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Release 4.11 drivers/net/wireless/st/cw1200/fwio.c

/*
 * Firmware I/O code for mac80211 ST-Ericsson CW1200 drivers
 *
 * Copyright (c) 2010, ST-Ericsson
 * Author: Dmitry Tarnyagin <dmitry.tarnyagin@lockless.no>
 *
 * Based on:
 * ST-Ericsson UMAC CW1200 driver which is
 * Copyright (c) 2010, ST-Ericsson
 * Author: Ajitpal Singh <ajitpal.singh@stericsson.com>
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation.
 */

#include <linux/vmalloc.h>
#include <linux/sched.h>
#include <linux/firmware.h>

#include "cw1200.h"
#include "fwio.h"
#include "hwio.h"
#include "hwbus.h"
#include "bh.h"


static int cw1200_get_hw_type(u32 config_reg_val, int *major_revision) { int hw_type = -1; u32 silicon_type = (config_reg_val >> 24) & 0x7; u32 silicon_vers = (config_reg_val >> 31) & 0x1; switch (silicon_type) { case 0x00: *major_revision = 1; hw_type = HIF_9000_SILICON_VERSATILE; break; case 0x01: case 0x02: /* CW1x00 */ case 0x04: /* CW1x60 */ *major_revision = silicon_type; if (silicon_vers) hw_type = HIF_8601_VERSATILE; else hw_type = HIF_8601_SILICON; break; default: break; } return hw_type; }

