Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Iñaky Pérez-González | 633 | 99.69% | 1 | 33.33% |
Anderson Lizardo | 2 | 0.31% | 2 | 66.67% |
Total | 635 | 3 |
/* * i1480 Device Firmware Upload * * Copyright (C) 2005-2006 Intel Corporation * Inaky Perez-Gonzalez <inaky.perez-gonzalez@intel.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. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. * * * This driver is the firmware uploader for the Intel Wireless UWB * Link 1480 device (both in the USB and PCI incarnations). * * The process is quite simple: we stop the device, write the firmware * to its memory and then restart it. Wait for the device to let us * know it is done booting firmware. Ready. * * We might have to upload before or after a phy firmware (which might * be done in two methods, using a normal firmware image or through * the MPI port). * * Because USB and PCI use common methods, we just make ops out of the * common operations (read, write, wait_init_done and cmd) and * implement them in usb.c and pci.c. * * The flow is (some parts omitted): * * i1480_{usb,pci}_probe() On enumerate/discovery * i1480_fw_upload() * i1480_pre_fw_upload() * __mac_fw_upload() * fw_hdrs_load() * mac_fw_hdrs_push() * i1480->write() [i1480_{usb,pci}_write()] * i1480_fw_cmp() * i1480->read() [i1480_{usb,pci}_read()] * i1480_mac_fw_upload() * __mac_fw_upload() * i1480->setup(() * i1480->wait_init_done() * i1480_cmd_reset() * i1480->cmd() [i1480_{usb,pci}_cmd()] * ... * i1480_phy_fw_upload() * request_firmware() * i1480_mpi_write() * i1480->cmd() [i1480_{usb,pci}_cmd()] * * Once the probe function enumerates the device and uploads the * firmware, we just exit with -ENODEV, as we don't really want to * attach to the device. */ #ifndef __i1480_DFU_H__ #define __i1480_DFU_H__ #include <linux/uwb/spec.h> #include <linux/types.h> #include <linux/completion.h> #define i1480_FW_UPLOAD_MODE_MASK (cpu_to_le32(0x00000018)) #if i1480_FW > 0x00000302 #define i1480_RCEB_EXTENDED #endif struct uwb_rccb; struct uwb_rceb; /* * Common firmware upload handlers * * Normally you embed this struct in another one specific to your hw. * * @write Write to device's memory from buffer. * @read Read from device's memory to i1480->evt_buf. * @setup Setup device after basic firmware is uploaded * @wait_init_done * Wait for the device to send a notification saying init * is done. * @cmd FOP for issuing the command to the hardware. The * command data is contained in i1480->cmd_buf and the size * is supplied as an argument. The command replied is put * in i1480->evt_buf and the size in i1480->evt_result (or if * an error, a < 0 errno code). * * @cmd_buf Memory buffer used to send commands to the device. * Allocated by the upper layers i1480_fw_upload(). * Size has to be @buf_size. * @evt_buf Memory buffer used to place the async notifications * received by the hw. Allocated by the upper layers * i1480_fw_upload(). * Size has to be @buf_size. * @cmd_complete * Low level driver uses this to notify code waiting afor * an event that the event has arrived and data is in * i1480->evt_buf (and size/result in i1480->evt_result). * @hw_rev * Use this value to activate dfu code to support new revisions * of hardware. i1480_init() sets this to a default value. * It should be updated by the USB and PCI code. */ struct i1480 { struct device *dev; int (*write)(struct i1480 *, u32 