13c7e78d3SWeongyo Jeong /*- 2*4d846d26SWarner Losh * SPDX-License-Identifier: BSD-2-Clause 3718cf2ccSPedro F. Giffuni * 43c7e78d3SWeongyo Jeong * Copyright (c) 2007 Marvell Semiconductor, Inc. 53c7e78d3SWeongyo Jeong * Copyright (c) 2007 Sam Leffler, Errno Consulting 63c7e78d3SWeongyo Jeong * Copyright (c) 2008 Weongyo Jeong <weongyo@freebsd.org> 73c7e78d3SWeongyo Jeong * All rights reserved. 83c7e78d3SWeongyo Jeong * 93c7e78d3SWeongyo Jeong * Redistribution and use in source and binary forms, with or without 103c7e78d3SWeongyo Jeong * modification, are permitted provided that the following conditions 113c7e78d3SWeongyo Jeong * are met: 123c7e78d3SWeongyo Jeong * 1. Redistributions of source code must retain the above copyright 133c7e78d3SWeongyo Jeong * notice, this list of conditions and the following disclaimer, 143c7e78d3SWeongyo Jeong * without modification. 153c7e78d3SWeongyo Jeong * 2. Redistributions in binary form must reproduce at minimum a disclaimer 163c7e78d3SWeongyo Jeong * similar to the "NO WARRANTY" disclaimer below ("Disclaimer") and any 173c7e78d3SWeongyo Jeong * redistribution must be conditioned upon including a substantially 183c7e78d3SWeongyo Jeong * similar Disclaimer requirement for further binary redistribution. 193c7e78d3SWeongyo Jeong * 203c7e78d3SWeongyo Jeong * NO WARRANTY 213c7e78d3SWeongyo Jeong * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 223c7e78d3SWeongyo Jeong * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 233c7e78d3SWeongyo Jeong * LIMITED TO, THE IMPLIED WARRANTIES OF NONINFRINGEMENT, MERCHANTIBILITY 243c7e78d3SWeongyo Jeong * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL 253c7e78d3SWeongyo Jeong * THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, 263c7e78d3SWeongyo Jeong * OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 273c7e78d3SWeongyo Jeong * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 283c7e78d3SWeongyo Jeong * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER 293c7e78d3SWeongyo Jeong * IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 303c7e78d3SWeongyo Jeong * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF 313c7e78d3SWeongyo Jeong * THE POSSIBILITY OF SUCH DAMAGES. 323c7e78d3SWeongyo Jeong */ 333c7e78d3SWeongyo Jeong 343c7e78d3SWeongyo Jeong #include <sys/cdefs.h> 353c7e78d3SWeongyo Jeong #ifdef __FreeBSD__ 363c7e78d3SWeongyo Jeong __FBSDID("$FreeBSD$"); 373c7e78d3SWeongyo Jeong #endif 383c7e78d3SWeongyo Jeong 393c7e78d3SWeongyo Jeong #include <sys/param.h> 403c7e78d3SWeongyo Jeong #include <sys/systm.h> 413c7e78d3SWeongyo Jeong #include <sys/endian.h> 423c7e78d3SWeongyo Jeong #include <sys/kernel.h> 4376039bc8SGleb Smirnoff #include <sys/malloc.h> 443c7e78d3SWeongyo Jeong #include <sys/firmware.h> 453c7e78d3SWeongyo Jeong #include <sys/socket.h> 463c7e78d3SWeongyo Jeong 473c7e78d3SWeongyo Jeong #include <machine/bus.h> 483c7e78d3SWeongyo Jeong #include <sys/bus.h> 493c7e78d3SWeongyo Jeong 503c7e78d3SWeongyo Jeong #include <net/if.h> 5176039bc8SGleb Smirnoff #include <net/if_var.h> 523c7e78d3SWeongyo Jeong #include <net/if_dl.h> 533c7e78d3SWeongyo Jeong #include <net/if_media.h> 54c3322cb9SGleb Smirnoff #include <net/ethernet.h> 553c7e78d3SWeongyo Jeong 563c7e78d3SWeongyo Jeong #include <net80211/ieee80211_var.h> 573c7e78d3SWeongyo Jeong 583c7e78d3SWeongyo Jeong #include <dev/malo/if_malo.h> 593c7e78d3SWeongyo Jeong 603c7e78d3SWeongyo Jeong #define MALO_WAITOK 1 613c7e78d3SWeongyo Jeong #define MALO_NOWAIT 0 623c7e78d3SWeongyo Jeong 633c7e78d3SWeongyo Jeong #define _CMD_SETUP(pCmd, _type, _cmd) do { \ 643c7e78d3SWeongyo Jeong pCmd = (_type *)&mh->mh_cmdbuf[0]; \ 653c7e78d3SWeongyo Jeong memset(pCmd, 0, sizeof(_type)); \ 663c7e78d3SWeongyo Jeong pCmd->cmdhdr.cmd = htole16(_cmd); \ 673c7e78d3SWeongyo Jeong pCmd->cmdhdr.length = htole16(sizeof(_type)); \ 683c7e78d3SWeongyo Jeong } while (0) 693c7e78d3SWeongyo Jeong 703c7e78d3SWeongyo Jeong static __inline uint32_t 713c7e78d3SWeongyo Jeong malo_hal_read4(struct malo_hal *mh, bus_size_t off) 723c7e78d3SWeongyo Jeong { 733c7e78d3SWeongyo Jeong return bus_space_read_4(mh->mh_iot, mh->mh_ioh, off); 743c7e78d3SWeongyo Jeong } 753c7e78d3SWeongyo Jeong 763c7e78d3SWeongyo Jeong static __inline void 773c7e78d3SWeongyo Jeong malo_hal_write4(struct malo_hal *mh, bus_size_t off, uint32_t val) 783c7e78d3SWeongyo Jeong { 793c7e78d3SWeongyo Jeong bus_space_write_4(mh->mh_iot, mh->mh_ioh, off, val); 803c7e78d3SWeongyo Jeong } 813c7e78d3SWeongyo Jeong 823c7e78d3SWeongyo Jeong static void 833c7e78d3SWeongyo Jeong malo_hal_load_cb(void *arg, bus_dma_segment_t *segs, int nsegs, int error) 843c7e78d3SWeongyo Jeong { 853c7e78d3SWeongyo Jeong bus_addr_t *paddr = (bus_addr_t*) arg; 863c7e78d3SWeongyo Jeong 873c7e78d3SWeongyo Jeong KASSERT(error == 0, ("error %u on bus_dma callback", error)); 883c7e78d3SWeongyo Jeong *paddr = segs->ds_addr; 893c7e78d3SWeongyo Jeong } 903c7e78d3SWeongyo Jeong 913c7e78d3SWeongyo Jeong /* 923c7e78d3SWeongyo Jeong * Setup for communication with the device. We allocate 933c7e78d3SWeongyo Jeong * a command buffer and map it for bus dma use. The pci 943c7e78d3SWeongyo Jeong * device id is used to identify whether the device has 953c7e78d3SWeongyo Jeong * SRAM on it (in which case f/w download must include a 963c7e78d3SWeongyo Jeong * memory controller reset). All bus i/o operations happen 973c7e78d3SWeongyo Jeong * in BAR 1; the driver passes in the tag and handle we need. 983c7e78d3SWeongyo Jeong */ 993c7e78d3SWeongyo Jeong struct malo_hal * 1003c7e78d3SWeongyo