Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Johnny Kim | 2454 | 49.90% | 1 | 2.50% |
Glen Lee | 1716 | 34.89% | 10 | 25.00% |
Ajay Singh | 302 | 6.14% | 13 | 32.50% |
Tony Cho | 186 | 3.78% | 1 | 2.50% |
Arnd Bergmann | 107 | 2.18% | 4 | 10.00% |
Chaehyun Lim | 77 | 1.57% | 4 | 10.00% |
Anish Bhatt | 57 | 1.16% | 1 | 2.50% |
Elise Lennion | 7 | 0.14% | 1 | 2.50% |
Pushkar Jambhlekar | 6 | 0.12% | 1 | 2.50% |
Bhumika Goyal | 2 | 0.04% | 1 | 2.50% |
Leo Kim | 2 | 0.04% | 1 | 2.50% |
Greg Kroah-Hartman | 1 | 0.02% | 1 | 2.50% |
Colin Ian King | 1 | 0.02% | 1 | 2.50% |
Total | 4918 | 40 |
// SPDX-License-Identifier: GPL-2.0 /* * Copyright (c) 2012 - 2018 Microchip Technology Inc., and its subsidiaries. * All rights reserved. */ #include <linux/mmc/sdio_func.h> #include <linux/mmc/host.h> #include "wilc_wfi_netdevice.h" #define SDIO_MODALIAS "wilc1000_sdio" #define SDIO_VENDOR_ID_WILC 0x0296 #define SDIO_DEVICE_ID_WILC 0x5347 static const struct sdio_device_id wilc_sdio_ids[] = { { SDIO_DEVICE(SDIO_VENDOR_ID_WILC, SDIO_DEVICE_ID_WILC) }, { }, }; #define WILC_SDIO_BLOCK_SIZE 512 struct wilc_sdio { bool irq_gpio; u32 block_size; int nint; /* Max num interrupts allowed in registers 0xf7, 0xf8 */ #define MAX_NUN_INT_THRPT_ENH2 (5) int has_thrpt_enh3; }; static const struct wilc_hif_func wilc_hif_sdio; static int sdio_write_reg(struct wilc *wilc, u32 addr, u32 data); static int sdio_read_reg(struct wilc *wilc, u32 addr, u32 *data); static int sdio_init(struct wilc *wilc, bool resume); static void wilc_sdio_interrupt(struct sdio_func *func) { sdio_release_host(func); wilc_handle_isr(sdio_get_drvdata(func)); sdio_claim_host(func); } static int wilc_sdio_cmd52(struct wilc *wilc, struct sdio_cmd52 *cmd) { struct sdio_func *func = container_of(wilc->dev, struct sdio_func, dev); int ret; u8 data; sdio_claim_host(func); func->num = cmd->function; if (cmd->read_write) { /* write */ if (cmd->raw) { sdio_writeb(func, cmd->data, cmd->address, &ret); data = sdio_readb(func, cmd->address, &ret); cmd->data = data; } else { sdio_writeb(func, cmd->data, cmd->address, &ret); } } else { /* read */ data = sdio_readb(func, cmd->address, &ret); cmd->data = data; } sdio_release_host(func); if (ret) dev_err(&func->dev, "%s..failed, err(%d)\n", __func__, ret); return ret; } static int wilc_sdio_cmd53(struct wilc *wilc, struct sdio_cmd53 *cmd) { struct sdio_func *func = container_of(wilc->dev, struct sdio_func, dev); int size, ret; sdio_claim_host(func); func->num = cmd->function; func->cur_blksize = cmd->block_size; if (cmd->block_mode) size = cmd->count * cmd->block_size; else size = cmd->count; if (cmd->read_write) { /* write */ ret = sdio_memcpy_toio(func, cmd->address, (void *)cmd->buffer, size); } else { /* read */ ret = sdio_memcpy_fromio(func, (void *)cmd->buffer, cmd->address, size); } sdio_release_host(func); if (ret) dev_err(&func->dev, "%s..failed, err(%d)\n", __func__, ret); return ret; } static int linux_sdio_probe(struct sdio_func *func, const struct sdio_device_id *id) { struct wilc *wilc; int ret; struct gpio_desc *gpio = NULL; struct wilc_sdio *sdio_priv; sdio_priv = kzalloc(sizeof(*sdio_priv), GFP_KERNEL); if (!sdio_priv) return -ENOMEM; if (IS_ENABLED(CONFIG_WILC1000_HW_OOB_INTR)) { gpio = gpiod_get(&func->dev, "irq", GPIOD_IN); if (IS_ERR(gpio)) { /* get the GPIO descriptor from hardcode GPIO number */ gpio = gpio_to_desc(GPIO_NUM); if (!gpio) dev_err(&func->dev, "failed to get irq gpio\n"); } } dev_dbg(&func->dev, "Initializing netdev\n"); ret = wilc_netdev_init(&wilc, &func->dev, HIF_SDIO, &wilc_hif_sdio); if (ret) { dev_err(&func->dev, "Couldn't initialize netdev\n"); kfree(sdio_priv); return ret; } sdio_set_drvdata(func, wilc); wilc->bus_data = sdio_priv; wilc->dev = &func->dev; wilc->gpio_irq = gpio; dev_info(&func->dev, "Driver Initializing success\n"); return 0; } static void linux_sdio_remove(struct sdio_func *func) { struct wilc *wilc = sdio_get_drvdata(func); /* free the GPIO in module remove */ if (wilc->gpio_irq) gpiod_put(wilc->gpio_irq); wilc_netdev_cleanup(wilc); } static int sdio_reset(struct wilc *wilc) { struct sdio_cmd52 cmd; int ret; struct sdio_func *func = dev_to_sdio_func(wilc->dev); cmd.read_write = 1; cmd.function = 0; cmd.raw = 0; cmd.address = 0x6; cmd.data = 0x8; ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Fail cmd 52, reset cmd ...\n"); return ret; } return 0; } static int wilc_sdio_suspend(struct device *dev) { struct sdio_func *func = dev_to_sdio_func(dev); struct wilc *wilc = sdio_get_drvdata(func); int ret; dev_info(dev, "sdio suspend\n"); chip_wakeup(wilc); if (!wilc->suspend_event) { wilc_chip_sleep_manually(wilc); } else { host_sleep_notify(wilc); chip_allow_sleep(wilc); } ret = sdio_reset(wilc); if (ret) { dev_err(&func->dev, "Fail reset sdio\n"); return ret; } sdio_claim_host(func); return 0; } static int wilc_sdio_resume(struct device *dev) { struct sdio_func *func = dev_to_sdio_func(dev); struct wilc *wilc = sdio_get_drvdata(func); dev_info(dev, "sdio resume\n"); sdio_release_host(func); chip_wakeup(wilc); sdio_init(wilc, true); if (wilc->suspend_event) host_wakeup_notify(wilc); chip_allow_sleep(wilc); return 0; } static const struct of_device_id wilc_of_match[] = { { .compatible = "microchip,wilc1000-sdio", }, { /* sentinel */ } }; MODULE_DEVICE_TABLE(of, wilc_of_match); static const struct dev_pm_ops wilc_sdio_pm_ops = { .suspend = wilc_sdio_suspend, .resume = wilc_sdio_resume, }; static struct sdio_driver wilc_sdio_driver = { .name = SDIO_MODALIAS, .id_table = wilc_sdio_ids, .probe = linux_sdio_probe, .remove = linux_sdio_remove, .drv = { .pm = &wilc_sdio_pm_ops, .of_match_table = wilc_of_match, } }; module_driver(wilc_sdio_driver, sdio_register_driver, sdio_unregister_driver); MODULE_LICENSE("GPL"); static int wilc_sdio_enable_interrupt(struct wilc *dev) { struct sdio_func *func = container_of(dev->dev, struct sdio_func, dev); int ret = 0; sdio_claim_host(func); ret = sdio_claim_irq(func, wilc_sdio_interrupt); sdio_release_host(func); if (ret < 0) { dev_err(&func->dev, "can't