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static int cw1200_load_firmware_cw1200(struct cw1200_common *priv) { int ret, block, num_blocks; unsigned i; u32 val32; u32 put = 0, get = 0; u8 *buf = NULL; const char *fw_path; const struct firmware *firmware = NULL; /* Macroses are local. */ #define APB_WRITE(reg, val) \ do { \ ret = cw1200_apb_write_32(priv, CW1200_APB(reg), (val)); \ if (ret < 0) \ goto exit; \ } while (0) #define APB_WRITE2(reg, val) \ do { \ ret = cw1200_apb_write_32(priv, CW1200_APB(reg), (val)); \ if (ret < 0) \ goto free_buffer; \ } while (0) #define APB_READ(reg, val) \ do { \ ret = cw1200_apb_read_32(priv, CW1200_APB(reg), &(val)); \ if (ret < 0) \ goto free_buffer; \ } while (0) #define REG_WRITE(reg, val) \ do { \ ret = cw1200_reg_write_32(priv, (reg), (val)); \ if (ret < 0) \ goto exit; \ } while (0) #define REG_READ(reg, val) \ do { \ ret = cw1200_reg_read_32(priv, (reg), &(val)); \ if (ret < 0) \ goto exit; \ } while (0) switch (priv->hw_revision) { case CW1200_HW_REV_CUT10: fw_path = FIRMWARE_CUT10; if (!priv->sdd_path) priv->sdd_path = SDD_FILE_10; break; case CW1200_HW_REV_CUT11: fw_path = FIRMWARE_CUT11; if (!priv->sdd_path) priv->sdd_path = SDD_FILE_11; break; case CW1200_HW_REV_CUT20: fw_path = FIRMWARE_CUT20; if (!priv->sdd_path) priv->sdd_path = SDD_FILE_20; break; case CW1200_HW_REV_CUT22: fw_path = FIRMWARE_CUT22; if (!priv->sdd_path) priv->sdd_path = SDD_FILE_22; break; case CW1X60_HW_REV: fw_path = FIRMWARE_CW1X60; if (!priv->sdd_path) priv->sdd_path = SDD_FILE_CW1X60; break; default: pr_err("Invalid silicon revision %d.\n", priv->hw_revision); return -EINVAL; } /* Initialize common registers */ APB_WRITE(DOWNLOAD_IMAGE_SIZE_REG, DOWNLOAD_ARE_YOU_HERE); APB_WRITE(DOWNLOAD_PUT_REG, 0); APB_WRITE(DOWNLOAD_GET_REG, 0); APB_WRITE(DOWNLOAD_STATUS_REG, DOWNLOAD_PENDING); APB_WRITE(DOWNLOAD_FLAGS_REG, 0); /* Write the NOP Instruction */ REG_WRITE(ST90TDS_SRAM_BASE_ADDR_REG_ID, 0xFFF20000); REG_WRITE(ST90TDS_AHB_DPORT_REG_ID, 0xEAFFFFFE); /* Release CPU from RESET */ REG_READ(ST90TDS_CONFIG_REG_ID, val32); val32 &= ~ST90TDS_CONFIG_CPU_RESET_BIT; REG_WRITE(ST90TDS_CONFIG_REG_ID, val32); /* Enable Clock */ val32 &= ~ST90TDS_CONFIG_CPU_CLK_DIS_BIT; REG_WRITE(ST90TDS_CONFIG_REG_ID, val32); /* Load a firmware file */ ret = request_firmware(&firmware, fw_path, priv->pdev); if (ret) { pr_err("Can't load firmware file %s.\n", fw_path); goto exit; } buf = kmalloc(DOWNLOAD_BLOCK_SIZE, GFP_KERNEL | GFP_DMA); if (!buf) { pr_err("Can't allocate firmware load buffer.\n"); ret = -ENOMEM; goto firmware_release; } /* Check if the bootloader is ready */ for (i = 0; i < 100; i += 1 + i / 2) { APB_READ(DOWNLOAD_IMAGE_SIZE_REG, val32); if (val32 == DOWNLOAD_I_AM_HERE) break; mdelay(i); } /* End of for loop */ if (val32 != DOWNLOAD_I_AM_HERE) { pr_err("Bootloader is not ready.\n"); ret = -ETIMEDOUT; goto free_buffer; } /* Calculcate number of download blocks */ num_blocks = (firmware->size - 1) / DOWNLOAD_BLOCK_SIZE + 1; /* Updating the length in Download Ctrl Area */ val32 = firmware->size; /* Explicit cast from size_t to u32 */ APB_WRITE2(DOWNLOAD_IMAGE_SIZE_REG, val32); /* Firmware downloading loop */ for (block = 0; block < num_blocks; block++) { size_t tx_size; size_t block_size; /* check the download status */ APB_READ(DOWNLOAD_STATUS_REG, val32); if (val32 != DOWNLOAD_PENDING) { pr_err("Bootloader reported error %d.\n", val32); ret = -EIO; goto free_buffer; } /* loop until put - get <= 24K */ for (i = 0; i < 100; i++) { APB_READ(DOWNLOAD_GET_REG, get); if ((put - get) <= (DOWNLOAD_FIFO_SIZE - DOWNLOAD_BLOCK_SIZE)) break; mdelay(i); } if ((put - get) > (DOWNLOAD_FIFO_SIZE - DOWNLOAD_BLOCK_SIZE)) { pr_err("Timeout waiting for FIFO.\n"); ret = -ETIMEDOUT; goto free_buffer; } /* calculate the block size */ tx_size = block_size = min_t(size_t, firmware->size - put, DOWNLOAD_BLOCK_SIZE); memcpy(buf, &firmware->data[put], block_size); if (block_size < DOWNLOAD_BLOCK_SIZE) { memset(&buf[block_size], 0, DOWNLOAD_BLOCK_SIZE - block_size); tx_size = DOWNLOAD_BLOCK_SIZE; } /* send the block to sram */ ret = cw1200_apb_write(priv, CW1200_APB(DOWNLOAD_FIFO_OFFSET + (put & (DOWNLOAD_FIFO_SIZE - 1))), buf, tx_size); if (ret < 0) { pr_err("Can't write firmware block @ %d!\n", put & (DOWNLOAD_FIFO_SIZE - 1)); goto free_buffer; } /* update the put register */ put += block_size; APB_WRITE2(DOWNLOAD_PUT_REG, put); } /* End of firmware download loop */ /* Wait for the download completion */ for (i = 0; i < 300; i += 1 + i / 2) { APB_READ(DOWNLOAD_STATUS_REG, val32); if (val32 != DOWNLOAD_PENDING) break; mdelay(i); } if (val32 != DOWNLOAD_SUCCESS) { pr_err("Wait for download completion failed: 0x%.8X\n", val32); ret = -ETIMEDOUT; goto free_buffer; } else { pr_info("Firmware download completed.\n"); ret = 0; } free_buffer: kfree(buf); firmware_release: release_firmware(firmware); exit: return ret; #undef APB_WRITE #undef APB_WRITE2 #undef APB_READ #undef REG_WRITE #undef REG_READ }