Jeong malo_hal_attach(device_t dev, uint16_t devid, 1013c7e78d3SWeongyo Jeong bus_space_handle_t ioh, bus_space_tag_t iot, bus_dma_tag_t tag) 1023c7e78d3SWeongyo Jeong { 1033c7e78d3SWeongyo Jeong int error; 1043c7e78d3SWeongyo Jeong struct malo_hal *mh; 1053c7e78d3SWeongyo Jeong 1063c7e78d3SWeongyo Jeong mh = malloc(sizeof(struct malo_hal), M_DEVBUF, M_NOWAIT | M_ZERO); 1073c7e78d3SWeongyo Jeong if (mh == NULL) 1083c7e78d3SWeongyo Jeong return NULL; 1093c7e78d3SWeongyo Jeong 1103c7e78d3SWeongyo Jeong mh->mh_dev = dev; 1113c7e78d3SWeongyo Jeong mh->mh_ioh = ioh; 1123c7e78d3SWeongyo Jeong mh->mh_iot = iot; 1133c7e78d3SWeongyo Jeong 1143c7e78d3SWeongyo Jeong snprintf(mh->mh_mtxname, sizeof(mh->mh_mtxname), 1153c7e78d3SWeongyo Jeong "%s_hal", device_get_nameunit(dev)); 1163c7e78d3SWeongyo Jeong mtx_init(&mh->mh_mtx, mh->mh_mtxname, NULL, MTX_DEF); 1173c7e78d3SWeongyo Jeong 1183c7e78d3SWeongyo Jeong /* 1193c7e78d3SWeongyo Jeong * Allocate the command buffer and map into the address 1203c7e78d3SWeongyo Jeong * space of the h/w. We request "coherent" memory which 1213c7e78d3SWeongyo Jeong * will be uncached on some architectures. 1223c7e78d3SWeongyo Jeong */ 1233c7e78d3SWeongyo Jeong error = bus_dma_tag_create(tag, /* parent */ 1243c7e78d3SWeongyo Jeong PAGE_SIZE, 0, /* alignment, bounds */ 1253c7e78d3SWeongyo Jeong BUS_SPACE_MAXADDR_32BIT, /* lowaddr */ 1263c7e78d3SWeongyo Jeong BUS_SPACE_MAXADDR, /* highaddr */ 1273c7e78d3SWeongyo Jeong NULL, NULL, /* filter, filterarg */ 1283c7e78d3SWeongyo Jeong MALO_CMDBUF_SIZE, /* maxsize */ 1293c7e78d3SWeongyo Jeong 1, /* nsegments */ 1303c7e78d3SWeongyo Jeong MALO_CMDBUF_SIZE, /* maxsegsize */ 1313c7e78d3SWeongyo Jeong BUS_DMA_ALLOCNOW, /* flags */ 1323c7e78d3SWeongyo Jeong NULL, /* lockfunc */ 1333c7e78d3SWeongyo Jeong NULL, /* lockarg */ 1343c7e78d3SWeongyo Jeong &mh->mh_dmat); 1353c7e78d3SWeongyo Jeong if (error != 0) { 136da689ab8SWeongyo Jeong device_printf(dev, "unable to allocate memory for cmd tag, " 1373c7e78d3SWeongyo Jeong "error %u\n", error); 1383c7e78d3SWeongyo Jeong goto fail; 1393c7e78d3SWeongyo Jeong } 1403c7e78d3SWeongyo Jeong 1413c7e78d3SWeongyo Jeong /* allocate descriptors */ 1423c7e78d3SWeongyo Jeong error = bus_dmamem_alloc(mh->mh_dmat, (void**) &mh->mh_cmdbuf, 1433c7e78d3SWeongyo Jeong BUS_DMA_NOWAIT | BUS_DMA_COHERENT, 1443c7e78d3SWeongyo Jeong &mh->mh_dmamap); 1453c7e78d3SWeongyo Jeong if (error != 0) { 1463c7e78d3SWeongyo Jeong device_printf(dev, "unable to allocate memory for cmd buffer, " 1473c7e78d3SWeongyo Jeong "error %u\n", error); 1483c7e78d3SWeongyo Jeong goto fail; 1493c7e78d3SWeongyo Jeong } 1503c7e78d3SWeongyo Jeong 1513c7e78d3SWeongyo Jeong error = bus_dmamap_load(mh->mh_dmat, mh->mh_dmamap, 1523c7e78d3SWeongyo Jeong mh->mh_cmdbuf, MALO_CMDBUF_SIZE, 1533c7e78d3SWeongyo Jeong malo_hal_load_cb, &mh->mh_cmdaddr, 1543c7e78d3SWeongyo Jeong BUS_DMA_NOWAIT); 1553c7e78d3SWeongyo Jeong if (error != 0) { 1563c7e78d3SWeongyo Jeong device_printf(dev, "unable to load cmd buffer, error %u\n", 1573c7e78d3SWeongyo Jeong error); 1583c7e78d3SWeongyo Jeong goto fail; 1593c7e78d3SWeongyo Jeong } 1603c7e78d3SWeongyo Jeong 1613c7e78d3SWeongyo Jeong return (mh); 1623c7e78d3SWeongyo Jeong 1633c7e78d3SWeongyo Jeong fail: 1643c7e78d3SWeongyo Jeong if (mh->mh_cmdbuf != NULL) 1653c7e78d3SWeongyo Jeong bus_dmamem_free(mh->mh_dmat, mh->mh_cmdbuf, 1663c7e78d3SWeongyo Jeong mh->mh_dmamap); 1673c7e78d3SWeongyo Jeong if (mh->mh_dmat) 1683c7e78d3SWeongyo Jeong bus_dma_tag_destroy(mh->mh_dmat); 169dec9af5aSWeongyo Jeong free(mh, M_DEVBUF); 1703c7e78d3SWeongyo Jeong 1713c7e78d3SWeongyo Jeong return (NULL); 1723c7e78d3SWeongyo Jeong } 1733c7e78d3SWeongyo Jeong 1743c7e78d3SWeongyo Jeong /* 1753c7e78d3SWeongyo Jeong * Low level firmware cmd block handshake support. 1763c7e78d3SWeongyo Jeong */ 1773c7e78d3SWeongyo Jeong 1783c7e78d3SWeongyo Jeong static void 1793c7e78d3SWeongyo Jeong malo_hal_send_cmd(struct malo_hal *mh) 1803c7e78d3SWeongyo Jeong { 1813c7e78d3SWeongyo Jeong 1823c7e78d3SWeongyo Jeong bus_dmamap_sync(mh->mh_dmat, mh->mh_dmamap, 1833c7e78d3SWeongyo Jeong BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 1843c7e78d3SWeongyo Jeong 1853c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_GEN_PTR, mh->mh_cmdaddr); 186fba6f8efSWarner Losh malo_hal_read4(mh, MALO_REG_INT_CODE); 1873c7e78d3SWeongyo Jeong 1883c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_H2A_INTERRUPT_EVENTS, 1893c7e78d3SWeongyo Jeong MALO_H2ARIC_BIT_DOOR_BELL); 1903c7e78d3SWeongyo Jeong } 1913c7e78d3SWeongyo Jeong 1923c7e78d3SWeongyo Jeong static int 1933c7e78d3SWeongyo Jeong malo_hal_waitforcmd(struct malo_hal *mh, uint16_t cmd) 1943c7e78d3SWeongyo Jeong { 1953c7e78d3SWeongyo Jeong #define MAX_WAIT_FW_COMPLETE_ITERATIONS 10000 1963c7e78d3SWeongyo Jeong int i; 1973c7e78d3SWeongyo Jeong 1983c7e78d3SWeongyo Jeong for (i = 0; i < MAX_WAIT_FW_COMPLETE_ITERATIONS; i++) { 1993c7e78d3SWeongyo Jeong if (mh->mh_cmdbuf[0] == le16toh(cmd)) 2003c7e78d3SWeongyo Jeong return 1; 2013c7e78d3SWeongyo Jeong 2023c7e78d3SWeongyo Jeong DELAY(1 * 1000); 2033c7e78d3SWeongyo Jeong } 2043c7e78d3SWeongyo Jeong 2053c7e78d3SWeongyo Jeong return 0; 2063c7e78d3SWeongyo Jeong #undef MAX_WAIT_FW_COMPLETE_ITERATIONS 2073c7e78d3SWeongyo Jeong } 2083c7e78d3SWeongyo Jeong 2093c7e78d3SWeongyo Jeong static int 2103c7e78d3SWeongyo Jeong malo_hal_execute_cmd(struct malo_hal *mh, unsigned short cmd) 2113c7e78d3SWeongyo Jeong { 2123c7e78d3SWeongyo Jeong MALO_HAL_LOCK_ASSERT(mh); 2133c7e78d3SWeongyo Jeong 2143c7e78d3SWeongyo Jeong if ((mh->mh_flags & MHF_FWHANG) && 2153c7e78d3SWeongyo Jeong (mh->mh_debug & MALO_HAL_DEBUG_IGNHANG) == 0) { 2163c7e78d3SWeongyo Jeong device_printf(mh->mh_dev, "firmware hung, skipping cmd 0x%x\n", 2173c7e78d3SWeongyo Jeong cmd); 2183c7e78d3SWeongyo Jeong return ENXIO; 2193c7e78d3SWeongyo Jeong } 2203c7e78d3SWeongyo Jeong 2213c7e78d3SWeongyo Jeong if (malo_hal_read4(mh, MALO_REG_INT_CODE) == 0xffffffff) { 2223c7e78d3SWeongyo Jeong device_printf(mh->mh_dev, "%s: device not present!