diff --git a/firmware/SOURCES b/firmware/SOURCES index 29ee03d040..d7d2b6939d 100644 --- a/firmware/SOURCES +++ b/firmware/SOURCES @@ -760,6 +760,7 @@ target/arm/lcd-as-memframe.S target/arm/mmu-arm.S target/arm/imx31/debug-imx31.c target/arm/imx31/rolo_restart.S +target/arm/imx31/sdma-imx31.c target/arm/imx31/gigabeat-s/adc-imx31.c target/arm/imx31/gigabeat-s/ata-imx31.c target/arm/imx31/gigabeat-s/avic-imx31.c @@ -782,7 +783,6 @@ target/arm/imx31/gigabeat-s/system-imx31.c target/arm/imx31/gigabeat-s/usb-imx31.c target/arm/imx31/gigabeat-s/wmcodec-imx31.c #ifndef BOOTLOADER -target/arm/imx31/sdma-imx31.c target/arm/imx31/gigabeat-s/audio-gigabeat-s.c target/arm/imx31/gigabeat-s/fmradio-i2c-gigabeat-s.c target/arm/imx31/gigabeat-s/headphone-gigabeat-s.c diff --git a/firmware/export/config-gigabeat-s.h b/firmware/export/config-gigabeat-s.h index f55a4fd382..17ee39352c 100644 --- a/firmware/export/config-gigabeat-s.h +++ b/firmware/export/config-gigabeat-s.h @@ -186,6 +186,9 @@ /* Define this if you have ATA power-off control */ #define HAVE_ATA_POWER_OFF +/* Define this to add support for ATA DMA */ +#define HAVE_ATA_DMA + /* Virtual LED (icon) */ #define CONFIG_LED LED_VIRTUAL diff --git a/firmware/export/imx31l.h b/firmware/export/imx31l.h index 49084c0d8e..ea2187e0c2 100755 --- a/firmware/export/imx31l.h +++ b/firmware/export/imx31l.h @@ -497,11 +497,11 @@ #define ATA_IORDY_EN (1 << 0) /* ATA_INTERRUPT_PENDING, ATA_INTERRUPT_ENABLE, ATA_INTERRUPT_CLEAR flags */ -#define ATA_INTRQ1 (1 << 7) +#define ATA_INTRQ1 (1 << 7) /* INTRQ to the DMA */ #define ATA_FIFO_UNDERFLOW (1 << 6) #define ATA_FIFO_OVERFLOW (1 << 5) #define ATA_CONTROLLER_IDLE (1 << 4) -#define ATA_INTRQ2 (1 << 3) +#define ATA_INTRQ2 (1 << 3) /* INTRQ to the MCU */ /* EPIT */ #define EPITCR1 (*(REG32_PTR_T)(EPIT1_BASE_ADDR+0x00)) diff --git a/firmware/target/arm/imx31/boot.lds b/firmware/target/arm/imx31/boot.lds index b108ba181d..e08b4bfb7a 100644 --- a/firmware/target/arm/imx31/boot.lds +++ b/firmware/target/arm/imx31/boot.lds @@ -55,6 +55,8 @@ SECTIONS *(.idata) *(.data*) . = ALIGN(0x4); + *(.sdmacode) + . = ALIGN(0x4); _dataend = . ; } > DRAM diff --git a/firmware/target/arm/imx31/gigabeat-s/ata-imx31.c b/firmware/target/arm/imx31/gigabeat-s/ata-imx31.c index 59b89c02c9..c32dead30a 100644 --- a/firmware/target/arm/imx31/gigabeat-s/ata-imx31.c +++ b/firmware/target/arm/imx31/gigabeat-s/ata-imx31.c @@ -28,7 +28,12 @@ #include "ata.h" #include "ata-target.h" #include "clkctl-imx31.h" +#ifdef HAVE_ATA_DMA +#include "sdma-imx31.h" +#include "mmu-imx31.h" +#endif +/* PIO modes timing info */ static const struct ata_pio_timings { uint16_t time_2w; /* t2 during write */ @@ -83,26 +88,217 @@ static const struct ata_pio_timings .time_ax = 