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static int config_reg_read(struct cw1200_common *priv, u32 *val) { switch (priv->hw_type) { case HIF_9000_SILICON_VERSATILE: { u16 val16; int ret = cw1200_reg_read_16(priv, ST90TDS_CONFIG_REG_ID, &val16); if (ret < 0) return ret; *val = val16; return 0; } case HIF_8601_VERSATILE: case HIF_8601_SILICON: default: cw1200_reg_read_32(priv, ST90TDS_CONFIG_REG_ID, val); break; } return 0; }

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static int config_reg_write(struct cw1200_common *priv, u32 val) { switch (priv->hw_type) { case HIF_9000_SILICON_VERSATILE: return cw1200_reg_write_16(priv, ST90TDS_CONFIG_REG_ID, (u16)val); case HIF_8601_VERSATILE: case HIF_8601_SILICON: default: return cw1200_reg_write_32(priv, ST90TDS_CONFIG_REG_ID, val); } return 0; }

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int cw1200_load_firmware(struct cw1200_common *priv) { int ret; int i; u32 val32; u16 val16; int major_revision = -1; /* Read CONFIG Register */ ret = cw1200_reg_read_32(priv, ST90TDS_CONFIG_REG_ID, &val32); if (ret < 0) { pr_err("Can't read config register.\n"); goto out; } if (val32 == 0 || val32 == 0xffffffff) { pr_err("Bad config register value (0x%08x)\n", val32); ret = -EIO; goto out; } priv->hw_type = cw1200_get_hw_type(val32, &major_revision); if (priv->hw_type < 0) { pr_err("Can't deduce hardware type.\n"); ret = -ENOTSUPP; goto out; } /* Set DPLL Reg value, and read back to confirm writes work */ ret = cw1200_reg_write_32(priv, ST90TDS_TSET_GEN_R_W_REG_ID, cw1200_dpll_from_clk(priv->hw_refclk)); if (ret < 0) { pr_err("Can't write DPLL register.\n"); goto out; } msleep(20); ret = cw1200_reg_read_32(priv, ST90TDS_TSET_GEN_R_W_REG_ID, &val32); if (ret < 0) { pr_err("Can't read DPLL register.\n"); goto out; } if (val32 != cw1200_dpll_from_clk(priv->hw_refclk)) { pr_err("Unable to initialise DPLL register. Wrote 0x%.8X, Read 0x%.8X.\n", cw1200_dpll_from_clk(priv->hw_refclk), val32); ret = -EIO; goto out; } /* Set wakeup bit in device */ ret = cw1200_reg_read_16(priv, ST90TDS_CONTROL_REG_ID, &val16); if (ret < 0) { pr_err("set_wakeup: can't read control register.\n"); goto out; } ret = cw1200_reg_write_16(priv, ST90TDS_CONTROL_REG_ID, val16 | ST90TDS_CONT_WUP_BIT); if (ret < 0) { pr_err("set_wakeup: can't write control register.\n"); goto out; } /* Wait for wakeup */ for (i = 0; i < 300; i += (1 + i / 2)) { ret = cw1200_reg_read_16(priv, ST90TDS_CONTROL_REG_ID, &val16); if (ret < 0) { pr_err("wait_for_wakeup: can't read control register.\n"); goto out; } if (val16 & ST90TDS_CONT_RDY_BIT) break; msleep(i); } if ((val16 & ST90TDS_CONT_RDY_BIT) == 0) { pr_err("wait_for_wakeup: device is not responding.\n"); ret = -ETIMEDOUT; goto out; } switch (major_revision) { case 1: /* CW1200 Hardware detection logic : Check for CUT1.1 */ ret = cw1200_ahb_read_32(priv, CW1200_CUT_ID_ADDR, &val32); if (ret) { pr_err("HW detection: can't read CUT ID.