\n", 2233c7e78d3SWeongyo Jeong __func__); 2243c7e78d3SWeongyo Jeong return EIO; 2253c7e78d3SWeongyo Jeong } 2263c7e78d3SWeongyo Jeong 2273c7e78d3SWeongyo Jeong malo_hal_send_cmd(mh); 2283c7e78d3SWeongyo Jeong if (!malo_hal_waitforcmd(mh, cmd | 0x8000)) { 2293c7e78d3SWeongyo Jeong device_printf(mh->mh_dev, 2303c7e78d3SWeongyo Jeong "timeout waiting for f/w cmd 0x%x\n", cmd); 2313c7e78d3SWeongyo Jeong mh->mh_flags |= MHF_FWHANG; 2323c7e78d3SWeongyo Jeong return ETIMEDOUT; 2333c7e78d3SWeongyo Jeong } 2343c7e78d3SWeongyo Jeong 2353c7e78d3SWeongyo Jeong bus_dmamap_sync(mh->mh_dmat, mh->mh_dmamap, 2363c7e78d3SWeongyo Jeong BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE); 2373c7e78d3SWeongyo Jeong 2383c7e78d3SWeongyo Jeong return 0; 2393c7e78d3SWeongyo Jeong } 2403c7e78d3SWeongyo Jeong 2413c7e78d3SWeongyo Jeong static int 2423c7e78d3SWeongyo Jeong malo_hal_get_cal_table(struct malo_hal *mh, uint8_t annex, uint8_t index) 2433c7e78d3SWeongyo Jeong { 2443c7e78d3SWeongyo Jeong struct malo_cmd_caltable *cmd; 2453c7e78d3SWeongyo Jeong int ret; 2463c7e78d3SWeongyo Jeong 2473c7e78d3SWeongyo Jeong MALO_HAL_LOCK_ASSERT(mh); 2483c7e78d3SWeongyo Jeong 2493c7e78d3SWeongyo Jeong _CMD_SETUP(cmd, struct malo_cmd_caltable, MALO_HOSTCMD_GET_CALTABLE); 2503c7e78d3SWeongyo Jeong cmd->annex = annex; 2513c7e78d3SWeongyo Jeong cmd->index = index; 2523c7e78d3SWeongyo Jeong 2533c7e78d3SWeongyo Jeong ret = malo_hal_execute_cmd(mh, MALO_HOSTCMD_GET_CALTABLE); 2543c7e78d3SWeongyo Jeong if (ret == 0 && cmd->caltbl[0] != annex && annex != 0 && annex != 255) 2553c7e78d3SWeongyo Jeong ret = EIO; 2563c7e78d3SWeongyo Jeong return ret; 2573c7e78d3SWeongyo Jeong } 2583c7e78d3SWeongyo Jeong 2593c7e78d3SWeongyo Jeong static int 2603c7e78d3SWeongyo Jeong malo_hal_get_pwrcal_table(struct malo_hal *mh, struct malo_hal_caldata *cal) 2613c7e78d3SWeongyo Jeong { 2623c7e78d3SWeongyo Jeong const uint8_t *data; 2633c7e78d3SWeongyo Jeong int len; 2643c7e78d3SWeongyo Jeong 2653c7e78d3SWeongyo Jeong MALO_HAL_LOCK(mh); 2663c7e78d3SWeongyo Jeong /* NB: we hold the lock so it's ok to use cmdbuf */ 2673c7e78d3SWeongyo Jeong data = ((const struct malo_cmd_caltable *) mh->mh_cmdbuf)->caltbl; 2683c7e78d3SWeongyo Jeong if (malo_hal_get_cal_table(mh, 33, 0) == 0) { 2693c7e78d3SWeongyo Jeong len = (data[2] | (data[3] << 8)) - 12; 2703c7e78d3SWeongyo Jeong /* XXX validate len */ 2713c7e78d3SWeongyo Jeong memcpy(cal->pt_ratetable_20m, &data[12], len); 2723c7e78d3SWeongyo Jeong } 2733c7e78d3SWeongyo Jeong mh->mh_flags |= MHF_CALDATA; 2743c7e78d3SWeongyo Jeong MALO_HAL_UNLOCK(mh); 2753c7e78d3SWeongyo Jeong 2763c7e78d3SWeongyo Jeong return 0; 2773c7e78d3SWeongyo Jeong } 2783c7e78d3SWeongyo Jeong 2793c7e78d3SWeongyo Jeong /* 2803c7e78d3SWeongyo Jeong * Reset internal state after a firmware download. 2813c7e78d3SWeongyo Jeong */ 2823c7e78d3SWeongyo Jeong static int 2833c7e78d3SWeongyo Jeong malo_hal_resetstate(struct malo_hal *mh) 2843c7e78d3SWeongyo Jeong { 2853c7e78d3SWeongyo Jeong /* 2863c7e78d3SWeongyo Jeong * Fetch cal data for later use. 2873c7e78d3SWeongyo Jeong * XXX may want to fetch other stuff too. 2883c7e78d3SWeongyo Jeong */ 2893c7e78d3SWeongyo Jeong if ((mh->mh_flags & MHF_CALDATA) == 0) 2903c7e78d3SWeongyo Jeong malo_hal_get_pwrcal_table(mh, &mh->mh_caldata); 2913c7e78d3SWeongyo Jeong return 0; 2923c7e78d3SWeongyo Jeong } 2933c7e78d3SWeongyo Jeong 2943c7e78d3SWeongyo Jeong static void 2953c7e78d3SWeongyo Jeong malo_hal_fw_reset(struct malo_hal *mh) 2963c7e78d3SWeongyo Jeong { 2973c7e78d3SWeongyo Jeong 2983c7e78d3SWeongyo Jeong if (malo_hal_read4(mh, MALO_REG_INT_CODE) == 0xffffffff) { 2993c7e78d3SWeongyo Jeong device_printf(mh->mh_dev, "%s: device not present!\n", 3003c7e78d3SWeongyo Jeong __func__); 3013c7e78d3SWeongyo Jeong return; 3023c7e78d3SWeongyo Jeong } 3033c7e78d3SWeongyo Jeong 3043c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_H2A_INTERRUPT_EVENTS, MALO_ISR_RESET); 3053c7e78d3SWeongyo Jeong mh->mh_flags &= ~MHF_FWHANG; 3063c7e78d3SWeongyo Jeong } 3073c7e78d3SWeongyo Jeong 3083c7e78d3SWeongyo Jeong static void 3093c7e78d3SWeongyo Jeong malo_hal_trigger_pcicmd(struct malo_hal *mh) 3103c7e78d3SWeongyo Jeong { 3113c7e78d3SWeongyo Jeong 3123c7e78d3SWeongyo Jeong bus_dmamap_sync(mh->mh_dmat, mh->mh_dmamap, BUS_DMASYNC_PREWRITE); 3133c7e78d3SWeongyo Jeong 3143c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_GEN_PTR, mh->mh_cmdaddr); 315fba6f8efSWarner Losh malo_hal_read4(mh, MALO_REG_INT_CODE); 3163c7e78d3SWeongyo Jeong 3173c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_INT_CODE, 0x00); 318fba6f8efSWarner Losh malo_hal_read4(mh, MALO_REG_INT_CODE); 3193c7e78d3SWeongyo Jeong 3203c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_H2A_INTERRUPT_EVENTS, 3213c7e78d3SWeongyo Jeong MALO_H2ARIC_BIT_DOOR_BELL); 322fba6f8efSWarner Losh malo_hal_read4(mh, MALO_REG_INT_CODE); 3233c7e78d3SWeongyo Jeong } 3243c7e78d3SWeongyo Jeong 3253c7e78d3SWeongyo Jeong static int 3263c7e78d3SWeongyo Jeong malo_hal_waitfor(struct malo_hal *mh, uint32_t val) 3273c7e78d3SWeongyo Jeong { 