addr, const void *, size_t); int (*read)(struct i1480 *, u32 addr, size_t); int (*rc_setup)(struct i1480 *); void (*rc_release)(struct i1480 *); int (*wait_init_done)(struct i1480 *); int (*cmd)(struct i1480 *, const char *cmd_name, size_t cmd_size); const char *pre_fw_name; const char *mac_fw_name; const char *mac_fw_name_deprecate; /* FIXME: Will go away */ const char *phy_fw_name; u8 hw_rev; size_t buf_size; /* size of both evt_buf and cmd_buf */ void *evt_buf, *cmd_buf; ssize_t evt_result; struct completion evt_complete; }; static inline void i1480_init(struct i1480 *i1480) { i1480->hw_rev = 1; init_completion(&i1480->evt_complete); } extern int i1480_fw_upload(struct i1480 *); extern int i1480_pre_fw_upload(struct i1480 *); extern int i1480_mac_fw_upload(struct i1480 *); extern int i1480_phy_fw_upload(struct i1480 *); extern ssize_t i1480_cmd(struct i1480 *, const char *, size_t, size_t); extern int i1480_rceb_check(const struct i1480 *, const struct uwb_rceb *, const char *, u8, u8, unsigned); enum { /* Vendor specific command type */ i1480_CET_VS1 = 0xfd, /* i1480 commands */ i1480_CMD_SET_IP_MAS = 0x000e, i1480_CMD_GET_MAC_PHY_INFO = 0x0003, i1480_CMD_MPI_WRITE = 0x000f, i1480_CMD_MPI_READ = 0x0010, /* i1480 events */ #if i1480_FW > 0x00000302 i1480_EVT_CONFIRM = 0x0002, i1480_EVT_RM_INIT_DONE = 0x0101, i1480_EVT_DEV_ADD = 0x0103, i1480_EVT_DEV_RM = 0x0104, i1480_EVT_DEV_ID_CHANGE = 0x0105, i1480_EVT_GET_MAC_PHY_INFO = i1480_CMD_GET_MAC_PHY_INFO, #else i1480_EVT_CONFIRM = 0x0002, i1480_EVT_RM_INIT_DONE = 0x0101, i1480_EVT_DEV_ADD = 0x0103, i1480_EVT_DEV_RM = 0x0104, i1480_EVT_DEV_ID_CHANGE = 0x0105, i1480_EVT_GET_MAC_PHY_INFO = i1480_EVT_CONFIRM, #endif }; struct i1480_evt_confirm { struct uwb_rceb rceb; #ifdef i1480_RCEB_EXTENDED __le16 wParamLength; #endif u8 bResultCode; } __attribute__((packed)); struct i1480_rceb { struct uwb_rceb rceb; #ifdef i1480_RCEB_EXTENDED __le16 wParamLength; #endif } __attribute__((packed)); /** * Get MAC & PHY Information confirm event structure * * Confirm event returned by the command. */ struct i1480_evt_confirm_GMPI { #if i1480_FW > 0x00000302 struct uwb_rceb rceb; __le16 wParamLength; __le16 status; u8 mac_addr[6]; /* EUI-64 bit IEEE address [still 8 bytes?] */ u8 dev_addr[2]; __le16 mac_fw_rev; /* major = v >> 8; minor = v & 0xff */ u8 hw_rev; u8 phy_vendor; u8 phy_rev; /* major v = >> 8; minor = v & 0xff */ __le16 mac_caps; u8 phy_caps[3]; u8 key_stores; __le16 mcast_addr_stores; u8 sec_mode_supported; #else struct uwb_rceb rceb; u8 status; u8 mac_addr[8]; /* EUI-64 bit IEEE address [still 8 bytes?] */ u8 dev_addr[2]; __le16 mac_fw_rev; /* major = v >> 8; minor = v & 0xff */ __le16 phy_fw_rev; /* major v = >> 8; minor = v & 0xff */ __le16 mac_caps; u8 phy_caps; u8 key_stores; __le16 mcast_addr_stores; u8 sec_mode_supported; #endif } __attribute__((packed)); struct i1480_cmd_mpi_write { struct uwb_rccb rccb; __le16 size; u8 data[]; }; struct i1480_cmd_mpi_read { struct uwb_rccb rccb; __le16 size; struct { u8 page, offset; } __attribute__((packed)) data[]; } __attribute__((packed)); struct i1480_evt_mpi_read { struct uwb_rceb rceb; #ifdef i1480_RCEB_EXTENDED __le16 wParamLength; #endif u8 bResultCode; __le16 size; struct { u8 page, offset, value; } __attribute__((packed)) data[]; } __attribute__((packed)); #endif /* #ifndef __i1480_DFU_H__ */
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