claim sdio_irq, err(%d)\n", ret); ret = -EIO; } return ret; } static void wilc_sdio_disable_interrupt(struct wilc *dev) { struct sdio_func *func = container_of(dev->dev, struct sdio_func, dev); int ret; sdio_claim_host(func); ret = sdio_release_irq(func); if (ret < 0) dev_err(&func->dev, "can't release sdio_irq, err(%d)\n", ret); sdio_release_host(func); } /******************************************** * * Function 0 * ********************************************/ static int sdio_set_func0_csa_address(struct wilc *wilc, u32 adr) { struct sdio_func *func = dev_to_sdio_func(wilc->dev); struct sdio_cmd52 cmd; int ret; /** * Review: BIG ENDIAN **/ cmd.read_write = 1; cmd.function = 0; cmd.raw = 0; cmd.address = 0x10c; cmd.data = (u8)adr; ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd52, set 0x10c data...\n"); goto fail; } cmd.address = 0x10d; cmd.data = (u8)(adr >> 8); ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd52, set 0x10d data...\n"); goto fail; } cmd.address = 0x10e; cmd.data = (u8)(adr >> 16); ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd52, set 0x10e data...\n"); goto fail; } return 1; fail: return 0; } static int sdio_set_func0_block_size(struct wilc *wilc, u32 block_size) { struct sdio_func *func = dev_to_sdio_func(wilc->dev); struct sdio_cmd52 cmd; int ret; cmd.read_write = 1; cmd.function = 0; cmd.raw = 0; cmd.address = 0x10; cmd.data = (u8)block_size; ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd52, set 0x10 data...\n"); goto fail; } cmd.address = 0x11; cmd.data = (u8)(block_size >> 8); ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd52, set 0x11 data...\n"); goto fail; } return 1; fail: return 0; } /******************************************** * * Function 1 * ********************************************/ static int sdio_set_func1_block_size(struct wilc *wilc, u32 block_size) { struct sdio_func *func = dev_to_sdio_func(wilc->dev); struct sdio_cmd52 cmd; int ret; cmd.read_write = 1; cmd.function = 0; cmd.raw = 0; cmd.address = 0x110; cmd.data = (u8)block_size; ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd52, set 0x110 data...\n"); goto fail; } cmd.address = 0x111; cmd.data = (u8)(block_size >> 8); ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd52, set 0x111 data...\n"); goto fail; } return 1; fail: return 0; } /******************************************** * * Sdio interfaces * ********************************************/ static int sdio_write_reg(struct wilc *wilc, u32 addr, u32 data) { struct sdio_func *func = dev_to_sdio_func(wilc->dev); struct wilc_sdio *sdio_priv = wilc->bus_data; int ret; cpu_to_le32s(&data); if (addr >= 0xf0 && addr <= 0xff) { struct sdio_cmd52 cmd; cmd.read_write = 1; cmd.function = 0; cmd.raw = 0; cmd.address = addr; cmd.data = data; ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd 52, read reg (%08x) ...