3283c7e78d3SWeongyo Jeong int i; 3293c7e78d3SWeongyo Jeong 3303c7e78d3SWeongyo Jeong for (i = 0; i < MALO_FW_MAX_NUM_CHECKS; i++) { 3313c7e78d3SWeongyo Jeong DELAY(MALO_FW_CHECK_USECS); 3323c7e78d3SWeongyo Jeong if (malo_hal_read4(mh, MALO_REG_INT_CODE) == val) 3333c7e78d3SWeongyo Jeong return 0; 3343c7e78d3SWeongyo Jeong } 3353c7e78d3SWeongyo Jeong 3363c7e78d3SWeongyo Jeong return -1; 3373c7e78d3SWeongyo Jeong } 3383c7e78d3SWeongyo Jeong 3393c7e78d3SWeongyo Jeong /* 3403c7e78d3SWeongyo Jeong * Firmware block xmit when talking to the boot-rom. 3413c7e78d3SWeongyo Jeong */ 3423c7e78d3SWeongyo Jeong static int 3433c7e78d3SWeongyo Jeong malo_hal_send_helper(struct malo_hal *mh, int bsize, 3443c7e78d3SWeongyo Jeong const void *data, size_t dsize, int waitfor) 3453c7e78d3SWeongyo Jeong { 3463c7e78d3SWeongyo Jeong mh->mh_cmdbuf[0] = htole16(MALO_HOSTCMD_CODE_DNLD); 3473c7e78d3SWeongyo Jeong mh->mh_cmdbuf[1] = htole16(bsize); 3483c7e78d3SWeongyo Jeong memcpy(&mh->mh_cmdbuf[4], data , dsize); 3493c7e78d3SWeongyo Jeong 3503c7e78d3SWeongyo Jeong malo_hal_trigger_pcicmd(mh); 3513c7e78d3SWeongyo Jeong 3523c7e78d3SWeongyo Jeong if (waitfor == MALO_NOWAIT) 3533c7e78d3SWeongyo Jeong goto pass; 3543c7e78d3SWeongyo Jeong 3553c7e78d3SWeongyo Jeong /* XXX 2000 vs 200 */ 3563c7e78d3SWeongyo Jeong if (malo_hal_waitfor(mh, MALO_INT_CODE_CMD_FINISHED) != 0) { 3573c7e78d3SWeongyo Jeong device_printf(mh->mh_dev, 3583c7e78d3SWeongyo Jeong "%s: timeout waiting for CMD_FINISHED, INT_CODE 0x%x\n", 3593c7e78d3SWeongyo Jeong __func__, malo_hal_read4(mh, MALO_REG_INT_CODE)); 3603c7e78d3SWeongyo Jeong 3613c7e78d3SWeongyo Jeong return ETIMEDOUT; 3623c7e78d3SWeongyo Jeong } 3633c7e78d3SWeongyo Jeong 3643c7e78d3SWeongyo Jeong pass: 3653c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_INT_CODE, 0); 3663c7e78d3SWeongyo Jeong 3673c7e78d3SWeongyo Jeong return (0); 3683c7e78d3SWeongyo Jeong } 3693c7e78d3SWeongyo Jeong 3703c7e78d3SWeongyo Jeong static int 3713c7e78d3SWeongyo Jeong malo_hal_fwload_helper(struct malo_hal *mh, char *helper) 3723c7e78d3SWeongyo Jeong { 3733c7e78d3SWeongyo Jeong const struct firmware *fw; 3743c7e78d3SWeongyo Jeong int error; 3753c7e78d3SWeongyo Jeong 3763c7e78d3SWeongyo Jeong fw = firmware_get(helper); 3773c7e78d3SWeongyo Jeong if (fw == NULL) { 3783c7e78d3SWeongyo Jeong device_printf(mh->mh_dev, "could not read microcode %s!\n", 3793c7e78d3SWeongyo Jeong helper); 3803c7e78d3SWeongyo Jeong return (EIO); 3813c7e78d3SWeongyo Jeong } 3823c7e78d3SWeongyo Jeong 38334d381f9SWeongyo Jeong device_printf(mh->mh_dev, "load %s firmware image (%zu bytes)\n", 3843c7e78d3SWeongyo Jeong helper, fw->datasize); 3853c7e78d3SWeongyo Jeong 3863c7e78d3SWeongyo Jeong error = malo_hal_send_helper(mh, fw->datasize, fw->data, fw->datasize, 3873c7e78d3SWeongyo Jeong MALO_WAITOK); 3883c7e78d3SWeongyo Jeong if (error != 0) 3893c7e78d3SWeongyo Jeong goto fail; 3903c7e78d3SWeongyo Jeong 3913c7e78d3SWeongyo Jeong /* tell the card we're done and... */ 3923c7e78d3SWeongyo Jeong error = malo_hal_send_helper(mh, 0, NULL, 0, MALO_NOWAIT); 3933c7e78d3SWeongyo Jeong 3943c7e78d3SWeongyo Jeong fail: 3953c7e78d3SWeongyo Jeong firmware_put(fw, FIRMWARE_UNLOAD); 3963c7e78d3SWeongyo Jeong 3973c7e78d3SWeongyo Jeong return (error); 3983c7e78d3SWeongyo Jeong } 3993c7e78d3SWeongyo Jeong 4003c7e78d3SWeongyo Jeong /* 4013c7e78d3SWeongyo Jeong * Firmware block xmit when talking to the 1st-stage loader. 4023c7e78d3SWeongyo Jeong */ 4033c7e78d3SWeongyo Jeong static int 4043c7e78d3SWeongyo Jeong malo_hal_send_main(struct malo_hal *mh, const void *data, size_t dsize, 4053c7e78d3SWeongyo Jeong uint16_t seqnum, int waitfor) 4063c7e78d3SWeongyo Jeong { 4073c7e78d3SWeongyo Jeong mh->mh_cmdbuf[0] = htole16(MALO_HOSTCMD_CODE_DNLD); 4083c7e78d3SWeongyo Jeong mh->mh_cmdbuf[1] = htole16(dsize); 4093c7e78d3SWeongyo Jeong mh->mh_cmdbuf[2] = htole16(seqnum); 4103c7e78d3SWeongyo Jeong mh->mh_cmdbuf[3] = 0; 4113c7e78d3SWeongyo Jeong memcpy(&mh->mh_cmdbuf[4], data, dsize); 4123c7e78d3SWeongyo Jeong 4133c7e78d3SWeongyo Jeong malo_hal_trigger_pcicmd(mh); 4143c7e78d3SWeongyo Jeong 4153c7e78d3SWeongyo Jeong if (waitfor == MALO_NOWAIT) 4163c7e78d3SWeongyo Jeong goto pass; 4173c7e78d3SWeongyo Jeong 4183c7e78d3SWeongyo Jeong if (malo_hal_waitfor(mh, MALO_INT_CODE_CMD_FINISHED) != 0) { 4193c7e78d3SWeongyo Jeong device_printf(mh->mh_dev, 4203c7e78d3SWeongyo Jeong "%s: timeout waiting for CMD_FINISHED, INT_CODE 0x%x\n", 4213c7e78d3SWeongyo Jeong __func__, malo_hal_read4(mh, MALO_REG_INT_CODE)); 4223c7e78d3SWeongyo Jeong 4233c7e78d3SWeongyo Jeong return ETIMEDOUT; 4243c7e78d3SWeongyo Jeong } 4253c7e78d3SWeongyo Jeong 4263c7e78d3SWeongyo Jeong pass: 4273c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_INT_CODE, 0); 4283c7e78d3SWeongyo Jeong 4293c7e78d3SWeongyo Jeong return 0; 4303c7e78d3SWeongyo Jeong } 4313c7e78d3SWeongyo Jeong 4323c7e78d3SWeongyo Jeong static int 4333c7e78d3SWeongyo Jeong malo_hal_fwload_main(struct malo_hal *mh, char *firmware) 4343c7e78d3SWeongyo Jeong { 4353c7e78d3SWeongyo Jeong const struct firmware *fw; 4363c7e78d3SWeongyo Jeong const uint8_t *fp; 4373c7e78d3SWeongyo Jeong int error; 4383c7e78d3SWeongyo Jeong size_t count; 4393c7e78d3SWeongyo Jeong uint16_t seqnum; 4403c7e78d3SWeongyo Jeong uint32_t blocksize; 4413c7e78d3SWeongyo Jeong 4423c7e78d3SWeongyo Jeong error = 0; 4433c7e78d3SWeongyo Jeong 4443c7e78d3SWeongyo Jeong fw = firmware_get(firmware); 4453c7e78d3SWeongyo Jeong if (fw == NULL) { 4463c7e78d3SWeongyo Jeong device_printf(mh->mh_dev, "could not read firmware %s!