35, .time_4 = 10, .time_9 = 10 - }, + } }; -static int pio_mode = 0; /* Setup mode 0 by default */ +/* Track first init */ +static bool initialized = false; + +#ifdef HAVE_ATA_DMA +/* One DMA channel for reads, the other for writes othewise one channel would + * have to be reinitialized every time the direction changed. (Different + * SDMA scripts are used for reading or writing) */ +#define ATA_DMA_CH_NUM_RD 3 +#define ATA_DMA_CH_NUM_WR 4 +/* Use default priority for these channels (1) - ATA isn't realtime urgent. */ +/* Maximum DMA size per buffer descriptor (32-byte aligned) */ +#define ATA_MAX_BD_SIZE (65534 & ~31) /* 65504 */ + +/* Number of buffer descriptors required for a maximum sector count trasfer. + * NOTE: Assumes LBA28 and 512-byte sectors! */ +#define ATA_BASE_BD_COUNT ((256*512 + (ATA_MAX_BD_SIZE-1)) / ATA_MAX_BD_SIZE) +#define ATA_BD_COUNT (ATA_BASE_BD_COUNT + 2) + +static const struct ata_mdma_timings +{ + uint8_t time_m; /* tM */ + uint8_t time_jn; /* tH */ + uint8_t time_d; /* tD */ + uint8_t time_k; /* tKW */ +} mdma_timings[] = +{ + [0] = /* MDMA mode 0 */ + { + .time_m = 50, + .time_jn = 20, + .time_d = 215, + .time_k = 215 + }, + [1] = /* MDMA mode 1 */ + { + .time_m = 30, + .time_jn = 15, + .time_d = 80, + .time_k = 50 + }, + [2] = /* MDMA mode 2 */ + { + .time_m = 25, + .time_jn = 10, + .time_d = 70, + .time_k = 25 + } +}; + +static const struct ata_udma_timings +{ + uint8_t time_ack; /* tACK */ + uint8_t time_env; /* tENV */ + uint8_t time_rpx; /* tRP */ + uint8_t time_zah; /* tZAH */ + uint8_t time_mlix; /* tMLI */ + uint8_t time_dvh; /* tDVH */ + uint8_t time_dzfs; /* tDVS+tDVH? */ + uint8_t time_dvs; /* tDVS */ + uint8_t time_cvh; /* ?? */ + uint8_t time_ss; /* tSS */ + uint8_t time_cyc; /* tCYC */ +} udma_timings[] = +{ + [0] = /* UDMA mode 0 */ + { + .time_ack = 20, + .time_env = 20, + .time_rpx = 160, + .time_zah = 20, + .time_mlix = 20, + .time_dvh = 6, + .time_dzfs = 80, + .time_dvs = 70, + .time_cvh = 6, + .time_ss = 50, + .time_cyc = 114 + }, + [1] = /* UDMA mode 1 */ + { + .time_ack = 20, + .time_env = 20, + .time_rpx = 125, + .time_zah = 20, + .time_mlix = 20, + .time_dvh = 6, + .time_dzfs = 63, + .time_dvs = 48, + .time_cvh = 6, + .time_ss = 50, + .time_cyc = 75 + }, + [2] = /* UDMA mode 2 */ + { + .time_ack = 20, + .time_env = 20, + .time_rpx = 100, + .time_zah = 20, + .time_mlix = 20, + .time_dvh = 6, + .time_dzfs = 47, + .time_dvs = 34, + .time_cvh = 6, + .time_ss = 50, + .time_cyc = 55 + }, + [3] = /* UDMA mode 3 */ + { + .time_ack = 20, + .time_env = 20, + .time_rpx = 100, + .time_zah = 20, + .time_mlix = 20, + .time_dvh = 6, + .time_dzfs = 35, + .time_dvs = 20, + .time_cvh = 6, + .time_ss = 50, + .time_cyc = 39 + }, + [4] = /* UDMA mode 4 */ + { + .time_ack = 20, + .time_env = 20, + .time_rpx = 100, + .time_zah = 20, + .time_mlix = 20, + .time_dvh = 6, + .time_dzfs = 25, + .time_dvs = 7, + .time_cvh = 6, + .time_ss = 50, + .time_cyc = 25 + }, +#if 0 + [5] = /* UDMA mode 5 (bus clock 80MHz or higher only) */ + { + .time_ack = 20, + .time_env = 20, + .time_rpx = 85, + .time_zah = 20, + .time_mlix = 20, + .time_dvh = 6, + .time_dzfs = 40, + .time_dvs = 5, + .time_cvh = 10, + .time_ss = 50, + .time_cyc = 17 + } +#endif +}; + +/** Threading **/ +/* Signal to tell thread when DMA is done */ +static struct wakeup ata_dma_wakeup; + +/** SDMA **/ +/* Array of buffer descriptors for large transfers and alignnment */ +static struct buffer_descriptor ata_bda[ATA_BD_COUNT] DEVBSS_ATTR; +/* ATA channel descriptors */ +static struct channel_descriptor ata_cd_rd DEVBSS_ATTR; /* read channel */ +static struct channel_descriptor ata_cd_wr DEVBSS_ATTR; /* write channel */ +/* DMA channel to be started for transfer */ +static unsigned int current_channel = 0; + +/** Buffers **/ +/* Scatter buffer for first and last 32 bytes of a non cache-aligned transfer + * to cached RAM. */ +static uint32_t scatter_buffer[32/4*2] DEVBSS_ATTR; +/* Address of ends in destination buffer for unaligned reads - copied after + * DMA completes. */ +static void *sb_dst[2] = { NULL, NULL }; + +/** Modes **/ +#define ATA_DMA_MWDMA 0x00000000 /* Using multiword DMA */ +#define ATA_DMA_UDMA ATA_DMA_ULTRA_SELECTED /* Using Ultra DMA */ +#define ATA_DMA_PIO 0x80000000 /* Using PIO */ +#define ATA_DMA_DISABLED 0x80000001 /* DMA init error - use PIO */ +static unsigned long ata_dma_selected = ATA_DMA_PIO; +#endif /* HAVE_ATA_DMA */ + +static unsigned int get_T(void) +{ + /* T = ATA clock period in nanoseconds */ + return 1000 * 1000 * 1000 / imx31_clkctl_get_ata_clk(); +} static void ata_wait_for_idle(void) { while (!(ATA_INTERRUPT_PENDING & ATA_CONTROLLER_IDLE)); } +/* Route the INTRQ to either the MCU or SDMA depending upon whether there is + * a DMA transfer in progress. */ +static inline void ata_set_intrq(bool to_dma) +{ + ATA_INTERRUPT_ENABLE = + (ATA_INTERRUPT_ENABLE & ~(ATA_INTRQ1 | ATA_INTRQ2)) | + (to_dma ? ATA_INTRQ1 : ATA_INTRQ2); +} + /* Setup the timing for PIO mode */ void ata_set_pio_timings(int mode) { - ata_wait_for_idle(); - const struct ata_pio_timings * const timings = &pio_timings[mode]; - /* T = period in nanoseconds */ - int T = 1000 * 1000 * 1000 / imx31_clkctl_get_ata_clk(); + unsigned int T = get_T(); - pio_mode = mode; + ata_wait_for_idle(); ATA_TIME_1 = (timings->time_1 + T) / T; ATA_TIME_2W = (timings->time_2w + T) / T; @@ -118,10 +314,10 @@ void ata_reset(void) /* Be sure we're not busy */ ata_wait_for_idle(); - ATA_INTF_CONTROL &= ~ATA_ATA_RST; - sleep(1); - ATA_INTF_CONTROL |= ATA_ATA_RST; - sleep(1); + ATA_INTF_CONTROL &= ~(ATA_ATA_RST | ATA_FIFO_RST); + sleep(HZ/100); + ATA_INTF_CONTROL = ATA_ATA_RST | ATA_FIFO_RST; + sleep(HZ/100); ata_wait_for_idle(); } @@ -130,16 +326,17 @@ void ata_enable(bool on) { /* Unconditionally clock module before writing regs */ imx31_clkctl_module_clock_gating(CG_ATA, CGM_ON_ALL); + ata_wait_for_idle(); if (on) { - ATA_INTF_CONTROL |= ATA_ATA_RST; + ATA_INTF_CONTROL = ATA_ATA_RST | ATA_FIFO_RST; + sleep(HZ/100); } else { - ata_wait_for_idle(); - - ATA_INTF_CONTROL &= ~ATA_ATA_RST; + ATA_INTF_CONTROL &= ~(ATA_ATA_RST | ATA_FIFO_RST); + sleep(HZ/100); /* Disable off - unclock ATA module */ imx31_clkctl_module_clock_gating(CG_ATA, CGM_OFF); @@ -151,16 +348,338 @@ bool ata_is_coldstart(void) return true; } +#ifdef HAVE_ATA_DMA +static void ata_set_mdma_timings(unsigned int mode) +{ + const struct ata_mdma_timings * const timings = &mdma_timings[mode]; + unsigned int T = get_T(); + + ATA_TIME_M = (timings->time_m + T) / T; + ATA_TIME_JN = (timings->time_jn + T) / T; + ATA_TIME_D = (timings->time_d + T) / T; + ATA_TIME_K = (timings->time_k + T) / T; +} + +static void ata_set_udma_timings(unsigned int mode) +{ + const struct ata_udma_timings * const timings = &udma_timings[mode]; + unsigned int T = get_T(); + + ATA_TIME_ACK = (timings->time_ack + T) / T; + ATA_TIME_ENV = (timings->time_env + T) / T; + ATA_TIME_RPX = (timings->time_rpx + T) / T; + ATA_TIME_ZAH = (timings->time_zah + T) / T; + ATA_TIME_MLIX = (timings->time_mlix + T) / T; + ATA_TIME_DVH = (timings->time_dvh + T) / T + 1; + ATA_TIME_DZFS = (timings->time_dzfs + T) / T; + ATA_TIME_DVS = (timings->time_dvs + T) / T; + ATA_TIME_CVH = (timings->time_cvh + T) / T; + ATA_TIME_SS = (timings->time_ss + T) / T; + ATA_TIME_CYC = (timings->time_cyc + T) / T; +} + +void ata_dma_set_mode(unsigned char mode) +{ + unsigned int modeidx = mode & 0x07; + unsigned int dmamode = mode & 0xf8; + + ata_wait_for_idle(); + + if (ata_dma_selected == ATA_DMA_DISABLED) + { + /* Configuration error - no DMA */ + } + else if (dmamode == 0x40 && modeidx <= ATA_MAX_UDMA) + { + /* Using Ultra DMA */ + ata_set_udma_timings(dmamode); + ata_dma_selected = ATA_DMA_UDMA; + } + else if (dmamode == 0x20 && modeidx <= ATA_MAX_MWDMA) + { + /* Using Multiword DMA */ + ata_set_mdma_timings(dmamode); + ata_dma_selected = ATA_DMA_MWDMA; + } + else + { + /* Don't understand this - force PIO. */ + ata_dma_selected = ATA_DMA_PIO; + } +} + +/* Called by SDMA when transfer is complete */ +static void ata_dma_callback(void) +{ + /* Clear FIFO if not empty - shouldn't happen */ + while (ATA_FIFO_FILL != 0) + ATA_FIFO_DATA_32; + + /* Clear FIFO interrupts (the only ones that can be) */ + ATA_INTERRUPT_CLEAR = ATA_INTERRUPT_PENDING; + + ata_set_intrq(false); /* Return INTRQ to MCU */ + wakeup_signal(&ata_dma_wakeup); /* Signal waiting thread */ +} + +bool ata_dma_setup(void *addr, unsigned long bytes, bool write) +{ + struct buffer_descriptor *bd_p; + unsigned char *buf; + + if (UNLIKELY(bytes > ATA_BASE_BD_COUNT*ATA_MAX_BD_SIZE || + (ata_dma_selected & ATA_DMA_PIO))) + { + /* Too much? Implies BD count should be reevaluated since this + * shouldn't be reached based upon size. Otherwise we simply didn't + * understand the DMA mode setup. Force PIO in both cases. */ + ATA_INTF_CONTROL = ATA_FIFO_RST | ATA_ATA_RST; + return false; + } + + bd_p = &ata_bda[0]; + buf = (unsigned char *)addr_virt_to_phys((unsigned long)addr); + sb_dst[0] = NULL; /* Assume not needed */ + + if (write) + { + /* No cache alignment concerns */ + current_channel = ATA_DMA_CH_NUM_WR; + + if (LIKELY(buf != addr)) + { + /* addr is virtual */ + clean_dcache_range(addr, bytes); + } + + /* Setup ATA controller for DMA transmit */ + ATA_INTF_CONTROL = ATA_FIFO_RST | ATA_ATA_RST | ATA_FIFO_TX_EN | + ATA_DMA_PENDING | ata_dma_selected | ATA_DMA_WRITE; + ATA_FIFO_ALARM = SDMA_ATA_WML / 2; + } + else + { + current_channel = ATA_DMA_CH_NUM_RD; + + /* Setup ATA controller for DMA receive */ + ATA_INTF_CONTROL = ATA_FIFO_RST | ATA_ATA_RST | ATA_FIFO_RCV_EN | + ATA_DMA_PENDING | ata_dma_selected; + ATA_FIFO_ALARM = SDMA_ATA_WML / 2; + + if (LIKELY(buf != addr)) + { + /* addr is virtual */ + dump_dcache_range(addr, bytes); + + if ((unsigned long)addr & 31) + { + /* Not cache aligned, must use scatter buffers for first and + * last 32 bytes. */ + unsigned char *bufstart = buf; + + sb_dst[0] = addr; + bd_p->buf_addr = scatter_buffer; + bd_p->mode.count = 32; + bd_p->mode.status = BD_DONE | BD_CONT; + + buf += 32; + bytes -= 32; + bd_p++; + + while (bytes > ATA_MAX_BD_SIZE) + { + bd_p->buf_addr = buf; + bd_p->mode.count = ATA_MAX_BD_SIZE; + bd_p->mode.status = BD_DONE | BD_CONT; + buf += ATA_MAX_BD_SIZE; + bytes -= ATA_MAX_BD_SIZE; + bd_p++; + } + + if (bytes > 32) + { + unsigned long size = bytes - 32; + bd_p->buf_addr = buf; + bd_p->mode.count = size; + bd_p->mode.status = BD_DONE | BD_CONT; + buf += size; + bd_p++; + } + + /* There will be exactly 32 bytes left */ + + /* Final buffer - wrap to base bd, interrupt */ + sb_dst[1] = addr + (buf - bufstart); + bd_p->buf_addr = &scatter_buffer[32/4]; + bd_p->mode.count = 32; + bd_p->mode.status = BD_DONE | BD_WRAP | BD_INTR; + + return true; + } + } + } + + /* Setup buffer descriptors for both cache-aligned reads and all write + * operations. */ + while (bytes > ATA_MAX_BD_SIZE) + { + bd_p->buf_addr = buf; + bd_p->mode.count = ATA_MAX_BD_SIZE; + bd_p->mode.status = BD_DONE | BD_CONT; + buf += ATA_MAX_BD_SIZE; + bytes -= ATA_MAX_BD_SIZE; + bd_p++; + } + + /* Final buffer - wrap to base bd, interrupt */ + bd_p->buf_addr = buf; + bd_p->mode.count = bytes; + bd_p->mode.status = BD_DONE | BD_WRAP | BD_INTR; + + return true; +} + +bool ata_dma_finish(void) +{ + unsigned int channel = current_channel; + long timeout = current_tick + HZ*10; + + current_channel = 0; + + ata_set_intrq(true); /* Give INTRQ to DMA */ + sdma_channel_run(channel); /* Kick the channel to wait for events */ + + while (1) + { + int oldirq; + + if (LIKELY(wakeup_wait(&ata_dma_wakeup, HZ/2) == OBJ_WAIT_SUCCEEDED)) + break; + + ata_keep_active(); + + if (TIME_BEFORE(current_tick, timeout)) + continue; + + /* Epic fail - timed out - maybe. */ + oldirq = disable_irq_save(); + ata_set_intrq(false); /* Strip INTRQ from DMA */ + sdma_channel_stop(channel); /* Stop DMA */ + restore_irq(oldirq); + + if (wakeup_wait(&ata_dma_wakeup, TIMEOUT_NOBLOCK) == OBJ_WAIT_SUCCEEDED) + break; /* DMA really did finish after timeout */ + + sdma_channel_reset(channel); /* Reset everything + clear error */ + return false; + } + + if (sdma_channel_is_error(channel)) + { + /* Channel error in one or more descriptors */ + sdma_channel_reset(channel); /* Reset everything + clear error */ + return false; + } + + if (sb_dst[0] != NULL) + { + /* NOTE: This requires that unaligned access support be enabled! */ + register void *sbs = scatter_buffer; + register void *sbd0 = sb_dst[0]; + register void *sbd1 = sb_dst[1]; + asm volatile( + "add r0, %1, #32 \n" /* Prefetch at DMA-direct boundaries */ + "mcrr p15, 2, r0, r0, c12 \n" + "mcrr p15, 2, %2, %2, c12 \n" + "ldmia %0!, { r0-r3 } \n" /* Copy the 32-bytes to destination */ + "str r0, [%1], #4 \n" /* stmia doesn't work unaligned */ + "str r1, [%1], #4 \n" + "str r2, [%1], #4 \n" + "str r3, [%1], #4 \n" + "ldmia %0!, { r0-r3 } \n" + "str r0, [%1], #4 \n" + "str r1, [%1], #4 \n" + "str r2, [%1], #4 \n" + "str r3, [%1] \n" + "ldmia %0!, { r0-r3 } \n" /* Copy the 32-bytes to destination */ + "str r0, [%2], #4 \n" /* stmia doesn't work unaligned */ + "str r1, [%2], #4 \n" + "str r2, [%2], #4 \n" + "str r3, [%2], #4 \n" + "ldmia %0!, { r0-r3 } \n" + "str r0, [%2], #4 \n" + "str r1, [%2], #4 \n" + "str r2, [%2], #4 \n" + "str r3, [%2] \n" + : "+r"(sbs), "+r"(sbd0), "+r"(sbd1) + : + : "r0", "r1", "r2", "r3"); + } + + return true; +} +#endif /* HAVE_ATA_DMA */ + void ata_device_init(void) { /* Make sure we're not in reset mode */ ata_enable(true); + if (!initialized) + { + ATA_INTERRUPT_ENABLE = 0; + ATA_INTERRUPT_CLEAR = ATA_INTERRUPT_PENDING; + } + + ata_set_intrq(false); + + if (initialized) + return; + /* All modes use same tOFF/tON */ ATA_TIME_OFF = 3; ATA_TIME_ON = 3; - /* mode may be switched later once identify info is ready in which + /* Setup mode 0 for all by default + * Mode may be switched later once identify info is ready in which * case the main driver calls back */ - ata_set_pio_timings(pio_mode); + ata_set_pio_timings(0); + +#ifdef HAVE_ATA_DMA + ata_set_mdma_timings(0); + ata_set_udma_timings(0); + + ata_dma_selected = ATA_DMA_PIO; + + /* Called for first time at startup */ + wakeup_init(&ata_dma_wakeup); + + /* Read/write channels share buffer descriptors */ + ata_cd_rd.bd_count = ATA_BD_COUNT; + ata_cd_rd.callback = ata_dma_callback; + ata_cd_rd.shp_addr = SDMA_PER_ADDR_ATA_RX; + ata_cd_rd.wml = SDMA_ATA_WML; + ata_cd_rd.per_type = SDMA_PER_ATA; + ata_cd_rd.tran_type = SDMA_TRAN_PER_2_EMI; + ata_cd_rd.event_id1 = SDMA_REQ_ATA_TXFER_END; + ata_cd_rd.event_id2 = SDMA_REQ_ATA_RX; + + ata_cd_wr.bd_count = ATA_BD_COUNT; + ata_cd_wr.callback = ata_dma_callback; + ata_cd_wr.shp_addr = SDMA_PER_ADDR_ATA_TX; + ata_cd_wr.wml = SDMA_ATA_WML; + ata_cd_wr.per_type = SDMA_PER_ATA; + ata_cd_wr.tran_type = SDMA_TRAN_EMI_2_PER; + ata_cd_wr.event_id1 = SDMA_REQ_ATA_TXFER_END; + ata_cd_wr.event_id2 = SDMA_REQ_ATA_TX; + + if (!sdma_channel_init(ATA_DMA_CH_NUM_RD, &ata_cd_rd, ata_bda) || + !sdma_channel_init(ATA_DMA_CH_NUM_WR, &ata_cd_wr, ata_bda)) + { + /* Channel init error - disable DMA forever */ + ata_dma_selected = ATA_DMA_DISABLED; + } +#endif /* HAVE_ATA_DMA */ + + initialized = true; } diff --git a/firmware/target/arm/imx31/gigabeat-s/ata-target.h b/firmware/target/arm/imx31/gigabeat-s/ata-target.h index f9579a242d..8b308f28b5 100644 --- a/firmware/target/arm/imx31/gigabeat-s/ata-target.h +++ b/firmware/target/arm/imx31/gigabeat-s/ata-target.h @@ -26,13 +26,14 @@ #endif /* Plain C read & write loops */ +/* They likely won't be used anyway since DMA potentially works for any + * sector number and alignment. */ #define PREFER_C_READING #define PREFER_C_WRITING -#if 0 -#if !defined(BOOTLOADER) -#define ATA_OPTIMIZED_WRITING -void copy_write_sectors(const unsigned char* buf, int wordcount); -#endif + +#ifdef HAVE_ATA_DMA +#define ATA_MAX_MWDMA 2 +#define ATA_MAX_UDMA 4 #endif #define ATA_DATA ATA_DRIVE_DATA diff --git a/firmware/target/arm/imx31/gigabeat-s/kernel-imx31.c b/firmware/target/arm/imx31/gigabeat-s/kernel-imx31.c index ff0c47abc2..a2f3d779eb 100644 --- a/firmware/target/arm/imx31/gigabeat-s/kernel-imx31.c +++ b/firmware/target/arm/imx31/gigabeat-s/kernel-imx31.c @@ -65,9 +65,7 @@ void tick_start(unsigned int interval_in_ms) void kernel_device_init(void) { -#ifndef BOOTLOADER sdma_init(); -#endif spi_init(); mc13783_init(); } diff --git a/firmware/target/arm/imx31/gigabeat-s/pcm-imx31.c b/firmware/target/arm/imx31/gigabeat-s/pcm-imx31.c index 649186ab2e..deaa2a0dcd 100644 --- a/firmware/target/arm/imx31/gigabeat-s/pcm-imx31.c +++ b/firmware/target/arm/imx31/gigabeat-s/pcm-imx31.c @@ -29,6 +29,8 @@ #define DMA_PLAY_CH_NUM 2 #define DMA_REC_CH_NUM 1 +#define DMA_PLAY_CH_PRIORITY 6 +#define DMA_REC_CH_PRIORITY 6 static struct buffer_descriptor dma_play_bd DEVBSS_ATTR; static struct channel_descriptor dma_play_cd DEVBSS_ATTR; @@ -126,6 +128,7 @@ void pcm_play_dma_init(void) dma_play_cd.event_id1 = SDMA_REQ_SSI2_TX1; sdma_channel_init(DMA_PLAY_CH_NUM, &dma_play_cd, &dma_play_bd); + sdma_channel_set_priority(DMA_PLAY_CH_NUM, DMA_PLAY_CH_PRIORITY); imx31_clkctl_module_clock_gating(CG_SSI1, CGM_ON_ALL); imx31_clkctl_module_clock_gating(CG_SSI2, CGM_ON_ALL); @@ -518,6 +521,7 @@ void pcm_rec_dma_init(void) dma_rec_cd.event_id1 = SDMA_REQ_SSI1_RX1; sdma_channel_init(DMA_REC_CH_NUM, &dma_rec_cd, &dma_rec_bd); + sdma_channel_set_priority(DMA_REC_CH_NUM, DMA_REC_CH_PRIORITY); } const void * pcm_rec_dma_get_peak_buffer(int *count) diff --git a/firmware/target/arm/imx31/sdma-imx31.c b/firmware/target/arm/imx31/sdma-imx31.c index d1611d6332..4c5674afb9 100644 --- a/firmware/target/arm/imx31/sdma-imx31.c +++ b/firmware/target/arm/imx31/sdma-imx31.c @@ -468,6 +468,8 @@ static bool setup_channel(struct channel_control_block *ccb_p) CHANNEL_CONTEXT_ADDR(channel), sizeof (context_buffer)/4); + ccb_p->status.error = 0; /* Clear channel-wide error flag */ + if (cd_p->is_setup != 0) return true; /* No more to do */ @@ -759,6 +761,12 @@ void sdma_channel_close(unsigned int channel) memset(ccb_p, 0x00, sizeof (struct channel_control_block)); } +/* Check channel-wide error flag */ +bool sdma_channel_is_error(unsigned int channel) +{ + return channel < CH_NUM && ccb_array[channel].status.error; +} + /* Write 32-bit words to SDMA core memory. Host endian->SDMA endian. */ void sdma_write_words(const unsigned long *buf, unsigned long start, int count) { diff --git a/firmware/target/arm/imx31/sdma-imx31.h b/firmware/target/arm/imx31/sdma-imx31.h index b7e0ab42a4..17c1b9e4f8 100644 --- a/firmware/target/arm/imx31/sdma-imx31.h +++ b/firmware/target/arm/imx31/sdma-imx31.h @@ -85,7 +85,7 @@ enum SDMA_REQUEST_TYPE { SDMA_REQ_EXT0 = 0, /* Extern DMA request from MCU1_0 */ SDMA_REQ_CCM = 1, /* DVFS/DPTC event (ccm_dvfs_sdma_int) */ - SDMA_REQ_ATA_TX_END = 2, /* ata_txfer_end_alarm (event_id) */ + SDMA_REQ_ATA_TXFER_END = 2, /* ata_txfer_end_alarm (event_id1) */ SDMA_REQ_ATA_TX = 3, /* ata_tx_fifo_alarm (event_id2) */ SDMA_REQ_ATA_RX = 4, /* ata_rcv_fifo_alarm (event_id2) */ SDMA_REQ_SIM = 5, /* */ @@ -223,5 +223,6 @@ bool sdma_channel_init(unsigned int channel, struct channel_descriptor *cd_p, struct buffer_descriptor *base_bd_p); void sdma_channel_close(unsigned int channel); +bool sdma_channel_is_error(unsigned int channel); #endif /* SDMA_IMX31_H */