\n", addr); goto fail; } } else { struct sdio_cmd53 cmd; /** * set the AHB address **/ if (!sdio_set_func0_csa_address(wilc, addr)) goto fail; cmd.read_write = 1; cmd.function = 0; cmd.address = 0x10f; cmd.block_mode = 0; cmd.increment = 1; cmd.count = 4; cmd.buffer = (u8 *)&data; cmd.block_size = sdio_priv->block_size; ret = wilc_sdio_cmd53(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd53, write reg (%08x)...\n", addr); goto fail; } } return 1; fail: return 0; } static int sdio_write(struct wilc *wilc, u32 addr, u8 *buf, u32 size) { struct sdio_func *func = dev_to_sdio_func(wilc->dev); struct wilc_sdio *sdio_priv = wilc->bus_data; u32 block_size = sdio_priv->block_size; struct sdio_cmd53 cmd; int nblk, nleft, ret; cmd.read_write = 1; if (addr > 0) { /** * has to be word aligned... **/ if (size & 0x3) { size += 4; size &= ~0x3; } /** * func 0 access **/ cmd.function = 0; cmd.address = 0x10f; } else { /** * has to be word aligned... **/ if (size & 0x3) { size += 4; size &= ~0x3; } /** * func 1 access **/ cmd.function = 1; cmd.address = 0; } nblk = size / block_size; nleft = size % block_size; if (nblk > 0) { cmd.block_mode = 1; cmd.increment = 1; cmd.count = nblk; cmd.buffer = buf; cmd.block_size = block_size; if (addr > 0) { if (!sdio_set_func0_csa_address(wilc, addr)) goto fail; } ret = wilc_sdio_cmd53(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd53 [%x], block send...\n", addr); goto fail; } if (addr > 0) addr += nblk * block_size; buf += nblk * block_size; } if (nleft > 0) { cmd.block_mode = 0; cmd.increment = 1; cmd.count = nleft; cmd.buffer = buf; cmd.block_size = block_size; if (addr > 0) { if (!sdio_set_func0_csa_address(wilc, addr)) goto fail; } ret = wilc_sdio_cmd53(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd53 [%x], bytes send...\n", addr); goto fail; } } return 1; fail: return 0; } static int sdio_read_reg(struct wilc *wilc, u32 addr, u32 *data) { struct sdio_func *func = dev_to_sdio_func(wilc->dev); struct wilc_sdio *sdio_priv = wilc->bus_data; int ret; if (addr >= 0xf0 && addr <= 0xff) { struct sdio_cmd52 cmd; cmd.read_write = 0; cmd.function = 0; cmd.raw = 0; cmd.address = addr; ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd 52, read reg (%08x) ...\n", addr); goto fail; } *data = cmd.data; } else { struct sdio_cmd53 cmd; if (!sdio_set_func0_csa_address(wilc, addr)) goto fail; cmd.read_write = 0; cmd.function = 0; cmd.address = 0x10f; cmd.block_mode = 0; cmd.increment = 1; cmd.count = 4; cmd.buffer = (u8 *)data; cmd.block_size = sdio_priv->block_size; ret = wilc_sdio_cmd53(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd53, read reg (%08x)...\n", addr); goto fail; } } le32_to_cpus(data); return 1; fail: return 0; } static int sdio_read(struct wilc *wilc, u32 addr, u8 *buf, u32 size) { struct sdio_func *func = dev_to_sdio_func(wilc->dev); struct wilc_sdio *sdio_priv = wilc->bus_data; u32 block_size = sdio_priv->block_size; struct sdio_cmd53 cmd; int nblk, nleft, ret; cmd.read_write = 0; if (addr > 0) { /** * has to be word aligned... **/ if (size & 0x3) { size += 4; size &= ~0x3; } /** * func 0 access **/ cmd.function = 0; cmd.address = 0x10f; } else { /** * has