\n", 4473c7e78d3SWeongyo Jeong firmware); 4483c7e78d3SWeongyo Jeong return (EIO); 4493c7e78d3SWeongyo Jeong } 4503c7e78d3SWeongyo Jeong 45134d381f9SWeongyo Jeong device_printf(mh->mh_dev, "load %s firmware image (%zu bytes)\n", 4523c7e78d3SWeongyo Jeong firmware, fw->datasize); 4533c7e78d3SWeongyo Jeong 4543c7e78d3SWeongyo Jeong seqnum = 1; 4553c7e78d3SWeongyo Jeong for (count = 0; count < fw->datasize; count += blocksize) { 4563c7e78d3SWeongyo Jeong blocksize = MIN(256, fw->datasize - count); 4573c7e78d3SWeongyo Jeong fp = (const uint8_t *)fw->data + count; 4583c7e78d3SWeongyo Jeong 4593c7e78d3SWeongyo Jeong error = malo_hal_send_main(mh, fp, blocksize, seqnum++, 4603c7e78d3SWeongyo Jeong MALO_NOWAIT); 4613c7e78d3SWeongyo Jeong if (error != 0) 4623c7e78d3SWeongyo Jeong goto fail; 4633c7e78d3SWeongyo Jeong DELAY(500); 4643c7e78d3SWeongyo Jeong } 4653c7e78d3SWeongyo Jeong 4663c7e78d3SWeongyo Jeong /* 4673c7e78d3SWeongyo Jeong * send a command with size 0 to tell that the firmware has been 4683c7e78d3SWeongyo Jeong * uploaded 4693c7e78d3SWeongyo Jeong */ 4703c7e78d3SWeongyo Jeong error = malo_hal_send_main(mh, NULL, 0, seqnum++, MALO_NOWAIT); 4713c7e78d3SWeongyo Jeong DELAY(100); 4723c7e78d3SWeongyo Jeong 4733c7e78d3SWeongyo Jeong fail: 4743c7e78d3SWeongyo Jeong firmware_put(fw, FIRMWARE_UNLOAD); 4753c7e78d3SWeongyo Jeong 4763c7e78d3SWeongyo Jeong return (error); 4773c7e78d3SWeongyo Jeong } 4783c7e78d3SWeongyo Jeong 4793c7e78d3SWeongyo Jeong int 4803c7e78d3SWeongyo Jeong malo_hal_fwload(struct malo_hal *mh, char *helper, char *firmware) 4813c7e78d3SWeongyo Jeong { 4823c7e78d3SWeongyo Jeong int error, i; 4833c7e78d3SWeongyo Jeong uint32_t fwreadysig, opmode; 4843c7e78d3SWeongyo Jeong 4853c7e78d3SWeongyo Jeong /* 4863c7e78d3SWeongyo Jeong * NB: now malo(4) supports only STA mode. It will be better if it 4873c7e78d3SWeongyo Jeong * supports AP mode. 4883c7e78d3SWeongyo Jeong */ 4893c7e78d3SWeongyo Jeong fwreadysig = MALO_HOSTCMD_STA_FWRDY_SIGNATURE; 4903c7e78d3SWeongyo Jeong opmode = MALO_HOSTCMD_STA_MODE; 4913c7e78d3SWeongyo Jeong 4923c7e78d3SWeongyo Jeong malo_hal_fw_reset(mh); 4933c7e78d3SWeongyo Jeong 4943c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_A2H_INTERRUPT_CLEAR_SEL, 4953c7e78d3SWeongyo Jeong MALO_A2HRIC_BIT_MASK); 4963c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_A2H_INTERRUPT_CAUSE, 0x00); 4973c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_A2H_INTERRUPT_MASK, 0x00); 4983c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_A2H_INTERRUPT_STATUS_MASK, 4993c7e78d3SWeongyo Jeong MALO_A2HRIC_BIT_MASK); 5003c7e78d3SWeongyo Jeong 5013c7e78d3SWeongyo Jeong error = malo_hal_fwload_helper(mh, helper); 5023c7e78d3SWeongyo Jeong if (error != 0) { 5033c7e78d3SWeongyo Jeong device_printf(mh->mh_dev, "failed to load bootrom loader.\n"); 5043c7e78d3SWeongyo Jeong goto fail; 5053c7e78d3SWeongyo Jeong } 5063c7e78d3SWeongyo Jeong 5073c7e78d3SWeongyo Jeong DELAY(200 * MALO_FW_CHECK_USECS); 5083c7e78d3SWeongyo Jeong 5093c7e78d3SWeongyo Jeong error = malo_hal_fwload_main(mh, firmware); 5103c7e78d3SWeongyo Jeong if (error != 0) { 5113c7e78d3SWeongyo Jeong device_printf(mh->mh_dev, "failed to load firmware.\n"); 5123c7e78d3SWeongyo Jeong goto fail; 5133c7e78d3SWeongyo Jeong } 5143c7e78d3SWeongyo Jeong 5153c7e78d3SWeongyo Jeong /* 5163c7e78d3SWeongyo Jeong * Wait for firmware to startup; we monitor the INT_CODE register 5173c7e78d3SWeongyo Jeong * waiting for a signature to written back indicating it's ready to go. 5183c7e78d3SWeongyo Jeong */ 5193c7e78d3SWeongyo Jeong mh->mh_cmdbuf[1] = 0; 5203c7e78d3SWeongyo Jeong 5213c7e78d3SWeongyo Jeong if (opmode != MALO_HOSTCMD_STA_MODE) 5223c7e78d3SWeongyo Jeong malo_hal_trigger_pcicmd(mh); 5233c7e78d3SWeongyo Jeong 5243c7e78d3SWeongyo Jeong for (i = 0; i < MALO_FW_MAX_NUM_CHECKS; i++) { 5253c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_GEN_PTR, opmode); 5263c7e78d3SWeongyo Jeong DELAY(MALO_FW_CHECK_USECS); 5273c7e78d3SWeongyo Jeong if (malo_hal_read4(mh, MALO_REG_INT_CODE) == fwreadysig) { 5283c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_INT_CODE, 0x00); 5293c7e78d3SWeongyo Jeong return malo_hal_resetstate(mh); 5303c7e78d3SWeongyo Jeong } 5313c7e78d3SWeongyo Jeong } 5323c7e78d3SWeongyo Jeong 5333c7e78d3SWeongyo Jeong return ETIMEDOUT; 5343c7e78d3SWeongyo Jeong fail: 5353c7e78d3SWeongyo Jeong malo_hal_fw_reset(mh); 5363c7e78d3SWeongyo Jeong 5373c7e78d3SWeongyo Jeong return (error); 5383c7e78d3SWeongyo Jeong } 5393c7e78d3SWeongyo Jeong 5403c7e78d3SWeongyo Jeong /* 5413c7e78d3SWeongyo Jeong * Return "hw specs". Note this must be the first cmd MUST be done after 5423c7e78d3SWeongyo Jeong * a firmware download or the f/w will lockup. 5433c7e78d3SWeongyo Jeong */ 5443c7e78d3SWeongyo Jeong int 5453c7e78d3SWeongyo Jeong malo_hal_gethwspecs(struct malo_hal *mh, struct malo_hal_hwspec *hw) 5463c7e78d3SWeongyo Jeong { 5473c7e78d3SWeongyo Jeong struct malo_cmd_get_hwspec *cmd; 5483c7e78d3SWeongyo Jeong int ret; 5493c7e78d3SWeongyo Jeong 5503c7e78d3SWeongyo Jeong MALO_HAL_LOCK(mh); 5513c7e78d3SWeongyo Jeong 5523c7e78d3SWeongyo Jeong _CMD_SETUP(cmd, struct malo_cmd_get_hwspec, MALO_HOSTCMD_GET_HW_SPEC); 5533c7e78d3SWeongyo Jeong memset(&cmd->permaddr[0], 0xff, IEEE80211_ADDR_LEN); 5543c7e78d3SWeongyo Jeong cmd->ul_fw_awakecookie = htole32((unsigned int)mh->mh_cmdaddr + 2048); 5553c7e78d3SWeongyo Jeong 5563c7e78d3SWeongyo Jeong ret = malo_hal_execute_cmd(mh, MALO_HOSTCMD_GET_HW_SPEC); 5573c7e78d3SWeongyo Jeong if (ret == 0) { 5583c7e78d3SWeongyo Jeong