\n"); goto out; } switch (val32) { case CW1200_CUT_11_ID_STR: pr_info("CW1x00 Cut 1.1 silicon detected.\n"); priv->hw_revision = CW1200_HW_REV_CUT11; break; default: pr_info("CW1x00 Cut 1.0 silicon detected.\n"); priv->hw_revision = CW1200_HW_REV_CUT10; break; } /* According to ST-E, CUT<2.0 has busted BA TID0-3. Just disable it entirely... */ priv->ba_rx_tid_mask = 0; priv->ba_tx_tid_mask = 0; break; case 2: { u32 ar1, ar2, ar3; ret = cw1200_ahb_read_32(priv, CW1200_CUT2_ID_ADDR, &ar1); if (ret) { pr_err("(1) HW detection: can't read CUT ID\n"); goto out; } ret = cw1200_ahb_read_32(priv, CW1200_CUT2_ID_ADDR + 4, &ar2); if (ret) { pr_err("(2) HW detection: can't read CUT ID.\n"); goto out; } ret = cw1200_ahb_read_32(priv, CW1200_CUT2_ID_ADDR + 8, &ar3); if (ret) { pr_err("(3) HW detection: can't read CUT ID.\n"); goto out; } if (ar1 == CW1200_CUT_22_ID_STR1 && ar2 == CW1200_CUT_22_ID_STR2 && ar3 == CW1200_CUT_22_ID_STR3) { pr_info("CW1x00 Cut 2.2 silicon detected.\n"); priv->hw_revision = CW1200_HW_REV_CUT22; } else { pr_info("CW1x00 Cut 2.0 silicon detected.\n"); priv->hw_revision = CW1200_HW_REV_CUT20; } break; } case 4: pr_info("CW1x60 silicon detected.\n"); priv->hw_revision = CW1X60_HW_REV; break; default: pr_err("Unsupported silicon major revision %d.\n", major_revision); ret = -ENOTSUPP; goto out; } /* Checking for access mode */ ret = config_reg_read(priv, &val32); if (ret < 0) { pr_err("Can't read config register.\n"); goto out; } if (!(val32 & ST90TDS_CONFIG_ACCESS_MODE_BIT)) { pr_err("Device is already in QUEUE mode!\n"); ret = -EINVAL; goto out; } switch (priv->hw_type) { case HIF_8601_SILICON: if (priv->hw_revision == CW1X60_HW_REV) { pr_err("Can't handle CW1160/1260 firmware load yet.\n"); ret = -ENOTSUPP; goto out; } ret = cw1200_load_firmware_cw1200(priv); break; default: pr_err("Can't perform firmware load for hw type %d.\n", priv->hw_type); ret = -ENOTSUPP; goto out; } if (ret < 0) { pr_err("Firmware load error.\n"); goto out; } /* Enable interrupt signalling */ priv->hwbus_ops->lock(priv->hwbus_priv); ret = __cw1200_irq_enable(priv, 1); priv->hwbus_ops->unlock(priv->hwbus_priv); if (ret < 0) goto unsubscribe; /* Configure device for MESSSAGE MODE */ ret = config_reg_read(priv, &val32); if (ret < 0) { pr_err("Can't read config register.\n"); goto unsubscribe; } ret = config_reg_write(priv, val32 & ~ST90TDS_CONFIG_ACCESS_MODE_BIT); if (ret < 0) { pr_err("Can't write config register.\n"); goto unsubscribe; } /* Unless we read the CONFIG Register we are * not able to get an interrupt */ mdelay(10); config_reg_read(priv, &val32); out: return ret; unsubscribe: /* Disable interrupt signalling */ priv->hwbus_ops->lock(priv->hwbus_priv); ret = __cw1200_irq_enable(priv, 0); priv->hwbus_ops->unlock(priv->hwbus_priv); return ret; }

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