to be word aligned... **/ if (size & 0x3) { size += 4; size &= ~0x3; } /** * func 1 access **/ cmd.function = 1; cmd.address = 0; } nblk = size / block_size; nleft = size % block_size; if (nblk > 0) { cmd.block_mode = 1; cmd.increment = 1; cmd.count = nblk; cmd.buffer = buf; cmd.block_size = block_size; if (addr > 0) { if (!sdio_set_func0_csa_address(wilc, addr)) goto fail; } ret = wilc_sdio_cmd53(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd53 [%x], block read...\n", addr); goto fail; } if (addr > 0) addr += nblk * block_size; buf += nblk * block_size; } /* if (nblk > 0) */ if (nleft > 0) { cmd.block_mode = 0; cmd.increment = 1; cmd.count = nleft; cmd.buffer = buf; cmd.block_size = block_size; if (addr > 0) { if (!sdio_set_func0_csa_address(wilc, addr)) goto fail; } ret = wilc_sdio_cmd53(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd53 [%x], bytes read...\n", addr); goto fail; } } return 1; fail: return 0; } /******************************************** * * Bus interfaces * ********************************************/ static int sdio_deinit(struct wilc *wilc) { return 1; } static int sdio_init(struct wilc *wilc, bool resume) { struct sdio_func *func = dev_to_sdio_func(wilc->dev); struct wilc_sdio *sdio_priv = wilc->bus_data; struct sdio_cmd52 cmd; int loop, ret; u32 chipid; if (!resume) sdio_priv->irq_gpio = wilc->dev_irq_num; /** * function 0 csa enable **/ cmd.read_write = 1; cmd.function = 0; cmd.raw = 1; cmd.address = 0x100; cmd.data = 0x80; ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Fail cmd 52, enable csa...\n"); goto fail; } /** * function 0 block size **/ if (!sdio_set_func0_block_size(wilc, WILC_SDIO_BLOCK_SIZE)) { dev_err(&func->dev, "Fail cmd 52, set func 0 block size...\n"); goto fail; } sdio_priv->block_size = WILC_SDIO_BLOCK_SIZE; /** * enable func1 IO **/ cmd.read_write = 1; cmd.function = 0; cmd.raw = 1; cmd.address = 0x2; cmd.data = 0x2; ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Fail cmd 52, set IOE register...\n"); goto fail; } /** * make sure func 1 is up **/ cmd.read_write = 0; cmd.function = 0; cmd.raw = 0; cmd.address = 0x3; loop = 3; do { cmd.data = 0; ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Fail cmd 52, get IOR register...\n"); goto fail; } if (cmd.data == 0x2) break; } while (loop--); if (loop <= 0) { dev_err(&func->dev, "Fail func 1 is not ready...\n"); goto fail; } /** * func 1 is ready, set func 1 block size **/ if (!sdio_set_func1_block_size(wilc, WILC_SDIO_BLOCK_SIZE)) { dev_err(&func->dev, "Fail set func 1 block size...\n"); goto fail; } /** * func 1 interrupt enable **/ cmd.read_write = 1; cmd.function = 0; cmd.raw = 1; cmd.address = 0x4; cmd.data = 0x3; ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Fail cmd 52, set IEN register...\n"); goto fail; } /** * make sure can read back chip id correctly **/ if (!resume) { if (!sdio_read_reg(wilc, 0x1000, &chipid)) { dev_err(&func->dev, "Fail cmd read chip id...