IEEE80211_ADDR_COPY(hw->macaddr, cmd->permaddr); 5593c7e78d3SWeongyo Jeong hw->wcbbase[0] = le32toh(cmd->wcbbase0) & 0x0000ffff; 5603c7e78d3SWeongyo Jeong hw->wcbbase[1] = le32toh(cmd->wcbbase1) & 0x0000ffff; 5613c7e78d3SWeongyo Jeong hw->wcbbase[2] = le32toh(cmd->wcbbase2) & 0x0000ffff; 5623c7e78d3SWeongyo Jeong hw->wcbbase[3] = le32toh(cmd->wcbbase3) & 0x0000ffff; 5633c7e78d3SWeongyo Jeong hw->rxdesc_read = le32toh(cmd->rxpdrd_ptr)& 0x0000ffff; 5643c7e78d3SWeongyo Jeong hw->rxdesc_write = le32toh(cmd->rxpdwr_ptr)& 0x0000ffff; 5653c7e78d3SWeongyo Jeong hw->regioncode = le16toh(cmd->regioncode) & 0x00ff; 5663c7e78d3SWeongyo Jeong hw->fw_releasenum = le32toh(cmd->fw_releasenum); 5673c7e78d3SWeongyo Jeong hw->maxnum_wcb = le16toh(cmd->num_wcb); 5683c7e78d3SWeongyo Jeong hw->maxnum_mcaddr = le16toh(cmd->num_mcastaddr); 5693c7e78d3SWeongyo Jeong hw->num_antenna = le16toh(cmd->num_antenna); 5703c7e78d3SWeongyo Jeong hw->hwversion = cmd->version; 5713c7e78d3SWeongyo Jeong hw->hostinterface = cmd->hostif; 5723c7e78d3SWeongyo Jeong } 5733c7e78d3SWeongyo Jeong 5743c7e78d3SWeongyo Jeong MALO_HAL_UNLOCK(mh); 5753c7e78d3SWeongyo Jeong 5763c7e78d3SWeongyo Jeong return ret; 5773c7e78d3SWeongyo Jeong } 5783c7e78d3SWeongyo Jeong 5793c7e78d3SWeongyo Jeong void 5803c7e78d3SWeongyo Jeong malo_hal_detach(struct malo_hal *mh) 5813c7e78d3SWeongyo Jeong { 5823c7e78d3SWeongyo Jeong 5833c7e78d3SWeongyo Jeong bus_dmamem_free(mh->mh_dmat, mh->mh_cmdbuf, mh->mh_dmamap); 5843c7e78d3SWeongyo Jeong bus_dma_tag_destroy(mh->mh_dmat); 5853c7e78d3SWeongyo Jeong mtx_destroy(&mh->mh_mtx); 5863c7e78d3SWeongyo Jeong free(mh, M_DEVBUF); 5873c7e78d3SWeongyo Jeong } 5883c7e78d3SWeongyo Jeong 5893c7e78d3SWeongyo Jeong /* 5903c7e78d3SWeongyo Jeong * Configure antenna use. Takes effect immediately. 5913c7e78d3SWeongyo Jeong * 5923c7e78d3SWeongyo Jeong * XXX tx antenna setting ignored 5933c7e78d3SWeongyo Jeong * XXX rx antenna setting should always be 3 (for now) 5943c7e78d3SWeongyo Jeong */ 5953c7e78d3SWeongyo Jeong int 5963c7e78d3SWeongyo Jeong malo_hal_setantenna(struct malo_hal *mh, enum malo_hal_antenna dirset, int ant) 5973c7e78d3SWeongyo Jeong { 5983c7e78d3SWeongyo Jeong struct malo_cmd_rf_antenna *cmd; 5993c7e78d3SWeongyo Jeong int ret; 6003c7e78d3SWeongyo Jeong 6013c7e78d3SWeongyo Jeong if (!(dirset == MHA_ANTENNATYPE_RX || dirset == MHA_ANTENNATYPE_TX)) 6023c7e78d3SWeongyo Jeong return EINVAL; 6033c7e78d3SWeongyo Jeong 6043c7e78d3SWeongyo Jeong MALO_HAL_LOCK(mh); 6053c7e78d3SWeongyo Jeong 6063c7e78d3SWeongyo Jeong _CMD_SETUP(cmd, struct malo_cmd_rf_antenna, 6073c7e78d3SWeongyo Jeong MALO_HOSTCMD_802_11_RF_ANTENNA); 6083c7e78d3SWeongyo Jeong cmd->action = htole16(dirset); 6093c7e78d3SWeongyo Jeong if (ant == 0) { /* default to all/both antennae */ 6103c7e78d3SWeongyo Jeong /* XXX never reach now. */ 6113c7e78d3SWeongyo Jeong ant = 3; 6123c7e78d3SWeongyo Jeong } 6133c7e78d3SWeongyo Jeong cmd->mode = htole16(ant); 6143c7e78d3SWeongyo Jeong 6153c7e78d3SWeongyo Jeong ret = malo_hal_execute_cmd(mh, MALO_HOSTCMD_802_11_RF_ANTENNA); 6163c7e78d3SWeongyo Jeong 6173c7e78d3SWeongyo Jeong MALO_HAL_UNLOCK(mh); 6183c7e78d3SWeongyo Jeong 6193c7e78d3SWeongyo Jeong return ret; 6203c7e78d3SWeongyo Jeong } 6213c7e78d3SWeongyo Jeong 6223c7e78d3SWeongyo Jeong /* 6233c7e78d3SWeongyo Jeong * Configure radio. Takes effect immediately. 6243c7e78d3SWeongyo Jeong * 6253c7e78d3SWeongyo Jeong * XXX preamble installed after set fixed rate cmd 6263c7e78d3SWeongyo Jeong */ 6273c7e78d3SWeongyo Jeong int 6283c7e78d3SWeongyo Jeong malo_hal_setradio(struct malo_hal *mh, int onoff, 6293c7e78d3SWeongyo Jeong enum malo_hal_preamble preamble) 6303c7e78d3SWeongyo Jeong { 6313c7e78d3SWeongyo Jeong struct malo_cmd_radio_control *cmd; 6323c7e78d3SWeongyo Jeong int ret; 6333c7e78d3SWeongyo Jeong 6343c7e78d3SWeongyo Jeong MALO_HAL_LOCK(mh); 6353c7e78d3SWeongyo Jeong 6363c7e78d3SWeongyo Jeong _CMD_SETUP(cmd, struct malo_cmd_radio_control, 6373c7e78d3SWeongyo Jeong MALO_HOSTCMD_802_11_RADIO_CONTROL); 6383c7e78d3SWeongyo Jeong cmd->action = htole16(MALO_HOSTCMD_ACT_GEN_SET); 6393c7e78d3SWeongyo Jeong if (onoff == 0) 6403c7e78d3SWeongyo Jeong cmd->control = 0; 6413c7e78d3SWeongyo Jeong else 6423c7e78d3SWeongyo Jeong cmd->control = htole16(preamble); 6433c7e78d3SWeongyo Jeong cmd->radio_on = htole16(onoff); 6443c7e78d3SWeongyo Jeong 6453c7e78d3SWeongyo Jeong ret = malo_hal_execute_cmd(mh, MALO_HOSTCMD_802_11_RADIO_CONTROL); 6463c7e78d3SWeongyo Jeong 6473c7e78d3SWeongyo Jeong MALO_HAL_UNLOCK(mh); 6483c7e78d3SWeongyo Jeong 6493c7e78d3SWeongyo Jeong return ret; 6503c7e78d3SWeongyo Jeong } 6513c7e78d3SWeongyo Jeong 6523c7e78d3SWeongyo Jeong /* 6533c7e78d3SWeongyo Jeong * Set the interrupt mask. 6543c7e78d3SWeongyo Jeong */ 6553c7e78d3SWeongyo Jeong void 6563c7e78d3SWeongyo Jeong malo_hal_intrset(struct malo_hal *mh, uint32_t mask) 6573c7e78d3SWeongyo Jeong { 6583c7e78d3SWeongyo Jeong 6593c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_A2H_INTERRUPT_MASK, 0); 6603c7e78d3SWeongyo Jeong (void)malo_hal_read4(mh, MALO_REG_INT_CODE); 6613c7e78d3SWeongyo Jeong 6623c7e78d3SWeongyo Jeong mh->mh_imask = mask; 6633c7e78d3SWeongyo Jeong malo_hal_write4(mh, MALO_REG_A2H_INTERRUPT_MASK, mask); 6643c7e78d3SWeongyo Jeong (void)malo_hal_read4(mh, MALO_REG_INT_CODE); 6653c7e78d3SWeongyo Jeong } 6663c7e78d3SWeongyo Jeong 6673c7e78d3SWeongyo Jeong int 6683c7e78d3SWeongyo Jeong malo_hal_setchannel(struct malo_hal *mh, const struct malo_hal_channel *chan) 6693c7e78d3SWeongyo Jeong { 6703c7e78d3SWeongyo Jeong struct malo_cmd_fw_set_rf_channel *cmd; 6713c7e78d3SWeongyo Jeong int ret; 6723c7e78d3SWeongyo Jeong 6733c7e78d3SWeongyo Jeong MALO_HAL_LOCK(mh); 6743c7e78d3SWeongyo Jeong 6753c7e78d3SWeongyo Jeong _CMD_SETUP(cmd, struct malo_cmd_fw_set_rf_channel, 6763c7e78d3SWeongyo Jeong MALO_HOSTCMD_SET_RF_CHANNEL); 6773c7e78d3SWeongyo Jeong cmd->action = htole16(MALO_HOSTCMD_ACT_GEN_SET); 6783c7e78d3SWeongyo Jeong cmd->cur_channel = chan->channel; 6793c7e78d3SWeongyo Jeong 6803c7e78d3SWeongyo Jeong ret = malo_hal_execute_cmd(mh, MALO_HOSTCMD_SET_RF_CHANNEL); 6813c7e78d3SWeongyo Jeong 6823c7e78d3SWeongyo Jeong MALO_HAL_UNLOCK(mh); 6833c7e78d3SWeongyo Jeong 6843c7e78d3SWeongyo Jeong return ret; 6853c7e78d3SWeongyo Jeong } 6863c7e78d3SWeongyo Jeong 6873c7e78d3SWeongyo Jeong int 6883c7e78d3SWeongyo Jeong malo_hal_settxpower(struct malo_hal *mh, const struct malo_hal_channel *c) 6893c7e78d3SWeongyo Jeong { 6903c7e78d3SWeongyo Jeong struct malo_cmd_rf_tx_power *cmd; 6913c7e78d3SWeongyo Jeong const struct malo_hal_caldata *cal = &mh->mh_caldata; 6923c7e78d3SWeongyo Jeong uint8_t chan = c->channel; 6933c7e78d3SWeongyo Jeong uint16_t pow; 6943c7e78d3SWeongyo Jeong int i, idx, ret; 6953c7e78d3SWeongyo Jeong 6963c7e78d3SWeongyo Jeong MALO_HAL_LOCK(mh); 6973c7e78d3SWeongyo Jeong 6983c7e78d3SWeongyo Jeong _CMD_SETUP(cmd, struct malo_cmd_rf_tx_power, 6993c7e78d3SWeongyo Jeong MALO_HOSTCMD_802_11_RF_TX_POWER); 7003c7e78d3SWeongyo Jeong cmd->action = htole16(MALO_HOSTCMD_ACT_GEN_SET_LIST); 7013c7e78d3SWeongyo Jeong for (i = 0; i < 4; i++) { 7023c7e78d3SWeongyo Jeong idx = (chan - 1) * 4 + i; 7033c7e78d3SWeongyo Jeong pow = cal->pt_ratetable_20m[idx]; 7043c7e78d3SWeongyo Jeong cmd->power_levellist[i] = htole16(pow); 7053c7e78d3SWeongyo Jeong } 7063c7e78d3SWeongyo Jeong ret = malo_hal_execute_cmd(mh, MALO_HOSTCMD_802_11_RF_TX_POWER); 7073c7e78d3SWeongyo Jeong 7083c7e78d3SWeongyo Jeong MALO_HAL_UNLOCK(mh); 7093c7e78d3SWeongyo Jeong 7103c7e78d3SWeongyo Jeong return ret; 7113c7e78d3SWeongyo Jeong } 7123c7e78d3SWeongyo Jeong 7133c7e78d3SWeongyo Jeong int 7143c7e78d3SWeongyo Jeong malo_hal_setpromisc(struct malo_hal *mh, int enable) 7153c7e78d3SWeongyo Jeong { 7163c7e78d3SWeongyo Jeong /* XXX need host cmd */ 7173c7e78d3SWeongyo Jeong return 0; 7183c7e78d3SWeongyo Jeong } 7193c7e78d3SWeongyo Jeong 7203c7e78d3SWeongyo Jeong int 7213c7e78d3SWeongyo Jeong malo_hal_setassocid(struct malo_hal *mh, 7223c7e78d3SWeongyo Jeong const uint8_t bssid[IEEE80211_ADDR_LEN], uint16_t associd) 7233c7e78d3SWeongyo Jeong { 7243c7e78d3SWeongyo Jeong struct malo_cmd_fw_set_aid *cmd; 7253c7e78d3SWeongyo Jeong int ret; 7263c7e78d3SWeongyo Jeong 7273c7e78d3SWeongyo Jeong MALO_HAL_LOCK(mh); 7283c7e78d3SWeongyo Jeong 7293c7e78d3SWeongyo Jeong _CMD_SETUP(cmd, struct malo_cmd_fw_set_aid, 7303c7e78d3SWeongyo Jeong MALO_HOSTCMD_SET_AID); 7313c7e78d3SWeongyo Jeong cmd->cmdhdr.seqnum = 1; 7323c7e78d3SWeongyo Jeong cmd->associd = htole16(associd); 7333c7e78d3SWeongyo Jeong IEEE80211_ADDR_COPY(&cmd->macaddr[0], bssid); 7343c7e78d3SWeongyo Jeong 7353c7e78d3SWeongyo Jeong ret = malo_hal_execute_cmd(mh, MALO_HOSTCMD_SET_AID); 7363c7e78d3SWeongyo Jeong MALO_HAL_UNLOCK(mh); 7373c7e78d3SWeongyo Jeong return ret; 7383c7e78d3SWeongyo Jeong } 7393c7e78d3SWeongyo Jeong 7403c7e78d3SWeongyo Jeong /* 7413c7e78d3SWeongyo Jeong * Kick the firmware to tell it there are new tx descriptors 7423c7e78d3SWeongyo Jeong * for processing. The driver says what h/w q has work in 7433c7e78d3SWeongyo Jeong * case the f/w ever gets smarter. 7443c7e78d3SWeongyo Jeong */ 7453c7e78d3SWeongyo Jeong void 7463c7e78d3SWeongyo Jeong malo_hal_txstart(struct malo_hal *mh, int qnum) 7473c7e78d3SWeongyo Jeong { 7483c7e78d3SWeongyo Jeong bus_space_write_4(mh->mh_iot, mh->mh_ioh, 7493c7e78d3SWeongyo Jeong MALO_REG_H2A_INTERRUPT_EVENTS, MALO_H2ARIC_BIT_PPA_READY); 7503c7e78d3SWeongyo Jeong (void) bus_space_read_4(mh->mh_iot, mh->mh_ioh, MALO_REG_INT_CODE); 7513c7e78d3SWeongyo Jeong } 7523c7e78d3SWeongyo Jeong 7533c7e78d3SWeongyo Jeong /* 7543c7e78d3SWeongyo Jeong * Return the current ISR setting and clear the cause. 7553c7e78d3SWeongyo Jeong */ 7563c7e78d3SWeongyo Jeong void 7573c7e78d3SWeongyo Jeong malo_hal_getisr(struct malo_hal *mh, uint32_t *status) 7583c7e78d3SWeongyo Jeong { 7593c7e78d3SWeongyo Jeong uint32_t cause; 7603c7e78d3SWeongyo Jeong 7613c7e78d3SWeongyo Jeong cause = bus_space_read_4(mh->mh_iot, mh->mh_ioh, 7623c7e78d3SWeongyo Jeong MALO_REG_A2H_INTERRUPT_CAUSE); 7633c7e78d3SWeongyo Jeong if (cause == 0xffffffff) { /* card removed */ 7643c7e78d3SWeongyo Jeong cause = 0; 7653c7e78d3SWeongyo Jeong } else if (cause != 0) { 7663c7e78d3SWeongyo Jeong /* clear cause bits */ 7673c7e78d3SWeongyo Jeong bus_space_write_4(mh->mh_iot, mh->mh_ioh, 7683c7e78d3SWeongyo Jeong MALO_REG_A2H_INTERRUPT_CAUSE, cause &~ mh->mh_imask); 7693c7e78d3SWeongyo Jeong (void) bus_space_read_4(mh->mh_iot, mh->mh_ioh, 7703c7e78d3SWeongyo Jeong MALO_REG_INT_CODE); 7713c7e78d3SWeongyo Jeong cause &= mh->mh_imask; 7723c7e78d3SWeongyo Jeong } 7733c7e78d3SWeongyo Jeong 7743c7e78d3SWeongyo Jeong *status = cause; 7753c7e78d3SWeongyo Jeong } 7763c7e78d3SWeongyo Jeong 7773c7e78d3SWeongyo Jeong /* 7783c7e78d3SWeongyo Jeong * Callback from the driver on a cmd done interrupt. Nothing to do right 7793c7e78d3SWeongyo Jeong * now as we spin waiting for cmd completion. 