { int result; struct i1480_cmd_mpi_read *cmd = i1480->cmd_buf; struct i1480_evt_mpi_read *reply = i1480->evt_buf; unsigned cnt; memset(i1480->cmd_buf, 0x69, 512); memset(i1480->evt_buf, 0x69, 512); BUG_ON(size > (i1480->buf_size - sizeof(*reply)) / 3); result = -ENOMEM; cmd->rccb.bCommandType = i1480_CET_VS1; cmd->rccb.wCommand = cpu_to_le16(i1480_CMD_MPI_READ); cmd->size = cpu_to_le16(3*size); for (cnt = 0; cnt < size; cnt++) { cmd->data[cnt].page = (srcaddr + cnt) >> 8; cmd->data[cnt].offset = (srcaddr + cnt) & 0xff; } reply->rceb.bEventType = i1480_CET_VS1; reply->rceb.wEvent = i1480_CMD_MPI_READ; result = i1480_cmd(i1480, "MPI-READ", sizeof(*cmd) + 2*size, sizeof(*reply) + 3*size); if (result < 0) goto out; if (reply->bResultCode != UWB_RC_RES_SUCCESS) { dev_err(i1480->dev, "MPI-READ: command execution failed: %d\n", reply->bResultCode); result = -EIO; goto out; } for (cnt = 0; cnt < size; cnt++) { if (reply->data[cnt].page != (srcaddr + cnt) >> 8) dev_err(i1480->dev, "MPI-READ: page inconsistency at " "index %u: expected 0x%02x, got 0x%02x\n", cnt, (srcaddr + cnt) >> 8, reply->data[cnt].page); if (reply->data[cnt].offset != ((srcaddr + cnt) & 0x00ff)) dev_err(i1480->dev, "MPI-READ: offset inconsistency at " "index %u: expected 0x%02x, got 0x%02x\n", cnt, (srcaddr + cnt) & 0x00ff, reply->data[cnt].offset); data[cnt] = reply->data[cnt].value; } result = 0; out: return result; } /** * Upload a PHY firmware, wait for it to start * * @i1480: Device instance * @fw_name: Name of the file that contains the firmware * * We assume the MAC fw is up and running. This means we can use the * MPI interface to write the PHY firmware. Once done, we issue an * MBOA Reset, which will force the MAC to reset and reinitialize the * PHY. If that works, we are ready to go. * * Max packet size for the MPI write is 512, so the max buffer is 480 * (which gives us 160 byte triads of MSB, LSB and VAL for the data). */ int i1480_phy_fw_upload(struct i1480 *i1480) { int result; const struct firmware *fw; const char *data_itr, *data_top; const size_t MAX_BLK_SIZE = 480; /* 160 triads */ size_t data_size; u8 phy_stat; result = request_firmware(&fw, i1480->phy_fw_name, i1480->dev); if (result < 0) goto out; /* Loop writing data in chunks as big as possible until done. */ for (data_itr = fw->data, data_top = data_itr + fw->size; data_itr < data_top; data_itr += MAX_BLK_SIZE) { data_size = min(MAX_BLK_SIZE, (size_t) (data_top - data_itr)); result = i1480_mpi_write(i1480, data_itr, data_size); if (result < 0) goto error_mpi_write; } /* Read MPI page 0, offset 6; if 0, PHY was initialized correctly. */ result = i1480_mpi_read(i1480, &phy_stat, 0x0006, 1); if (result < 0) { dev_err(i1480->dev, "PHY: can't get status: %d\n", result); goto error_mpi_status; } if (phy_stat != 0) { result = -ENODEV; dev_info(i1480->dev, "error, PHY not ready: %u\n", phy_stat); goto error_phy_status; } dev_info(i1480->dev, "PHY fw '%s': uploaded\n", i1480->phy_fw_name); error_phy_status: error_mpi_status: error_mpi_write: release_firmware(fw); if (result < 0) dev_err(i1480->dev, "PHY fw '%s': failed to upload (%d), " "power cycle device\n", i1480->phy_fw_name, result); out: return result; }
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