\n"); goto fail; } dev_err(&func->dev, "chipid (%08x)\n", chipid); if ((chipid & 0xfff) > 0x2a0) sdio_priv->has_thrpt_enh3 = 1; else sdio_priv->has_thrpt_enh3 = 0; dev_info(&func->dev, "has_thrpt_enh3 = %d...\n", sdio_priv->has_thrpt_enh3); } return 1; fail: return 0; } static int sdio_read_size(struct wilc *wilc, u32 *size) { u32 tmp; struct sdio_cmd52 cmd; /** * Read DMA count in words **/ cmd.read_write = 0; cmd.function = 0; cmd.raw = 0; cmd.address = 0xf2; cmd.data = 0; wilc_sdio_cmd52(wilc, &cmd); tmp = cmd.data; cmd.address = 0xf3; cmd.data = 0; wilc_sdio_cmd52(wilc, &cmd); tmp |= (cmd.data << 8); *size = tmp; return 1; } static int sdio_read_int(struct wilc *wilc, u32 *int_status) { struct sdio_func *func = dev_to_sdio_func(wilc->dev); struct wilc_sdio *sdio_priv = wilc->bus_data; u32 tmp; struct sdio_cmd52 cmd; sdio_read_size(wilc, &tmp); /** * Read IRQ flags **/ if (!sdio_priv->irq_gpio) { int i; cmd.function = 1; cmd.address = 0x04; cmd.data = 0; wilc_sdio_cmd52(wilc, &cmd); if (cmd.data & BIT(0)) tmp |= INT_0; if (cmd.data & BIT(2)) tmp |= INT_1; if (cmd.data & BIT(3)) tmp |= INT_2; if (cmd.data & BIT(4)) tmp |= INT_3; if (cmd.data & BIT(5)) tmp |= INT_4; if (cmd.data & BIT(6)) tmp |= INT_5; for (i = sdio_priv->nint; i < MAX_NUM_INT; i++) { if ((tmp >> (IRG_FLAGS_OFFSET + i)) & 0x1) { dev_err(&func->dev, "Unexpected interrupt (1) : tmp=%x, data=%x\n", tmp, cmd.data); break; } } } else { u32 irq_flags; cmd.read_write = 0; cmd.function = 0; cmd.raw = 0; cmd.address = 0xf7; cmd.data = 0; wilc_sdio_cmd52(wilc, &cmd); irq_flags = cmd.data & 0x1f; tmp |= ((irq_flags >> 0) << IRG_FLAGS_OFFSET); } *int_status = tmp; return 1; } static int sdio_clear_int_ext(struct wilc *wilc, u32 val) { struct sdio_func *func = dev_to_sdio_func(wilc->dev); struct wilc_sdio *sdio_priv = wilc->bus_data; int ret; int vmm_ctl; if (sdio_priv->has_thrpt_enh3) { u32 reg; if (sdio_priv->irq_gpio) { u32 flags; flags = val & (BIT(MAX_NUN_INT_THRPT_ENH2) - 1); reg = flags; } else { reg = 0; } /* select VMM table 0 */ if (val & SEL_VMM_TBL0) reg |= BIT(5); /* select VMM table 1 */ if (val & SEL_VMM_TBL1) reg |= BIT(6); /* enable VMM */ if (val & EN_VMM) reg |= BIT(7); if (reg) { struct sdio_cmd52 cmd; cmd.read_write = 1; cmd.function = 0; cmd.raw = 0; cmd.address = 0xf8; cmd.data = reg; ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd52, set 0xf8 data (%d) ...\n", __LINE__); goto fail; } } return 1; } if (sdio_priv->irq_gpio) { /* has_thrpt_enh2 uses register 0xf8 to clear interrupts. */ /* * Cannot clear multiple interrupts. * Must clear each interrupt individually. */ u32 flags; flags = val & (BIT(MAX_NUM_INT) - 1); if (flags) { int i; ret = 1; for (i = 0; i < sdio_priv->nint; i++) { if (flags & 1) { struct sdio_cmd52 cmd; cmd.read_write = 1; cmd.function = 0; cmd.raw = 0; cmd.address = 0xf8; cmd.data = BIT(i); ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd52, set 0xf8 data (%d) ...\n", __LINE__); goto fail; } } if (!ret) break; flags >>= 1; } if (!ret) goto fail; for (i = sdio_priv->nint; i < MAX_NUM_INT; i++) { if (flags & 1) dev_err(&func->dev, "Unexpected interrupt cleared %d...