7803c7e78d3SWeongyo Jeong */ 7813c7e78d3SWeongyo Jeong void 7823c7e78d3SWeongyo Jeong malo_hal_cmddone(struct malo_hal *mh) 7833c7e78d3SWeongyo Jeong { 7843c7e78d3SWeongyo Jeong /* NB : do nothing. */ 7853c7e78d3SWeongyo Jeong } 7863c7e78d3SWeongyo Jeong 7873c7e78d3SWeongyo Jeong int 7883c7e78d3SWeongyo Jeong malo_hal_prescan(struct malo_hal *mh) 7893c7e78d3SWeongyo Jeong { 7903c7e78d3SWeongyo Jeong struct malo_cmd_prescan *cmd; 7913c7e78d3SWeongyo Jeong int ret; 7923c7e78d3SWeongyo Jeong 7933c7e78d3SWeongyo Jeong MALO_HAL_LOCK(mh); 7943c7e78d3SWeongyo Jeong 7953c7e78d3SWeongyo Jeong _CMD_SETUP(cmd, struct malo_cmd_prescan, MALO_HOSTCMD_SET_PRE_SCAN); 7963c7e78d3SWeongyo Jeong cmd->cmdhdr.seqnum = 1; 7973c7e78d3SWeongyo Jeong 7983c7e78d3SWeongyo Jeong ret = malo_hal_execute_cmd(mh, MALO_HOSTCMD_SET_PRE_SCAN); 7993c7e78d3SWeongyo Jeong 8003c7e78d3SWeongyo Jeong MALO_HAL_UNLOCK(mh); 8013c7e78d3SWeongyo Jeong 8023c7e78d3SWeongyo Jeong return ret; 8033c7e78d3SWeongyo Jeong } 8043c7e78d3SWeongyo Jeong 8053c7e78d3SWeongyo Jeong int 8063c7e78d3SWeongyo Jeong malo_hal_postscan(struct malo_hal *mh, uint8_t *macaddr, uint8_t ibsson) 8073c7e78d3SWeongyo Jeong { 8083c7e78d3SWeongyo Jeong struct malo_cmd_postscan *cmd; 8093c7e78d3SWeongyo Jeong int ret; 8103c7e78d3SWeongyo Jeong 8113c7e78d3SWeongyo Jeong MALO_HAL_LOCK(mh); 8123c7e78d3SWeongyo Jeong 8133c7e78d3SWeongyo Jeong _CMD_SETUP(cmd, struct malo_cmd_postscan, MALO_HOSTCMD_SET_POST_SCAN); 8143c7e78d3SWeongyo Jeong cmd->cmdhdr.seqnum = 1; 8153c7e78d3SWeongyo Jeong cmd->isibss = htole32(ibsson); 8163c7e78d3SWeongyo Jeong IEEE80211_ADDR_COPY(&cmd->bssid[0], macaddr); 8173c7e78d3SWeongyo Jeong 8183c7e78d3SWeongyo Jeong ret = malo_hal_execute_cmd(mh, MALO_HOSTCMD_SET_POST_SCAN); 8193c7e78d3SWeongyo Jeong 8203c7e78d3SWeongyo Jeong MALO_HAL_UNLOCK(mh); 8213c7e78d3SWeongyo Jeong 8223c7e78d3SWeongyo Jeong return ret; 8233c7e78d3SWeongyo Jeong } 8243c7e78d3SWeongyo Jeong 8253c7e78d3SWeongyo Jeong int 8263c7e78d3SWeongyo Jeong malo_hal_set_slot(struct malo_hal *mh, int is_short) 8273c7e78d3SWeongyo Jeong { 8283c7e78d3SWeongyo Jeong int ret; 8293c7e78d3SWeongyo Jeong struct malo_cmd_fw_setslot *cmd; 8303c7e78d3SWeongyo Jeong 8313c7e78d3SWeongyo Jeong MALO_HAL_LOCK(mh); 8323c7e78d3SWeongyo Jeong 8333c7e78d3SWeongyo Jeong _CMD_SETUP(cmd, struct malo_cmd_fw_setslot, MALO_HOSTCMD_SET_SLOT); 8343c7e78d3SWeongyo Jeong cmd->action = htole16(MALO_HOSTCMD_ACT_GEN_SET); 8353c7e78d3SWeongyo Jeong cmd->slot = (is_short == 1 ? 1 : 0); 8363c7e78d3SWeongyo Jeong 8373c7e78d3SWeongyo Jeong ret = malo_hal_execute_cmd(mh, MALO_HOSTCMD_SET_SLOT); 8383c7e78d3SWeongyo Jeong 8393c7e78d3SWeongyo Jeong MALO_HAL_UNLOCK(mh); 8403c7e78d3SWeongyo Jeong 8413c7e78d3SWeongyo Jeong return ret; 8423c7e78d3SWeongyo Jeong } 8433c7e78d3SWeongyo Jeong 8443c7e78d3SWeongyo Jeong int 8453c7e78d3SWeongyo Jeong malo_hal_set_rate(struct malo_hal *mh, uint16_t curmode, uint8_t rate) 8463c7e78d3SWeongyo Jeong { 8473c7e78d3SWeongyo Jeong int i, ret; 8483c7e78d3SWeongyo Jeong struct malo_cmd_set_rate *cmd; 8493c7e78d3SWeongyo Jeong 8503c7e78d3SWeongyo Jeong MALO_HAL_LOCK(mh); 8513c7e78d3SWeongyo Jeong 8523c7e78d3SWeongyo Jeong _CMD_SETUP(cmd, struct malo_cmd_set_rate, MALO_HOSTCMD_SET_RATE); 8533c7e78d3SWeongyo Jeong cmd->aprates[0] = 2; 8543c7e78d3SWeongyo Jeong cmd->aprates[1] = 4; 8553c7e78d3SWeongyo Jeong cmd->aprates[2] = 11; 8563c7e78d3SWeongyo Jeong cmd->aprates[3] = 22; 8573c7e78d3SWeongyo Jeong if (curmode == IEEE80211_MODE_11G) { 8583c7e78d3SWeongyo Jeong cmd->aprates[4] = 0; /* XXX reserved? */ 8593c7e78d3SWeongyo Jeong cmd->aprates[5] = 12; 8603c7e78d3SWeongyo Jeong cmd->aprates[6] = 18; 8613c7e78d3SWeongyo Jeong cmd->aprates[7] = 24; 8623c7e78d3SWeongyo Jeong cmd->aprates[8] = 36; 8633c7e78d3SWeongyo Jeong cmd->aprates[9] = 48; 8643c7e78d3SWeongyo Jeong cmd->aprates[10] = 72; 8653c7e78d3SWeongyo Jeong cmd->aprates[11] = 96; 8663c7e78d3SWeongyo Jeong cmd->aprates[12] = 108; 8673c7e78d3SWeongyo Jeong } 8683c7e78d3SWeongyo Jeong 8693c7e78d3SWeongyo Jeong if (rate != 0) { 8703c7e78d3SWeongyo Jeong /* fixed rate */ 8713c7e78d3SWeongyo Jeong for (i = 0; i < 13; i++) { 8723c7e78d3SWeongyo Jeong if (cmd->aprates[i] == rate) { 8733c7e78d3SWeongyo Jeong cmd->rateindex = i; 8743c7e78d3SWeongyo Jeong cmd->dataratetype = 1; 8753c7e78d3SWeongyo Jeong break; 8763c7e78d3SWeongyo Jeong } 8773c7e78d3SWeongyo Jeong } 8783c7e78d3SWeongyo Jeong } 8793c7e78d3SWeongyo Jeong 8803c7e78d3SWeongyo Jeong ret = malo_hal_execute_cmd(mh, MALO_HOSTCMD_SET_RATE); 8813c7e78d3SWeongyo Jeong 8823c7e78d3SWeongyo Jeong MALO_HAL_UNLOCK(mh); 8833c7e78d3SWeongyo Jeong 8843c7e78d3SWeongyo Jeong return ret; 8853c7e78d3SWeongyo Jeong } 8863c7e78d3SWeongyo Jeong 8873c7e78d3SWeongyo Jeong int 8883c7e78d3SWeongyo Jeong malo_hal_setmcast(struct malo_hal *mh, int nmc, const uint8_t macs[]) 8893c7e78d3SWeongyo Jeong { 8903c7e78d3SWeongyo Jeong struct malo_cmd_mcast *cmd; 8913c7e78d3SWeongyo Jeong int ret; 8923c7e78d3SWeongyo Jeong 8933c7e78d3SWeongyo Jeong if (nmc > MALO_HAL_MCAST_MAX) 8943c7e78d3SWeongyo Jeong return EINVAL; 8953c7e78d3SWeongyo Jeong 8963c7e78d3SWeongyo Jeong MALO_HAL_LOCK(mh); 8973c7e78d3SWeongyo Jeong 8983c7e78d3SWeongyo Jeong _CMD_SETUP(cmd, struct malo_cmd_mcast, MALO_HOSTCMD_MAC_MULTICAST_ADR); 8993c7e78d3SWeongyo Jeong memcpy(cmd->maclist, macs, nmc * IEEE80211_ADDR_LEN); 9003c7e78d3SWeongyo Jeong cmd->numaddr = htole16(nmc); 9013c7e78d3SWeongyo Jeong cmd->action = htole16(0xffff); 9023c7e78d3SWeongyo Jeong 9033c7e78d3SWeongyo Jeong ret = malo_hal_execute_cmd(mh, MALO_HOSTCMD_MAC_MULTICAST_ADR); 9043c7e78d3SWeongyo Jeong 9053c7e78d3SWeongyo Jeong MALO_HAL_UNLOCK(mh); 9063c7e78d3SWeongyo Jeong 9073c7e78d3SWeongyo Jeong return ret; 9083c7e78d3SWeongyo Jeong } 909