\n", i); flags >>= 1; } } } vmm_ctl = 0; /* select VMM table 0 */ if (val & SEL_VMM_TBL0) vmm_ctl |= BIT(0); /* select VMM table 1 */ if (val & SEL_VMM_TBL1) vmm_ctl |= BIT(1); /* enable VMM */ if (val & EN_VMM) vmm_ctl |= BIT(2); if (vmm_ctl) { struct sdio_cmd52 cmd; cmd.read_write = 1; cmd.function = 0; cmd.raw = 0; cmd.address = 0xf6; cmd.data = vmm_ctl; ret = wilc_sdio_cmd52(wilc, &cmd); if (ret) { dev_err(&func->dev, "Failed cmd52, set 0xf6 data (%d) ...\n", __LINE__); goto fail; } } return 1; fail: return 0; } static int sdio_sync_ext(struct wilc *wilc, int nint) { struct sdio_func *func = dev_to_sdio_func(wilc->dev); struct wilc_sdio *sdio_priv = wilc->bus_data; u32 reg; if (nint > MAX_NUM_INT) { dev_err(&func->dev, "Too many interrupts (%d)...\n", nint); return 0; } if (nint > MAX_NUN_INT_THRPT_ENH2) { dev_err(&func->dev, "Cannot support more than 5 interrupts when has_thrpt_enh2=1.\n"); return 0; } sdio_priv->nint = nint; /** * Disable power sequencer **/ if (!sdio_read_reg(wilc, WILC_MISC, ®)) { dev_err(&func->dev, "Failed read misc reg...\n"); return 0; } reg &= ~BIT(8); if (!sdio_write_reg(wilc, WILC_MISC, reg)) { dev_err(&func->dev, "Failed write misc reg...\n"); return 0; } if (sdio_priv->irq_gpio) { u32 reg; int ret, i; /** * interrupt pin mux select **/ ret = sdio_read_reg(wilc, WILC_PIN_MUX_0, ®); if (!ret) { dev_err(&func->dev, "Failed read reg (%08x)...\n", WILC_PIN_MUX_0); return 0; } reg |= BIT(8); ret = sdio_write_reg(wilc, WILC_PIN_MUX_0, reg); if (!ret) { dev_err(&func->dev, "Failed write reg (%08x)...\n", WILC_PIN_MUX_0); return 0; } /** * interrupt enable **/ ret = sdio_read_reg(wilc, WILC_INTR_ENABLE, ®); if (!ret) { dev_err(&func->dev, "Failed read reg (%08x)...\n", WILC_INTR_ENABLE); return 0; } for (i = 0; (i < 5) && (nint > 0); i++, nint--) reg |= BIT((27 + i)); ret = sdio_write_reg(wilc, WILC_INTR_ENABLE, reg); if (!ret) { dev_err(&func->dev, "Failed write reg (%08x)...\n", WILC_INTR_ENABLE); return 0; } if (nint) { ret = sdio_read_reg(wilc, WILC_INTR2_ENABLE, ®); if (!ret) { dev_err(&func->dev, "Failed read reg (%08x)...\n", WILC_INTR2_ENABLE); return 0; } for (i = 0; (i < 3) && (nint > 0); i++, nint--) reg |= BIT(i); ret = sdio_read_reg(wilc, WILC_INTR2_ENABLE, ®); if (!ret) { dev_err(&func->dev, "Failed write reg (%08x)...\n", WILC_INTR2_ENABLE); return 0; } } } return 1; } /* Global sdio HIF function table */ static const struct wilc_hif_func wilc_hif_sdio = { .hif_init = sdio_init, .hif_deinit = sdio_deinit, .hif_read_reg = sdio_read_reg, .hif_write_reg = sdio_write_reg, .hif_block_rx = sdio_read, .hif_block_tx = sdio_write, .hif_read_int = sdio_read_int, .hif_clear_int_ext = sdio_clear_int_ext, .hif_read_size = sdio_read_size, .hif_block_tx_ext = sdio_write, .hif_block_rx_ext = sdio_read, .hif_sync_ext = sdio_sync_ext, .enable_interrupt = wilc_sdio_enable_interrupt, .disable_interrupt = wilc_sdio_disable_interrupt, };
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